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|
// VGA bios implementation
//
// Copyright (C) 2009-2013 Kevin O'Connor <kevin@koconnor.net>
// Copyright (C) 2001-2008 the LGPL VGABios developers Team
//
// This file may be distributed under the terms of the GNU LGPLv3 license.
#include "biosvar.h" // GET_BDA
#include "bregs.h" // struct bregs
#include "clext.h" // clext_1012
#include "config.h" // CONFIG_*
#include "output.h" // dprintf
#include "std/vbe.h" // VBE_RETURN_STATUS_FAILED
#include "stdvga.h" // stdvga_set_cursor_shape
#include "string.h" // memset_far
#include "vgabios.h" // calc_page_size
#include "vgahw.h" // vgahw_set_mode
/****************************************************************
* Helper functions
****************************************************************/
// Return the bits per pixel in system memory for a given mode.
int
vga_bpp(struct vgamode_s *vmode_g)
{
switch (GET_GLOBAL(vmode_g->memmodel)) {
case MM_TEXT:
return 16;
case MM_PLANAR:
return 1;
}
u8 depth = GET_GLOBAL(vmode_g->depth);
if (depth > 8)
return ALIGN(depth, 8);
return depth;
}
u16
calc_page_size(u8 memmodel, u16 width, u16 height)
{
switch (memmodel) {
case MM_TEXT:
return ALIGN(width * height * 2, 2*1024);
case MM_CGA:
return 16*1024;
default:
return ALIGN(width * height / 8, 8*1024);
}
}
// Determine cursor shape (taking into account possible cursor scaling)
u16
get_cursor_shape(void)
{
u16 cursor_type = GET_BDA(cursor_type);
u8 emulate_cursor = (GET_BDA(video_ctl) & 1) == 0;
if (!emulate_cursor)
return cursor_type;
u8 start = (cursor_type >> 8) & 0x3f;
u8 end = cursor_type & 0x1f;
u16 cheight = GET_BDA(char_height);
if (cheight <= 8 || end >= 8 || start >= 0x20)
return cursor_type;
if (end != (start + 1))
start = ((start + 1) * cheight / 8) - 1;
else
start = ((end + 1) * cheight / 8) - 2;
end = ((end + 1) * cheight / 8) - 1;
return (start << 8) | end;
}
static void
set_cursor_shape(u16 cursor_type)
{
vgafb_set_swcursor(0);
SET_BDA(cursor_type, cursor_type);
if (CONFIG_VGA_STDVGA_PORTS)
stdvga_set_cursor_shape(get_cursor_shape());
}
static void
set_cursor_pos(struct cursorpos cp)
{
u8 page = cp.page, x = cp.x, y = cp.y;
// Should not happen...
if (page > 7)
return;
vgafb_set_swcursor(0);
// Bios cursor pos
SET_BDA(cursor_pos[page], (y << 8) | x);
if (!CONFIG_VGA_STDVGA_PORTS)
return;
// Set the hardware cursor
u8 current = GET_BDA(video_page);
if (cp.page != current)
return;
// Calculate the memory address
stdvga_set_cursor_pos((int)text_address(cp));
}
struct cursorpos
get_cursor_pos(u8 page)
{
if (page == 0xff)
// special case - use current page
page = GET_BDA(video_page);
if (page > 7) {
struct cursorpos cp = { 0, 0, 0xfe };
return cp;
}
u16 xy = GET_BDA(cursor_pos[page]);
struct cursorpos cp = {xy, xy>>8, page};
return cp;
}
static void
set_active_page(u8 page)
{
if (page > 7)
return;
// Get the mode
struct vgamode_s *vmode_g = get_current_mode();
if (!vmode_g)
return;
vgafb_set_swcursor(0);
// Calculate memory address of start of page
struct cursorpos cp = {0, 0, page};
int address = (int)text_address(cp);
vgahw_set_displaystart(vmode_g, address);
// And change the BIOS page
SET_BDA(video_pagestart, address);
SET_BDA(video_page, page);
dprintf(1, "Set active page %02x address %04x\n", page, address);
// Display the cursor, now the page is active
set_cursor_pos(get_cursor_pos(page));
}
static void
set_scan_lines(u8 lines)
{
stdvga_set_scan_lines(lines);
SET_BDA(char_height, lines);
u16 vde = stdvga_get_vde();
u8 rows = vde / lines;
SET_BDA(video_rows, rows - 1);
u16 cols = GET_BDA(video_cols);
SET_BDA(video_pagesize, calc_page_size(MM_TEXT, cols, rows));
if (lines == 8)
set_cursor_shape(0x0607);
else
set_cursor_shape(((lines - 3) << 8) | (lines - 2));
}
/****************************************************************
* Character writing
****************************************************************/
// Write a character to the screen and calculate new cursor position.
static void
write_char(struct cursorpos *pcp, struct carattr ca)
{
vgafb_write_char(*pcp, ca);
pcp->x++;
// Do we need to wrap ?
if (pcp->x == GET_BDA(video_cols)) {
pcp->x = 0;
pcp->y++;
}
}
// Write a character to the screen at a given position. Implement
// special characters and scroll the screen if necessary.
static void
write_teletype(struct cursorpos *pcp, struct carattr ca)
{
switch (ca.car) {
case 7:
//FIXME should beep
break;
case 8:
if (pcp->x > 0)
pcp->x--;
break;
case '\r':
pcp->x = 0;
break;
case '\n':
pcp->y++;
break;
default:
write_char(pcp, ca);
break;
}
// Do we need to scroll ?
u16 nbrows = GET_BDA(video_rows);
if (pcp->y > nbrows) {
pcp->y--;
struct cursorpos dest = {0, 0, pcp->page};
struct cursorpos src = {0, 1, pcp->page};
struct cursorpos size = {GET_BDA(video_cols), nbrows};
vgafb_move_chars(dest, src, size);
struct cursorpos clr = {0, nbrows, pcp->page};
struct carattr attr = {' ', 0, 0};
struct cursorpos clrsize = {GET_BDA(video_cols), 1};
vgafb_clear_chars(clr, attr, clrsize);
}
}
/****************************************************************
* Save and restore bda state
****************************************************************/
struct saveBDAstate {
u8 bda_0x49[28];
u8 bda_0x84[6];
u16 vbe_mode;
struct segoff_s font0;
struct segoff_s font1;
};
int
bda_save_restore(int cmd, u16 seg, void *data)
{
if (!(cmd & SR_BDA))
return 0;
struct saveBDAstate *info = data;
if (cmd & SR_SAVE) {
memcpy_far(seg, info->bda_0x49, SEG_BDA, (void*)0x49
, sizeof(info->bda_0x49));
memcpy_far(seg, info->bda_0x84, SEG_BDA, (void*)0x84
, sizeof(info->bda_0x84));
SET_FARVAR(seg, info->vbe_mode, GET_BDA_EXT(vbe_mode));
SET_FARVAR(seg, info->font0, GET_IVT(0x1f));
SET_FARVAR(seg, info->font1, GET_IVT(0x43));
}
if (cmd & SR_RESTORE) {
memcpy_far(SEG_BDA, (void*)0x49, seg, info->bda_0x49
, sizeof(info->bda_0x49));
memcpy_far(SEG_BDA, (void*)0x84, seg, info->bda_0x84
, sizeof(info->bda_0x84));
u16 vbe_mode = GET_FARVAR(seg, info->vbe_mode);
SET_BDA_EXT(vbe_mode, vbe_mode);
struct vgamode_s *vmode_g = vgahw_find_mode(vbe_mode & ~MF_VBEFLAGS);
SET_BDA_EXT(vgamode_offset, (u32)vmode_g);
SET_IVT(0x1f, GET_FARVAR(seg, info->font0));
SET_IVT(0x43, GET_FARVAR(seg, info->font1));
}
return sizeof(*info);
}
/****************************************************************
* Mode setting
****************************************************************/
struct vgamode_s *
get_current_mode(void)
{
return (void*)(GET_BDA_EXT(vgamode_offset)+0);
}
// Setup BDA after a mode switch.
int
vga_set_mode(int mode, int flags)
{
dprintf(1, "set VGA mode %x\n", mode);
struct vgamode_s *vmode_g = vgahw_find_mode(mode);
if (!vmode_g)
return VBE_RETURN_STATUS_FAILED;
vgafb_set_swcursor(0);
int ret = vgahw_set_mode(vmode_g, flags);
if (ret)
return ret;
// Set the BIOS mem
int width = GET_GLOBAL(vmode_g->width);
int height = GET_GLOBAL(vmode_g->height);
u8 memmodel = GET_GLOBAL(vmode_g->memmodel);
int cheight = GET_GLOBAL(vmode_g->cheight);
if (mode < 0x100)
SET_BDA(video_mode, mode);
else
SET_BDA(video_mode, 0xff);
SET_BDA_EXT(vbe_mode, mode | (flags & MF_VBEFLAGS));
SET_BDA_EXT(vgamode_offset, (u32)vmode_g);
if (memmodel == MM_TEXT) {
SET_BDA(video_cols, width);
SET_BDA(video_rows, height-1);
SET_BDA(cursor_type, 0x0607);
} else {
int cwidth = GET_GLOBAL(vmode_g->cwidth);
SET_BDA(video_cols, width / cwidth);
SET_BDA(video_rows, (height / cheight) - 1);
SET_BDA(cursor_type, vga_emulate_text() ? 0x0607 : 0x0000);
}
SET_BDA(video_pagesize, calc_page_size(memmodel, width, height));
SET_BDA(crtc_address, CONFIG_VGA_STDVGA_PORTS ? stdvga_get_crtc() : 0);
SET_BDA(char_height, cheight);
SET_BDA(video_ctl, 0x60 | (flags & MF_NOCLEARMEM ? 0x80 : 0x00));
SET_BDA(video_switches, 0xF9);
SET_BDA(modeset_ctl, GET_BDA(modeset_ctl) & 0x7f);
int i;
for (i=0; i<8; i++)
SET_BDA(cursor_pos[i], 0x0000);
SET_BDA(video_pagestart, 0x0000);
SET_BDA(video_page, 0x00);
// Set the ints 0x1F and 0x43
SET_IVT(0x1f, SEGOFF(get_global_seg(), (u32)&vgafont8[128 * 8]));
switch (cheight) {
case 8:
SET_IVT(0x43, SEGOFF(get_global_seg(), (u32)vgafont8));
break;
case 14:
SET_IVT(0x43, SEGOFF(get_global_seg(), (u32)vgafont14));
break;
case 16:
SET_IVT(0x43, SEGOFF(get_global_seg(), (u32)vgafont16));
break;
}
return 0;
}
/****************************************************************
* VGA int 10 handler
****************************************************************/
static void
handle_1000(struct bregs *regs)
{
int mode = regs->al & 0x7f;
// Set regs->al
if (mode > 7)
regs->al = 0x20;
else if (mode == 6)
regs->al = 0x3f;
else
regs->al = 0x30;
int flags = MF_LEGACY | (GET_BDA(modeset_ctl) & (MF_NOPALETTE|MF_GRAYSUM));
if (regs->al & 0x80)
flags |= MF_NOCLEARMEM;
vga_set_mode(mode, flags);
}
static void
handle_1001(struct bregs *regs)
{
set_cursor_shape(regs->cx);
}
static void
handle_1002(struct bregs *regs)
{
struct cursorpos cp = {regs->dl, regs->dh, regs->bh};
set_cursor_pos(cp);
}
static void
handle_1003(struct bregs *regs)
{
regs->cx = GET_BDA(cursor_type);
struct cursorpos cp = get_cursor_pos(regs->bh);
regs->dl = cp.x;
regs->dh = cp.y;
}
// Read light pen pos (unimplemented)
static void
handle_1004(struct bregs *regs)
{
debug_stub(regs);
regs->ax = regs->bx = regs->cx = regs->dx = 0;
}
static void
handle_1005(struct bregs *regs)
{
set_active_page(regs->al);
}
static void
verify_scroll(struct bregs *regs, int dir)
{
u8 ulx = regs->cl, uly = regs->ch, lrx = regs->dl, lry = regs->dh;
u16 nbrows = GET_BDA(video_rows) + 1;
if (lry >= nbrows)
lry = nbrows - 1;
u16 nbcols = GET_BDA(video_cols);
if (lrx >= nbcols)
lrx = nbcols - 1;
int wincols = lrx - ulx + 1, winrows = lry - uly + 1;
if (wincols <= 0 || winrows <= 0)
return;
u8 page = GET_BDA(video_page);
int clearlines = regs->al, movelines = winrows - clearlines;
if (!clearlines || movelines <= 0) {
// Clear whole area.
struct cursorpos clr = {ulx, uly, page};
struct carattr attr = {' ', regs->bh, 1};
struct cursorpos clrsize = {wincols, winrows};
vgafb_clear_chars(clr, attr, clrsize);
return;
}
if (dir > 0) {
// Normal scroll
struct cursorpos dest = {ulx, uly, page};
struct cursorpos src = {ulx, uly + clearlines, page};
struct cursorpos size = {wincols, movelines};
vgafb_move_chars(dest, src, size);
struct cursorpos clr = {ulx, uly + movelines, page};
struct carattr attr = {' ', regs->bh, 1};
struct cursorpos clrsize = {wincols, clearlines};
vgafb_clear_chars(clr, attr, clrsize);
} else {
// Scroll down
struct cursorpos dest = {ulx, uly + clearlines, page};
struct cursorpos src = {ulx, uly, page};
struct cursorpos size = {wincols, movelines};
vgafb_move_chars(dest, src, size);
struct cursorpos clr = {ulx, uly, page};
struct carattr attr = {' ', regs->bh, 1};
struct cursorpos clrsize = {wincols, clearlines};
vgafb_clear_chars(clr, attr, clrsize);
}
}
static void
handle_1006(struct bregs *regs)
{
verify_scroll(regs, 1);
}
static void
handle_1007(struct bregs *regs)
{
verify_scroll(regs, -1);
}
static void
handle_1008(struct bregs *regs)
{
struct carattr ca = vgafb_read_char(get_cursor_pos(regs->bh));
regs->al = ca.car;
regs->ah = ca.attr;
}
static void noinline
handle_1009(struct bregs *regs)
{
struct carattr ca = {regs->al, regs->bl, 1};
struct cursorpos cp = get_cursor_pos(regs->bh);
int count = regs->cx;
while (count--)
write_char(&cp, ca);
}
static void noinline
handle_100a(struct bregs *regs)
{
struct carattr ca = {regs->al, regs->bl, 0};
struct cursorpos cp = get_cursor_pos(regs->bh);
int count = regs->cx;
while (count--)
write_char(&cp, ca);
}
static void
handle_100b00(struct bregs *regs)
{
stdvga_set_border_color(regs->bl);
}
static void
handle_100b01(struct bregs *regs)
{
stdvga_set_palette(regs->bl);
}
static void
handle_100bXX(struct bregs *regs)
{
debug_stub(regs);
}
static void
handle_100b(struct bregs *regs)
{
if (!CONFIG_VGA_STDVGA_PORTS) {
handle_100bXX(regs);
return;
}
switch (regs->bh) {
case 0x00: handle_100b00(regs); break;
case 0x01: handle_100b01(regs); break;
default: handle_100bXX(regs); break;
}
}
static void
handle_100c(struct bregs *regs)
{
// XXX - page (regs->bh) is unused
vgafb_write_pixel(regs->al, regs->cx, regs->dx);
}
static void
handle_100d(struct bregs *regs)
{
// XXX - page (regs->bh) is unused
regs->al = vgafb_read_pixel(regs->cx, regs->dx);
}
static void noinline
handle_100e(struct bregs *regs)
{
// Ralf Brown Interrupt list is WRONG on bh(page)
// We do output only on the current page !
struct carattr ca = {regs->al, regs->bl, 0};
struct cursorpos cp = get_cursor_pos(0xff);
write_teletype(&cp, ca);
set_cursor_pos(cp);
}
static void
handle_100f(struct bregs *regs)
{
regs->bh = GET_BDA(video_page);
regs->al = GET_BDA(video_mode) | (GET_BDA(video_ctl) & 0x80);
regs->ah = GET_BDA(video_cols);
}
static void
handle_101000(struct bregs *regs)
{
if (regs->bl > 0x14)
return;
stdvga_attr_write(regs->bl, regs->bh);
}
static void
handle_101001(struct bregs *regs)
{
stdvga_set_overscan_border_color(regs->bh);
}
static void
handle_101002(struct bregs *regs)
{
stdvga_set_all_palette_reg(regs->es, (u8*)(regs->dx + 0));
}
static void
handle_101003(struct bregs *regs)
{
stdvga_toggle_intensity(regs->bl);
}
static void
handle_101007(struct bregs *regs)
{
if (regs->bl > 0x14)
return;
regs->bh = stdvga_attr_read(regs->bl);
}
static void
handle_101008(struct bregs *regs)
{
regs->bh = stdvga_get_overscan_border_color();
}
static void
handle_101009(struct bregs *regs)
{
stdvga_get_all_palette_reg(regs->es, (u8*)(regs->dx + 0));
}
static void noinline
handle_101010(struct bregs *regs)
{
u8 rgb[3] = {regs->dh, regs->ch, regs->cl};
stdvga_dac_write(GET_SEG(SS), rgb, regs->bx, 1);
}
static void
handle_101012(struct bregs *regs)
{
stdvga_dac_write(regs->es, (u8*)(regs->dx + 0), regs->bx, regs->cx);
}
static void
handle_101013(struct bregs *regs)
{
stdvga_select_video_dac_color_page(regs->bl, regs->bh);
}
static void noinline
handle_101015(struct bregs *regs)
{
u8 rgb[3];
stdvga_dac_read(GET_SEG(SS), rgb, regs->bx, 1);
regs->dh = rgb[0];
regs->ch = rgb[1];
regs->cl = rgb[2];
}
static void
handle_101017(struct bregs *regs)
{
stdvga_dac_read(regs->es, (u8*)(regs->dx + 0), regs->bx, regs->cx);
}
static void
handle_101018(struct bregs *regs)
{
stdvga_pelmask_write(regs->bl);
}
static void
handle_101019(struct bregs *regs)
{
regs->bl = stdvga_pelmask_read();
}
static void
handle_10101a(struct bregs *regs)
{
stdvga_read_video_dac_state(®s->bl, ®s->bh);
}
static void
handle_10101b(struct bregs *regs)
{
stdvga_perform_gray_scale_summing(regs->bx, regs->cx);
}
static void
handle_1010XX(struct bregs *regs)
{
debug_stub(regs);
}
static void
handle_1010(struct bregs *regs)
{
if (!CONFIG_VGA_STDVGA_PORTS) {
handle_1010XX(regs);
return;
}
switch (regs->al) {
case 0x00: handle_101000(regs); break;
case 0x01: handle_101001(regs); break;
case 0x02: handle_101002(regs); break;
case 0x03: handle_101003(regs); break;
case 0x07: handle_101007(regs); break;
case 0x08: handle_101008(regs); break;
case 0x09: handle_101009(regs); break;
case 0x10: handle_101010(regs); break;
case 0x12: handle_101012(regs); break;
case 0x13: handle_101013(regs); break;
case 0x15: handle_101015(regs); break;
case 0x17: handle_101017(regs); break;
case 0x18: handle_101018(regs); break;
case 0x19: handle_101019(regs); break;
case 0x1a: handle_10101a(regs); break;
case 0x1b: handle_10101b(regs); break;
default: handle_1010XX(regs); break;
}
}
static void
handle_101100(struct bregs *regs)
{
stdvga_load_font(regs->es, (void*)(regs->bp+0), regs->cx
, regs->dx, regs->bl, regs->bh);
}
static void
handle_101101(struct bregs *regs)
{
stdvga_load_font(get_global_seg(), vgafont14, 0x100, 0, regs->bl, 14);
}
static void
handle_101102(struct bregs *regs)
{
stdvga_load_font(get_global_seg(), vgafont8, 0x100, 0, regs->bl, 8);
}
static void
handle_101103(struct bregs *regs)
{
stdvga_set_text_block_specifier(regs->bl);
}
static void
handle_101104(struct bregs *regs)
{
stdvga_load_font(get_global_seg(), vgafont16, 0x100, 0, regs->bl, 16);
}
static void
handle_101110(struct bregs *regs)
{
stdvga_load_font(regs->es, (void*)(regs->bp+0), regs->cx
, regs->dx, regs->bl, regs->bh);
set_scan_lines(regs->bh);
}
static void
handle_101111(struct bregs *regs)
{
stdvga_load_font(get_global_seg(), vgafont14, 0x100, 0, regs->bl, 14);
set_scan_lines(14);
}
static void
handle_101112(struct bregs *regs)
{
stdvga_load_font(get_global_seg(), vgafont8, 0x100, 0, regs->bl, 8);
set_scan_lines(8);
}
static void
handle_101114(struct bregs *regs)
{
stdvga_load_font(get_global_seg(), vgafont16, 0x100, 0, regs->bl, 16);
set_scan_lines(16);
}
static void
handle_101120(struct bregs *regs)
{
SET_IVT(0x1f, SEGOFF(regs->es, regs->bp));
}
void
load_gfx_font(u16 seg, u16 off, u8 height, u8 bl, u8 dl)
{
u8 rows;
SET_IVT(0x43, SEGOFF(seg, off));
switch(bl) {
case 0:
rows = dl;
break;
case 1:
rows = 14;
break;
case 3:
rows = 43;
break;
case 2:
default:
rows = 25;
break;
}
SET_BDA(video_rows, rows - 1);
SET_BDA(char_height, height);
}
static void
handle_101121(struct bregs *regs)
{
load_gfx_font(regs->es, regs->bp, regs->cx, regs->bl, regs->dl);
}
static void
handle_101122(struct bregs *regs)
{
load_gfx_font(get_global_seg(), (u32)vgafont14, 14, regs->bl, regs->dl);
}
static void
handle_101123(struct bregs *regs)
{
load_gfx_font(get_global_seg(), (u32)vgafont8, 8, regs->bl, regs->dl);
}
static void
handle_101124(struct bregs *regs)
{
load_gfx_font(get_global_seg(), (u32)vgafont16, 16, regs->bl, regs->dl);
}
static void
handle_101130(struct bregs *regs)
{
switch (regs->bh) {
case 0x00: {
struct segoff_s so = GET_IVT(0x1f);
regs->es = so.seg;
regs->bp = so.offset;
break;
}
case 0x01: {
struct segoff_s so = GET_IVT(0x43);
regs->es = so.seg;
regs->bp = so.offset;
break;
}
case 0x02:
regs->es = get_global_seg();
regs->bp = (u32)vgafont14;
break;
case 0x03:
regs->es = get_global_seg();
regs->bp = (u32)vgafont8;
break;
case 0x04:
regs->es = get_global_seg();
regs->bp = (u32)vgafont8 + 128 * 8;
break;
case 0x05:
regs->es = get_global_seg();
regs->bp = (u32)vgafont14alt;
break;
case 0x06:
regs->es = get_global_seg();
regs->bp = (u32)vgafont16;
break;
case 0x07:
regs->es = get_global_seg();
regs->bp = (u32)vgafont16alt;
break;
default:
dprintf(1, "Get font info BH(%02x) was discarded\n", regs->bh);
return;
}
// Set byte/char of on screen font
regs->cx = GET_BDA(char_height) & 0xff;
// Set Highest char row
regs->dl = GET_BDA(video_rows);
}
static void
handle_1011XX(struct bregs *regs)
{
debug_stub(regs);
}
static void
handle_1011(struct bregs *regs)
{
if (CONFIG_VGA_STDVGA_PORTS) {
switch (regs->al) {
case 0x00: handle_101100(regs); return;
case 0x01: handle_101101(regs); return;
case 0x02: handle_101102(regs); return;
case 0x03: handle_101103(regs); return;
case 0x04: handle_101104(regs); return;
case 0x10: handle_101110(regs); return;
case 0x11: handle_101111(regs); return;
case 0x12: handle_101112(regs); return;
case 0x14: handle_101114(regs); return;
}
}
switch (regs->al) {
case 0x30: handle_101130(regs); break;
case 0x20: handle_101120(regs); break;
case 0x21: handle_101121(regs); break;
case 0x22: handle_101122(regs); break;
case 0x23: handle_101123(regs); break;
case 0x24: handle_101124(regs); break;
default: handle_1011XX(regs); break;
}
}
static void
handle_101210(struct bregs *regs)
{
u16 crtc_addr = GET_BDA(crtc_address);
if (crtc_addr == VGAREG_MDA_CRTC_ADDRESS)
regs->bx = 0x0103;
else
regs->bx = 0x0003;
regs->cx = GET_BDA(video_switches) & 0x0f;
}
static void
handle_101230(struct bregs *regs)
{
u8 mctl = GET_BDA(modeset_ctl);
u8 vswt = GET_BDA(video_switches);
switch (regs->al) {
case 0x00:
// 200 lines
mctl = (mctl & ~0x10) | 0x80;
vswt = (vswt & ~0x0f) | 0x08;
break;
case 0x01:
// 350 lines
mctl &= ~0x90;
vswt = (vswt & ~0x0f) | 0x09;
break;
case 0x02:
// 400 lines
mctl = (mctl & ~0x80) | 0x10;
vswt = (vswt & ~0x0f) | 0x09;
break;
default:
dprintf(1, "Select vert res (%02x) was discarded\n", regs->al);
break;
}
SET_BDA(modeset_ctl, mctl);
SET_BDA(video_switches, vswt);
regs->al = 0x12;
}
static void
handle_101231(struct bregs *regs)
{
u8 v = (regs->al & 0x01) << 3;
u8 mctl = GET_BDA(video_ctl) & ~0x08;
SET_BDA(video_ctl, mctl | v);
regs->al = 0x12;
}
static void
handle_101232(struct bregs *regs)
{
if (CONFIG_VGA_STDVGA_PORTS) {
stdvga_enable_video_addressing(regs->al);
regs->al = 0x12;
}
}
static void
handle_101233(struct bregs *regs)
{
u8 v = ((regs->al << 1) & 0x02) ^ 0x02;
u8 v2 = GET_BDA(modeset_ctl) & ~0x02;
SET_BDA(modeset_ctl, v | v2);
regs->al = 0x12;
}
static void
handle_101234(struct bregs *regs)
{
SET_BDA(video_ctl, (GET_BDA(video_ctl) & ~0x01) | (regs->al & 0x01));
regs->al = 0x12;
}
static void
handle_101235(struct bregs *regs)
{
debug_stub(regs);
regs->al = 0x12;
}
static void
handle_101236(struct bregs *regs)
{
debug_stub(regs);
regs->al = 0x12;
}
static void
handle_1012XX(struct bregs *regs)
{
debug_stub(regs);
}
static void
handle_1012(struct bregs *regs)
{
if (CONFIG_VGA_CIRRUS && regs->bl >= 0x80) {
clext_1012(regs);
return;
}
switch (regs->bl) {
case 0x10: handle_101210(regs); break;
case 0x30: handle_101230(regs); break;
case 0x31: handle_101231(regs); break;
case 0x32: handle_101232(regs); break;
case 0x33: handle_101233(regs); break;
case 0x34: handle_101234(regs); break;
case 0x35: handle_101235(regs); break;
case 0x36: handle_101236(regs); break;
default: handle_1012XX(regs); break;
}
}
// Write string
static void noinline
handle_1013(struct bregs *regs)
{
struct cursorpos cp;
if (regs->dh == 0xff)
// if row=0xff special case : use current cursor position
cp = get_cursor_pos(regs->bh);
else
cp = (struct cursorpos) {regs->dl, regs->dh, regs->bh};
u16 count = regs->cx;
u8 *offset_far = (void*)(regs->bp + 0);
u8 attr = regs->bl;
while (count--) {
u8 car = GET_FARVAR(regs->es, *offset_far);
offset_far++;
if (regs->al & 2) {
attr = GET_FARVAR(regs->es, *offset_far);
offset_far++;
}
struct carattr ca = {car, attr, 1};
write_teletype(&cp, ca);
}
if (regs->al & 1)
set_cursor_pos(cp);
}
static void
handle_101a00(struct bregs *regs)
{
regs->bx = GET_BDA(dcc_index);
regs->al = 0x1a;
}
static void
handle_101a01(struct bregs *regs)
{
SET_BDA(dcc_index, regs->bl);
dprintf(1, "Alternate Display code (%02x) was discarded\n", regs->bh);
regs->al = 0x1a;
}
static void
handle_101aXX(struct bregs *regs)
{
debug_stub(regs);
}
static void
handle_101a(struct bregs *regs)
{
switch (regs->al) {
case 0x00: handle_101a00(regs); break;
case 0x01: handle_101a01(regs); break;
default: handle_101aXX(regs); break;
}
}
struct video_func_static static_functionality VAR16 = {
.modes = 0x00, // Filled in by stdvga_build_video_param()
.scanlines = 0x07, // 200, 350, 400 scan lines
.cblocks = 0x02, // mamimum number of visible charsets in text mode
.active_cblocks = 0x08, // total number of charset blocks in text mode
.misc_flags = 0x0ce7,
};
static void
handle_101b(struct bregs *regs)
{
u16 seg = regs->es;
struct video_func_info *info = (void*)(regs->di+0);
memset_far(seg, info, 0, sizeof(*info));
// Address of static functionality table
SET_FARVAR(seg, info->static_functionality
, SEGOFF(get_global_seg(), (u32)&static_functionality));
// Hard coded copy from BIOS area. Should it be cleaner ?
memcpy_far(seg, info->bda_0x49, SEG_BDA, (void*)0x49
, sizeof(info->bda_0x49));
memcpy_far(seg, info->bda_0x84, SEG_BDA, (void*)0x84
, sizeof(info->bda_0x84));
SET_FARVAR(seg, info->dcc_index, GET_BDA(dcc_index));
SET_FARVAR(seg, info->colors, 16);
SET_FARVAR(seg, info->pages, 8);
SET_FARVAR(seg, info->scan_lines, 2);
SET_FARVAR(seg, info->video_mem, 3);
regs->al = 0x1B;
}
static void
handle_101c(struct bregs *regs)
{
u16 seg = regs->es;
void *data = (void*)(regs->bx+0);
u16 states = regs->cx;
u8 cmd = regs->al;
if (states & ~0x07 || cmd > 2)
goto fail;
int ret = vgahw_save_restore(states | (cmd<<8), seg, data);
if (ret < 0)
goto fail;
if (cmd == 0)
regs->bx = ret / 64;
regs->al = 0x1c;
fail:
return;
}
static void
handle_10XX(struct bregs *regs)
{
debug_stub(regs);
}
// INT 10h Video Support Service Entry Point
void VISIBLE16
handle_10(struct bregs *regs)
{
debug_enter(regs, DEBUG_VGA_10);
switch (regs->ah) {
case 0x00: handle_1000(regs); break;
case 0x01: handle_1001(regs); break;
case 0x02: handle_1002(regs); break;
case 0x03: handle_1003(regs); break;
case 0x04: handle_1004(regs); break;
case 0x05: handle_1005(regs); break;
case 0x06: handle_1006(regs); break;
case 0x07: handle_1007(regs); break;
case 0x08: handle_1008(regs); break;
case 0x09: handle_1009(regs); break;
case 0x0a: handle_100a(regs); break;
case 0x0b: handle_100b(regs); break;
case 0x0c: handle_100c(regs); break;
case 0x0d: handle_100d(regs); break;
case 0x0e: handle_100e(regs); break;
case 0x0f: handle_100f(regs); break;
case 0x10: handle_1010(regs); break;
case 0x11: handle_1011(regs); break;
case 0x12: handle_1012(regs); break;
case 0x13: handle_1013(regs); break;
case 0x1a: handle_101a(regs); break;
case 0x1b: handle_101b(regs); break;
case 0x1c: handle_101c(regs); break;
case 0x4f: handle_104f(regs); break;
default: handle_10XX(regs); break;
}
}
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