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// Standard VGA driver code
//
// Copyright (C) 2009 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_GLOBAL
#include "farptr.h" // SET_FARVAR
#include "stdvga.h" // stdvga_setup
#include "string.h" // memset_far
#include "vgabios.h" // struct vgamode_s
#include "vgautil.h" // stdvga_attr_write
#include "x86.h" // outb
/****************************************************************
* Attribute control
****************************************************************/
void
stdvga_set_border_color(u8 color)
{
u8 v1 = color & 0x0f;
if (v1 & 0x08)
v1 += 0x08;
stdvga_attr_write(0x00, v1);
int i;
for (i = 1; i < 4; i++)
stdvga_attr_mask(i, 0x10, color & 0x10);
}
void
stdvga_set_overscan_border_color(u8 color)
{
stdvga_attr_write(0x11, color);
}
u8
stdvga_get_overscan_border_color(void)
{
return stdvga_attr_read(0x11);
}
void
stdvga_set_palette(u8 palid)
{
int i;
for (i = 1; i < 4; i++)
stdvga_attr_mask(i, 0x01, palid & 0x01);
}
void
stdvga_set_all_palette_reg(u16 seg, u8 *data_far)
{
int i;
for (i = 0; i < 0x10; i++) {
stdvga_attr_write(i, GET_FARVAR(seg, *data_far));
data_far++;
}
stdvga_attr_write(0x11, GET_FARVAR(seg, *data_far));
}
void
stdvga_get_all_palette_reg(u16 seg, u8 *data_far)
{
int i;
for (i = 0; i < 0x10; i++) {
SET_FARVAR(seg, *data_far, stdvga_attr_read(i));
data_far++;
}
SET_FARVAR(seg, *data_far, stdvga_attr_read(0x11));
}
void
stdvga_toggle_intensity(u8 flag)
{
stdvga_attr_mask(0x10, 0x08, (flag & 0x01) << 3);
}
void
stdvga_select_video_dac_color_page(u8 flag, u8 data)
{
if (!(flag & 0x01)) {
// select paging mode
stdvga_attr_mask(0x10, 0x80, data << 7);
return;
}
// select page
u8 val = stdvga_attr_read(0x10);
if (!(val & 0x80))
data <<= 2;
data &= 0x0f;
stdvga_attr_write(0x14, data);
}
void
stdvga_read_video_dac_state(u8 *pmode, u8 *curpage)
{
u8 val1 = stdvga_attr_read(0x10) >> 7;
u8 val2 = stdvga_attr_read(0x14) & 0x0f;
if (!(val1 & 0x01))
val2 >>= 2;
*pmode = val1;
*curpage = val2;
}
/****************************************************************
* DAC control
****************************************************************/
void
stdvga_perform_gray_scale_summing(u16 start, u16 count)
{
stdvga_attrindex_write(0x00);
int i;
for (i = start; i < start+count; i++) {
u8 rgb[3];
stdvga_dac_read(GET_SEG(SS), rgb, i, 1);
// intensity = ( 0.3 * Red ) + ( 0.59 * Green ) + ( 0.11 * Blue )
u16 intensity = ((77 * rgb[0] + 151 * rgb[1] + 28 * rgb[2]) + 0x80) >> 8;
if (intensity > 0x3f)
intensity = 0x3f;
rgb[0] = rgb[1] = rgb[2] = intensity;
stdvga_dac_write(GET_SEG(SS), rgb, i, 1);
}
stdvga_attrindex_write(0x20);
}
/****************************************************************
* Memory control
****************************************************************/
void
stdvga_set_text_block_specifier(u8 spec)
{
stdvga_sequ_write(0x03, spec);
}
// Enable reads and writes to the given "plane" when in planar4 mode.
void
stdvga_planar4_plane(int plane)
{
if (plane < 0) {
// Return to default mode (read plane0, write all planes)
stdvga_sequ_write(0x02, 0x0f);
stdvga_grdc_write(0x04, 0);
} else {
stdvga_sequ_write(0x02, 1<<plane);
stdvga_grdc_write(0x04, plane);
}
}
/****************************************************************
* Font loading
****************************************************************/
static void
get_font_access(void)
{
stdvga_sequ_write(0x00, 0x01);
stdvga_sequ_write(0x02, 0x04);
stdvga_sequ_write(0x04, 0x07);
stdvga_sequ_write(0x00, 0x03);
stdvga_grdc_write(0x04, 0x02);
stdvga_grdc_write(0x05, 0x00);
stdvga_grdc_write(0x06, 0x04);
}
static void
release_font_access(void)
{
stdvga_sequ_write(0x00, 0x01);
stdvga_sequ_write(0x02, 0x03);
stdvga_sequ_write(0x04, 0x03);
stdvga_sequ_write(0x00, 0x03);
u16 v = (stdvga_misc_read() & 0x01) ? 0x0e : 0x0a;
stdvga_grdc_write(0x06, v);
stdvga_grdc_write(0x04, 0x00);
stdvga_grdc_write(0x05, 0x10);
}
void
stdvga_load_font(u16 seg, void *src_far, u16 count
, u16 start, u8 destflags, u8 fontsize)
{
get_font_access();
u16 blockaddr = ((destflags & 0x03) << 14) + ((destflags & 0x04) << 11);
void *dest_far = (void*)(blockaddr + start*32);
u16 i;
for (i = 0; i < count; i++) {
#if CONFIG_ALPHA
unsigned char *font_ptr = pci_mem_base + SEG_GRAPH*16;
__builtin_memcpy(font_ptr + i*32, src_far + i*fontsize, fontsize);
#else
memcpy_far(SEG_GRAPH, dest_far + i*32
, seg, src_far + i*fontsize, fontsize);
#endif
}
release_font_access();
}
/****************************************************************
* CRTC registers
****************************************************************/
u16
stdvga_get_crtc(void)
{
if (stdvga_misc_read() & 1)
return VGAREG_VGA_CRTC_ADDRESS;
return VGAREG_MDA_CRTC_ADDRESS;
}
// Ratio between system visible framebuffer ram and the actual videoram used.
int
stdvga_vram_ratio(struct vgamode_s *vmode_g)
{
switch (GET_GLOBAL(vmode_g->memmodel)) {
case MM_TEXT:
return 2;
case MM_CGA:
return 4 / GET_GLOBAL(vmode_g->depth);
case MM_PLANAR:
return 4;
default:
return 1;
}
}
void
stdvga_set_cursor_shape(u16 cursor_type)
{
u16 crtc_addr = stdvga_get_crtc();
stdvga_crtc_write(crtc_addr, 0x0a, cursor_type >> 8);
stdvga_crtc_write(crtc_addr, 0x0b, cursor_type);
}
void
stdvga_set_cursor_pos(int address)
{
u16 crtc_addr = stdvga_get_crtc();
address /= 2; // Assume we're in text mode.
stdvga_crtc_write(crtc_addr, 0x0e, address >> 8);
stdvga_crtc_write(crtc_addr, 0x0f, address);
}
void
stdvga_set_scan_lines(u8 lines)
{
stdvga_crtc_mask(stdvga_get_crtc(), 0x09, 0x1f, lines - 1);
}
// Get vertical display end
u16
stdvga_get_vde(void)
{
u16 crtc_addr = stdvga_get_crtc();
u16 vde = stdvga_crtc_read(crtc_addr, 0x12);
u8 ovl = stdvga_crtc_read(crtc_addr, 0x07);
vde += (((ovl & 0x02) << 7) + ((ovl & 0x40) << 3) + 1);
return vde;
}
int
stdvga_get_window(struct vgamode_s *vmode_g, int window)
{
return -1;
}
int
stdvga_set_window(struct vgamode_s *vmode_g, int window, int val)
{
return -1;
}
int
stdvga_get_linelength(struct vgamode_s *vmode_g)
{
u8 val = stdvga_crtc_read(stdvga_get_crtc(), 0x13);
return val * 8 / stdvga_vram_ratio(vmode_g);
}
int
stdvga_set_linelength(struct vgamode_s *vmode_g, int val)
{
val = DIV_ROUND_UP(val * stdvga_vram_ratio(vmode_g), 8);
stdvga_crtc_write(stdvga_get_crtc(), 0x13, val);
return 0;
}
int
stdvga_get_displaystart(struct vgamode_s *vmode_g)
{
u16 crtc_addr = stdvga_get_crtc();
int addr = (stdvga_crtc_read(crtc_addr, 0x0c) << 8
| stdvga_crtc_read(crtc_addr, 0x0d));
return addr * 4 / stdvga_vram_ratio(vmode_g);
}
int
stdvga_set_displaystart(struct vgamode_s *vmode_g, int val)
{
u16 crtc_addr = stdvga_get_crtc();
val = val * stdvga_vram_ratio(vmode_g) / 4;
stdvga_crtc_write(crtc_addr, 0x0c, val >> 8);
stdvga_crtc_write(crtc_addr, 0x0d, val);
return 0;
}
int
stdvga_get_dacformat(struct vgamode_s *vmode_g)
{
return -1;
}
int
stdvga_set_dacformat(struct vgamode_s *vmode_g, int val)
{
return -1;
}
int
stdvga_get_linesize(struct vgamode_s *vmode_g)
{
return DIV_ROUND_UP(GET_GLOBAL(vmode_g->width) * vga_bpp(vmode_g), 8);
}
/****************************************************************
* Save/Restore state
****************************************************************/
struct saveVideoHardware {
u8 sequ_index;
u8 crtc_index;
u8 grdc_index;
u8 actl_index;
u8 feature;
u8 sequ_regs[4];
u8 sequ0;
u8 crtc_regs[25];
u8 actl_regs[20];
u8 grdc_regs[9];
u16 crtc_addr;
u8 plane_latch[4];
} PACKED;
static void
stdvga_save_hw_state(u16 seg, struct saveVideoHardware *info)
{
u16 crtc_addr = stdvga_get_crtc();
SET_FARVAR(seg, info->sequ_index, inb(VGAREG_SEQU_ADDRESS));
SET_FARVAR(seg, info->crtc_index, inb(crtc_addr));
SET_FARVAR(seg, info->grdc_index, inb(VGAREG_GRDC_ADDRESS));
SET_FARVAR(seg, info->actl_index, stdvga_attrindex_read());
SET_FARVAR(seg, info->feature, inb(VGAREG_READ_FEATURE_CTL));
int i;
for (i=0; i<4; i++)
SET_FARVAR(seg, info->sequ_regs[i], stdvga_sequ_read(i+1));
SET_FARVAR(seg, info->sequ0, stdvga_sequ_read(0));
for (i=0; i<25; i++)
SET_FARVAR(seg, info->crtc_regs[i], stdvga_crtc_read(crtc_addr, i));
for (i=0; i<20; i++)
SET_FARVAR(seg, info->actl_regs[i], stdvga_attr_read(i));
for (i=0; i<9; i++)
SET_FARVAR(seg, info->grdc_regs[i], stdvga_grdc_read(i));
SET_FARVAR(seg, info->crtc_addr, crtc_addr);
/* XXX: read plane latches */
for (i=0; i<4; i++)
SET_FARVAR(seg, info->plane_latch[i], 0);
}
static void
stdvga_restore_hw_state(u16 seg, struct saveVideoHardware *info)
{
int i;
for (i=0; i<4; i++)
stdvga_sequ_write(i+1, GET_FARVAR(seg, info->sequ_regs[i]));
stdvga_sequ_write(0x00, GET_FARVAR(seg, info->sequ0));
// Disable CRTC write protection
u16 crtc_addr = GET_FARVAR(seg, info->crtc_addr);
stdvga_crtc_write(crtc_addr, 0x11, 0x00);
// Set CRTC regs
for (i=0; i<25; i++)
if (i != 0x11)
stdvga_crtc_write(crtc_addr, i, GET_FARVAR(seg, info->crtc_regs[i]));
// select crtc base address
stdvga_misc_mask(0x01, crtc_addr == VGAREG_VGA_CRTC_ADDRESS ? 0x01 : 0x00);
// enable write protection if needed
stdvga_crtc_write(crtc_addr, 0x11, GET_FARVAR(seg, info->crtc_regs[0x11]));
// Set Attribute Ctl
for (i=0; i<20; i++)
stdvga_attr_write(i, GET_FARVAR(seg, info->actl_regs[i]));
stdvga_attrindex_write(GET_FARVAR(seg, info->actl_index));
for (i=0; i<9; i++)
stdvga_grdc_write(i, GET_FARVAR(seg, info->grdc_regs[i]));
outb(GET_FARVAR(seg, info->sequ_index), VGAREG_SEQU_ADDRESS);
outb(GET_FARVAR(seg, info->crtc_index), crtc_addr);
outb(GET_FARVAR(seg, info->grdc_index), VGAREG_GRDC_ADDRESS);
outb(GET_FARVAR(seg, info->feature), crtc_addr - 0x4 + 0xa);
}
struct saveDACcolors {
u8 rwmode;
u8 peladdr;
u8 pelmask;
u8 dac[768];
u8 color_select;
} PACKED;
static void
stdvga_save_dac_state(u16 seg, struct saveDACcolors *info)
{
/* XXX: check this */
SET_FARVAR(seg, info->rwmode, inb(VGAREG_DAC_STATE));
SET_FARVAR(seg, info->peladdr, inb(VGAREG_DAC_WRITE_ADDRESS));
SET_FARVAR(seg, info->pelmask, stdvga_pelmask_read());
stdvga_dac_read(seg, info->dac, 0, 256);
SET_FARVAR(seg, info->color_select, 0);
}
static void
stdvga_restore_dac_state(u16 seg, struct saveDACcolors *info)
{
stdvga_pelmask_write(GET_FARVAR(seg, info->pelmask));
stdvga_dac_write(seg, info->dac, 0, 256);
outb(GET_FARVAR(seg, info->peladdr), VGAREG_DAC_WRITE_ADDRESS);
}
int
stdvga_save_restore(int cmd, u16 seg, void *data)
{
void *pos = data;
if (cmd & SR_HARDWARE) {
if (cmd & SR_SAVE)
stdvga_save_hw_state(seg, pos);
if (cmd & SR_RESTORE)
stdvga_restore_hw_state(seg, pos);
pos += sizeof(struct saveVideoHardware);
}
pos += bda_save_restore(cmd, seg, pos);
if (cmd & SR_DAC) {
if (cmd & SR_SAVE)
stdvga_save_dac_state(seg, pos);
if (cmd & SR_RESTORE)
stdvga_restore_dac_state(seg, pos);
pos += sizeof(struct saveDACcolors);
}
return pos - data;
}
/****************************************************************
* Misc
****************************************************************/
void
stdvga_enable_video_addressing(u8 disable)
{
u8 v = (disable & 1) ? 0x00 : 0x02;
stdvga_misc_mask(0x02, v);
}
int
stdvga_setup(void)
{
dprintf(1, "XXXXXXXXXXXXXXXXXXXX stdvga_setup\n");
// switch to color mode and enable CPU access 480 lines
stdvga_misc_write(0xc3);
// more than 64k 3C4/04
stdvga_sequ_write(0x04, 0x02);
return 0;
}