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Bochs/bochs/iodev/vga.cc
Volker Ruppert 4699840aaf - reorganisation of the vga init code: 
- using the same init() method for all display adapters
  - new method protected init_standard_vga() for the shared vga core
  - new method init_vga_extension() implements the extended features
- moved loading of vgabios image for the ISA case from main.cc to the vga init code
2011-07-03 15:31:16 +00:00

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/////////////////////////////////////////////////////////////////////////
// $Id$
/////////////////////////////////////////////////////////////////////////
//
// Copyright (C) 2002-2009 The Bochs Project
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 2 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
//
/////////////////////////////////////////////////////////////////////////
// Define BX_PLUGGABLE in files that can be compiled into plugins. For
// platforms that require a special tag on exported symbols, BX_PLUGGABLE
// is used to know when we are exporting symbols and when we are importing.
#define BX_PLUGGABLE
#include "iodev.h"
#include "param_names.h"
#include "vga.h"
#include "virt_timer.h"
#define LOG_THIS theVga->
#define VGA_TRACE_FEATURE
// Only reference the array if the tile numbers are within the bounds
// of the array. If out of bounds, do nothing.
#define SET_TILE_UPDATED(xtile, ytile, value) \
do { \
if (((xtile) < BX_NUM_X_TILES) && ((ytile) < BX_NUM_Y_TILES)) \
BX_VGA_THIS s.vga_tile_updated[(xtile)][(ytile)] = value; \
} while (0)
// Only reference the array if the tile numbers are within the bounds
// of the array. If out of bounds, return 0.
#define GET_TILE_UPDATED(xtile,ytile) \
((((xtile) < BX_NUM_X_TILES) && ((ytile) < BX_NUM_Y_TILES))? \
BX_VGA_THIS s.vga_tile_updated[(xtile)][(ytile)] \
: 0)
static const Bit16u charmap_offset[8] = {
0x0000, 0x4000, 0x8000, 0xc000,
0x2000, 0x6000, 0xa000, 0xe000
};
static const Bit8u ccdat[16][4] = {
{ 0x00, 0x00, 0x00, 0x00 },
{ 0xff, 0x00, 0x00, 0x00 },
{ 0x00, 0xff, 0x00, 0x00 },
{ 0xff, 0xff, 0x00, 0x00 },
{ 0x00, 0x00, 0xff, 0x00 },
{ 0xff, 0x00, 0xff, 0x00 },
{ 0x00, 0xff, 0xff, 0x00 },
{ 0xff, 0xff, 0xff, 0x00 },
{ 0x00, 0x00, 0x00, 0xff },
{ 0xff, 0x00, 0x00, 0xff },
{ 0x00, 0xff, 0x00, 0xff },
{ 0xff, 0xff, 0x00, 0xff },
{ 0x00, 0x00, 0xff, 0xff },
{ 0xff, 0x00, 0xff, 0xff },
{ 0x00, 0xff, 0xff, 0xff },
{ 0xff, 0xff, 0xff, 0xff },
};
bx_vga_c *theVga = NULL;
unsigned old_iHeight = 0, old_iWidth = 0, old_MSL = 0;
#if BX_SUPPORT_CLGD54XX
void bx_vga_set_smf_pointer(bx_vga_c *theVga_ptr)
{
theVga = theVga_ptr;
}
#else // BX_SUPPORT_CLGD54XX
int libvga_LTX_plugin_init(plugin_t *plugin, plugintype_t type, int argc, char *argv[])
{
theVga = new bx_vga_c();
bx_devices.pluginVgaDevice = theVga;
BX_REGISTER_DEVICE_DEVMODEL(plugin, type, theVga, BX_PLUGIN_VGA);
return(0); // Success
}
void libvga_LTX_plugin_fini(void)
{
delete theVga;
}
#endif // BX_SUPPORT_CLGD54XX
bx_vga_c::bx_vga_c()
{
put("VGA");
s.vga_mem_updated = 0;
s.x_tilesize = X_TILESIZE;
s.y_tilesize = Y_TILESIZE;
timer_id = BX_NULL_TIMER_HANDLE;
s.memory = NULL;
}
bx_vga_c::~bx_vga_c()
{
if (s.memory != NULL) {
delete [] s.memory;
s.memory = NULL;
}
SIM->get_param_num(BXPN_VGA_UPDATE_INTERVAL)->set_handler(NULL);
BX_DEBUG(("Exit"));
}
void bx_vga_c::init(void)
{
BX_VGA_THIS extension_init = 0;
BX_VGA_THIS pci_enabled = 0;
BX_VGA_THIS init_standard_vga();
BX_VGA_THIS init_vga_extension();
char *strptr = SIM->get_param_string(BXPN_VGA_EXTENSION)->getptr();
if (!BX_VGA_THIS extension_init &&
(strlen(strptr) > 0) && strcmp(strptr, "none")) {
BX_PANIC(("unknown display extension: %s", strptr));
}
if (!BX_VGA_THIS pci_enabled) {
BX_MEM(0)->load_ROM(SIM->get_param_string(BXPN_VGA_ROM_PATH)->getptr(), 0xc0000, 1);
}
}
void bx_vga_c::init_standard_vga(void)
{
unsigned i,string_i;
unsigned x,y;
int argc;
char *argv[16];
char *ptr;
char string[512];
char *extname;
size_t len;
// initialize VGA controllers and other internal stuff
BX_VGA_THIS s.vga_enabled = 1;
BX_VGA_THIS s.misc_output.color_emulation = 1;
BX_VGA_THIS s.misc_output.enable_ram = 1;
BX_VGA_THIS s.misc_output.clock_select = 0;
BX_VGA_THIS s.misc_output.select_high_bank = 0;
BX_VGA_THIS s.misc_output.horiz_sync_pol = 1;
BX_VGA_THIS s.misc_output.vert_sync_pol = 1;
BX_VGA_THIS s.attribute_ctrl.mode_ctrl.graphics_alpha = 0;
BX_VGA_THIS s.attribute_ctrl.mode_ctrl.display_type = 0;
BX_VGA_THIS s.attribute_ctrl.mode_ctrl.enable_line_graphics = 1;
BX_VGA_THIS s.attribute_ctrl.mode_ctrl.blink_intensity = 0;
BX_VGA_THIS s.attribute_ctrl.mode_ctrl.pixel_panning_compat = 0;
BX_VGA_THIS s.attribute_ctrl.mode_ctrl.pixel_clock_select = 0;
BX_VGA_THIS s.attribute_ctrl.mode_ctrl.internal_palette_size = 0;
BX_VGA_THIS s.line_offset=80;
BX_VGA_THIS s.line_compare=1023;
BX_VGA_THIS s.vertical_display_end=399;
for (i=0; i<=0x18; i++)
BX_VGA_THIS s.CRTC.reg[i] = 0;
BX_VGA_THIS s.CRTC.address = 0;
BX_VGA_THIS s.CRTC.write_protect = 0;
BX_VGA_THIS s.attribute_ctrl.flip_flop = 0;
BX_VGA_THIS s.attribute_ctrl.address = 0;
BX_VGA_THIS s.attribute_ctrl.video_enabled = 1;
for (i=0; i<16; i++)
BX_VGA_THIS s.attribute_ctrl.palette_reg[i] = 0;
BX_VGA_THIS s.attribute_ctrl.overscan_color = 0;
BX_VGA_THIS s.attribute_ctrl.color_plane_enable = 0x0f;
BX_VGA_THIS s.attribute_ctrl.horiz_pel_panning = 0;
BX_VGA_THIS s.attribute_ctrl.color_select = 0;
for (i=0; i<256; i++) {
BX_VGA_THIS s.pel.data[i].red = 0;
BX_VGA_THIS s.pel.data[i].green = 0;
BX_VGA_THIS s.pel.data[i].blue = 0;
}
BX_VGA_THIS s.pel.write_data_register = 0;
BX_VGA_THIS s.pel.write_data_cycle = 0;
BX_VGA_THIS s.pel.read_data_register = 0;
BX_VGA_THIS s.pel.read_data_cycle = 0;
BX_VGA_THIS s.pel.dac_state = 0x01;
BX_VGA_THIS s.pel.mask = 0xff;
BX_VGA_THIS s.graphics_ctrl.index = 0;
BX_VGA_THIS s.graphics_ctrl.set_reset = 0;
BX_VGA_THIS s.graphics_ctrl.enable_set_reset = 0;
BX_VGA_THIS s.graphics_ctrl.color_compare = 0;
BX_VGA_THIS s.graphics_ctrl.data_rotate = 0;
BX_VGA_THIS s.graphics_ctrl.raster_op = 0;
BX_VGA_THIS s.graphics_ctrl.read_map_select = 0;
BX_VGA_THIS s.graphics_ctrl.write_mode = 0;
BX_VGA_THIS s.graphics_ctrl.read_mode = 0;
BX_VGA_THIS s.graphics_ctrl.odd_even = 0;
BX_VGA_THIS s.graphics_ctrl.chain_odd_even = 0;
BX_VGA_THIS s.graphics_ctrl.shift_reg = 0;
BX_VGA_THIS s.graphics_ctrl.graphics_alpha = 0;
BX_VGA_THIS s.graphics_ctrl.memory_mapping = 2; // monochrome text mode
BX_VGA_THIS s.graphics_ctrl.color_dont_care = 0;
BX_VGA_THIS s.graphics_ctrl.bitmask = 0;
for (i=0; i<4; i++) {
BX_VGA_THIS s.graphics_ctrl.latch[i] = 0;
}
BX_VGA_THIS s.sequencer.index = 0;
BX_VGA_THIS s.sequencer.map_mask = 0;
BX_VGA_THIS s.sequencer.reset1 = 1;
BX_VGA_THIS s.sequencer.reset2 = 1;
BX_VGA_THIS s.sequencer.reg1 = 0;
BX_VGA_THIS s.sequencer.char_map_select = 0;
BX_VGA_THIS s.sequencer.extended_mem = 1; // display mem greater than 64K
BX_VGA_THIS s.sequencer.odd_even = 1; // use sequential addressing mode
BX_VGA_THIS s.sequencer.chain_four = 0; // use map mask & read map select
BX_VGA_THIS s.charmap_address = 0;
BX_VGA_THIS s.x_dotclockdiv2 = 0;
BX_VGA_THIS s.y_doublescan = 0;
BX_VGA_THIS s.last_bpp = 8;
BX_VGA_THIS s.vga_mem_updated = 0;
for (y=0; y<480/Y_TILESIZE; y++)
for (x=0; x<640/X_TILESIZE; x++)
SET_TILE_UPDATED (x, y, 0);
// initialize memory, handlers and timer (depending on extension)
extname = SIM->get_param_string(BXPN_VGA_EXTENSION)->getptr();
if ((strlen(extname) == 0) || (!strcmp(extname, "none"))) {
BX_VGA_THIS s.memsize = 0x40000;
if (BX_VGA_THIS s.memory == NULL)
BX_VGA_THIS s.memory = new Bit8u[BX_VGA_THIS s.memsize];
memset(BX_VGA_THIS s.memory, 0, BX_VGA_THIS s.memsize);
}
DEV_register_memory_handlers(theVga, mem_read_handler, mem_write_handler,
0xa0000, 0xbffff);
// video card with BIOS ROM
DEV_cmos_set_reg(0x14, (DEV_cmos_get_reg(0x14) & 0xcf) | 0x00);
// set up display library options and start gui
memset(argv, 0, sizeof(argv));
argc = 1;
argv[0] = (char *)"bochs";
len = strlen(SIM->get_param_string(BXPN_DISPLAYLIB_OPTIONS)->getptr());
if (len > 0) {
char *options = new char[len + 1];
strcpy(options, SIM->get_param_string(BXPN_DISPLAYLIB_OPTIONS)->getptr());
ptr = strtok(options, ",");
while (ptr) {
string_i = 0;
for (i=0; i<strlen(ptr); i++) {
if (!isspace(ptr[i])) string[string_i++] = ptr[i];
}
string[string_i] = '\0';
if (argv[argc] != NULL) {
free(argv[argc]);
argv[argc] = NULL;
}
if (argc < 16) {
argv[argc++] = strdup(string);
} else {
BX_PANIC (("too many parameters, max is 16\n"));
}
ptr = strtok(NULL, ",");
}
delete [] options;
}
bx_gui->init(argc, argv, BX_VGA_THIS s.x_tilesize, BX_VGA_THIS s.y_tilesize);
for (i = 1; i < (unsigned)argc; i++)
{
if (argv[i] != NULL)
{
free(argv[i]);
argv[i] = NULL;
}
}
}
void bx_vga_c::init_vga_extension(void)
{
unsigned addr;
Bit16u max_xres, max_yres, max_bpp;
BX_VGA_THIS init_iohandlers(read_handler, write_handler);
BX_VGA_THIS init_systemtimer(timer_handler, vga_param_handler);
BX_VGA_THIS pci_enabled = DEV_is_pci_device(BX_PLUGIN_PCIVGA);
// The following is for the VBE display extension
BX_VGA_THIS vbe.enabled=0;
BX_VGA_THIS vbe.dac_8bit=0;
BX_VGA_THIS vbe.base_address = 0x0000;
if (!strcmp(SIM->get_param_string(BXPN_VGA_EXTENSION)->getptr(), "vbe")) {
BX_VGA_THIS put("BXVGA");
for (addr=VBE_DISPI_IOPORT_INDEX; addr<=VBE_DISPI_IOPORT_DATA; addr++) {
DEV_register_ioread_handler(this, vbe_read_handler, addr, "vga video", 7);
DEV_register_iowrite_handler(this, vbe_write_handler, addr, "vga video", 7);
}
if (!BX_VGA_THIS pci_enabled) {
BX_VGA_THIS vbe.base_address = VBE_DISPI_LFB_PHYSICAL_ADDRESS;
DEV_register_memory_handlers(theVga, mem_read_handler, mem_write_handler,
BX_VGA_THIS vbe.base_address,
BX_VGA_THIS vbe.base_address + VBE_DISPI_TOTAL_VIDEO_MEMORY_BYTES - 1);
}
if (BX_VGA_THIS s.memory == NULL)
BX_VGA_THIS s.memory = new Bit8u[VBE_DISPI_TOTAL_VIDEO_MEMORY_BYTES];
memset(BX_VGA_THIS s.memory, 0, VBE_DISPI_TOTAL_VIDEO_MEMORY_BYTES);
BX_VGA_THIS s.memsize = VBE_DISPI_TOTAL_VIDEO_MEMORY_BYTES;
BX_VGA_THIS vbe.cur_dispi=VBE_DISPI_ID0;
BX_VGA_THIS vbe.xres=640;
BX_VGA_THIS vbe.yres=480;
BX_VGA_THIS vbe.bpp=8;
BX_VGA_THIS vbe.bank=0;
BX_VGA_THIS vbe.curindex=0;
BX_VGA_THIS vbe.offset_x=0;
BX_VGA_THIS vbe.offset_y=0;
BX_VGA_THIS vbe.virtual_xres=640;
BX_VGA_THIS vbe.virtual_yres=480;
BX_VGA_THIS vbe.bpp_multiplier=1;
BX_VGA_THIS vbe.virtual_start=0;
BX_VGA_THIS vbe.lfb_enabled=0;
BX_VGA_THIS vbe.get_capabilities=0;
bx_gui->get_capabilities(&max_xres, &max_yres, &max_bpp);
if (max_xres > VBE_DISPI_MAX_XRES) {
BX_VGA_THIS vbe.max_xres=VBE_DISPI_MAX_XRES;
} else {
BX_VGA_THIS vbe.max_xres=max_xres;
}
if (max_yres > VBE_DISPI_MAX_YRES) {
BX_VGA_THIS vbe.max_yres=VBE_DISPI_MAX_YRES;
} else {
BX_VGA_THIS vbe.max_yres=max_yres;
}
if (max_bpp > VBE_DISPI_MAX_BPP) {
BX_VGA_THIS vbe.max_bpp=VBE_DISPI_MAX_BPP;
} else {
BX_VGA_THIS vbe.max_bpp=max_bpp;
}
BX_VGA_THIS extension_init = 1;
BX_INFO(("VBE Bochs Display Extension Enabled"));
}
}
void bx_vga_c::init_iohandlers(bx_read_handler_t f_read, bx_write_handler_t f_write)
{
unsigned addr, i;
Bit8u io_mask[16] = {3, 1, 1, 1, 3, 1, 1, 1, 1, 1, 1, 1, 1, 1, 3, 1};
for (addr=0x03B4; addr<=0x03B5; addr++) {
DEV_register_ioread_handler(this, f_read, addr, "vga video", 1);
DEV_register_iowrite_handler(this, f_write, addr, "vga video", 3);
}
for (addr=0x03BA; addr<=0x03BA; addr++) {
DEV_register_ioread_handler(this, f_read, addr, "vga video", 1);
DEV_register_iowrite_handler(this, f_write, addr, "vga video", 3);
}
i = 0;
for (addr=0x03C0; addr<=0x03CF; addr++) {
DEV_register_ioread_handler(this, f_read, addr, "vga video", io_mask[i++]);
DEV_register_iowrite_handler(this, f_write, addr, "vga video", 3);
}
for (addr=0x03D4; addr<=0x03D5; addr++) {
DEV_register_ioread_handler(this, f_read, addr, "vga video", 3);
DEV_register_iowrite_handler(this, f_write, addr, "vga video", 3);
}
for (addr=0x03DA; addr<=0x03DA; addr++) {
DEV_register_ioread_handler(this, f_read, addr, "vga video", 1);
DEV_register_iowrite_handler(this, f_write, addr, "vga video", 3);
}
}
void bx_vga_c::init_systemtimer(bx_timer_handler_t f_timer, param_event_handler f_param)
{
bx_param_num_c *vga_update_interval = SIM->get_param_num(BXPN_VGA_UPDATE_INTERVAL);
Bit64u interval = vga_update_interval->get();
BX_INFO(("interval=" FMT_LL "u", interval));
if (BX_VGA_THIS timer_id == BX_NULL_TIMER_HANDLE) {
BX_VGA_THIS timer_id = bx_virt_timer.register_timer(this, f_timer,
(Bit32u)interval, 1, 1, "vga");
vga_update_interval->set_handler(f_param);
vga_update_interval->set_runtime_param(1);
}
if (interval < 300000) {
BX_VGA_THIS s.blink_counter = 300000 / (unsigned)interval;
} else {
BX_VGA_THIS s.blink_counter = 1;
}
}
void bx_vga_c::register_state(void)
{
unsigned i;
char name[6];
bx_list_c *parent, *reg;
parent = SIM->get_bochs_root();
#if BX_SUPPORT_CLGD54XX
if (!strcmp(SIM->get_param_string(BXPN_VGA_EXTENSION)->getptr(), "cirrus")) {
parent = (bx_list_c*)SIM->get_param("svga_cirrus", parent);
}
#endif
bx_list_c *list = new bx_list_c(parent, "vga", "VGA Adapter State", 17);
bx_list_c *misc = new bx_list_c(list, "misc_output", 6);
new bx_shadow_bool_c(misc, "color_emulation", &BX_VGA_THIS s.misc_output.color_emulation);
new bx_shadow_bool_c(misc, "enable_ram", &BX_VGA_THIS s.misc_output.enable_ram);
new bx_shadow_num_c(misc, "clock_select", &BX_VGA_THIS s.misc_output.clock_select);
new bx_shadow_bool_c(misc, "select_high_bank", &BX_VGA_THIS s.misc_output.select_high_bank);
new bx_shadow_bool_c(misc, "horiz_sync_pol", &BX_VGA_THIS s.misc_output.horiz_sync_pol);
new bx_shadow_bool_c(misc, "vert_sync_pol", &BX_VGA_THIS s.misc_output.vert_sync_pol);
bx_list_c *crtc = new bx_list_c(list, "CRTC", 3);
new bx_shadow_num_c(crtc, "address", &BX_VGA_THIS s.CRTC.address, BASE_HEX);
reg = new bx_list_c(crtc, "reg", 0x19);
for (i=0; i<=0x18; i++) {
sprintf(name, "0x%02x", i);
new bx_shadow_num_c(reg, name, &BX_VGA_THIS s.CRTC.reg[i], BASE_HEX);
}
new bx_shadow_bool_c(crtc, "write_protect", &BX_VGA_THIS s.CRTC.write_protect);
bx_list_c *actl = new bx_list_c(list, "attribute_ctrl", 9);
new bx_shadow_bool_c(actl, "flip_flop", &BX_VGA_THIS s.attribute_ctrl.flip_flop);
new bx_shadow_num_c(actl, "address", &BX_VGA_THIS s.attribute_ctrl.address, BASE_HEX);
new bx_shadow_bool_c(actl, "video_enabled", &BX_VGA_THIS s.attribute_ctrl.video_enabled);
reg = new bx_list_c(actl, "palette_reg", 16);
for (i=0; i<16; i++) {
sprintf(name, "0x%02x", i);
new bx_shadow_num_c(reg, name, &BX_VGA_THIS s.attribute_ctrl.palette_reg[i], BASE_HEX);
}
new bx_shadow_num_c(actl, "overscan_color", &BX_VGA_THIS s.attribute_ctrl.overscan_color, BASE_HEX);
new bx_shadow_num_c(actl, "color_plane_enable", &BX_VGA_THIS s.attribute_ctrl.color_plane_enable, BASE_HEX);
new bx_shadow_num_c(actl, "horiz_pel_panning", &BX_VGA_THIS s.attribute_ctrl.horiz_pel_panning, BASE_HEX);
new bx_shadow_num_c(actl, "color_select", &BX_VGA_THIS s.attribute_ctrl.color_select, BASE_HEX);
bx_list_c *mode = new bx_list_c(actl, "mode_ctrl", 7);
new bx_shadow_bool_c(mode, "graphics_alpha", &BX_VGA_THIS s.attribute_ctrl.mode_ctrl.graphics_alpha);
new bx_shadow_bool_c(mode, "display_type", &BX_VGA_THIS s.attribute_ctrl.mode_ctrl.display_type);
new bx_shadow_bool_c(mode, "enable_line_graphics", &BX_VGA_THIS s.attribute_ctrl.mode_ctrl.enable_line_graphics);
new bx_shadow_bool_c(mode, "blink_intensity", &BX_VGA_THIS s.attribute_ctrl.mode_ctrl.blink_intensity);
new bx_shadow_bool_c(mode, "pixel_panning_compat", &BX_VGA_THIS s.attribute_ctrl.mode_ctrl.pixel_panning_compat);
new bx_shadow_bool_c(mode, "pixel_clock_select", &BX_VGA_THIS s.attribute_ctrl.mode_ctrl.pixel_clock_select);
new bx_shadow_bool_c(mode, "internal_palette_size", &BX_VGA_THIS s.attribute_ctrl.mode_ctrl.internal_palette_size);
bx_list_c *pel = new bx_list_c(list, "pel", 6);
new bx_shadow_num_c(pel, "write_data_register", &BX_VGA_THIS s.pel.write_data_register, BASE_HEX);
new bx_shadow_num_c(pel, "write_data_cycle", &BX_VGA_THIS s.pel.write_data_cycle);
new bx_shadow_num_c(pel, "read_data_register", &BX_VGA_THIS s.pel.read_data_register, BASE_HEX);
new bx_shadow_num_c(pel, "read_data_cycle", &BX_VGA_THIS s.pel.read_data_cycle);
new bx_shadow_num_c(pel, "dac_state", &BX_VGA_THIS s.pel.dac_state);
new bx_shadow_num_c(pel, "mask", &BX_VGA_THIS s.pel.mask, BASE_HEX);
new bx_shadow_data_c(list, "pel_data", &BX_VGA_THIS s.pel.data[0].red, sizeof(BX_VGA_THIS s.pel.data));
bx_list_c *gfxc = new bx_list_c(list, "graphics_ctrl", 20);
new bx_shadow_num_c(gfxc, "index", &BX_VGA_THIS s.graphics_ctrl.index);
new bx_shadow_num_c(gfxc, "set_reset", &BX_VGA_THIS s.graphics_ctrl.set_reset);
new bx_shadow_num_c(gfxc, "enable_set_reset", &BX_VGA_THIS s.graphics_ctrl.enable_set_reset);
new bx_shadow_num_c(gfxc, "color_compare", &BX_VGA_THIS s.graphics_ctrl.color_compare);
new bx_shadow_num_c(gfxc, "data_rotate", &BX_VGA_THIS s.graphics_ctrl.data_rotate);
new bx_shadow_num_c(gfxc, "raster_op", &BX_VGA_THIS s.graphics_ctrl.raster_op);
new bx_shadow_num_c(gfxc, "read_map_select", &BX_VGA_THIS s.graphics_ctrl.read_map_select);
new bx_shadow_num_c(gfxc, "write_mode", &BX_VGA_THIS s.graphics_ctrl.write_mode);
new bx_shadow_num_c(gfxc, "read_mode", &BX_VGA_THIS s.graphics_ctrl.read_mode);
new bx_shadow_bool_c(gfxc, "odd_even", &BX_VGA_THIS s.graphics_ctrl.odd_even);
new bx_shadow_bool_c(gfxc, "chain_odd_even", &BX_VGA_THIS s.graphics_ctrl.chain_odd_even);
new bx_shadow_num_c(gfxc, "shift_reg", &BX_VGA_THIS s.graphics_ctrl.shift_reg);
new bx_shadow_bool_c(gfxc, "graphics_alpha", &BX_VGA_THIS s.graphics_ctrl.graphics_alpha);
new bx_shadow_num_c(gfxc, "memory_mapping", &BX_VGA_THIS s.graphics_ctrl.memory_mapping);
new bx_shadow_num_c(gfxc, "color_dont_care", &BX_VGA_THIS s.graphics_ctrl.color_dont_care, BASE_HEX);
new bx_shadow_num_c(gfxc, "bitmask", &BX_VGA_THIS s.graphics_ctrl.bitmask, BASE_HEX);
new bx_shadow_num_c(gfxc, "latch0", &BX_VGA_THIS s.graphics_ctrl.latch[0], BASE_HEX);
new bx_shadow_num_c(gfxc, "latch1", &BX_VGA_THIS s.graphics_ctrl.latch[1], BASE_HEX);
new bx_shadow_num_c(gfxc, "latch2", &BX_VGA_THIS s.graphics_ctrl.latch[2], BASE_HEX);
new bx_shadow_num_c(gfxc, "latch3", &BX_VGA_THIS s.graphics_ctrl.latch[3], BASE_HEX);
bx_list_c *sequ = new bx_list_c(list, "sequencer", 13);
new bx_shadow_num_c(sequ, "index", &BX_VGA_THIS s.sequencer.index);
new bx_shadow_num_c(sequ, "map_mask", &BX_VGA_THIS s.sequencer.map_mask);
new bx_shadow_bool_c(sequ, "reset1", &BX_VGA_THIS s.sequencer.reset1);
new bx_shadow_bool_c(sequ, "reset2", &BX_VGA_THIS s.sequencer.reset2);
new bx_shadow_num_c(sequ, "reg1", &BX_VGA_THIS s.sequencer.reg1, BASE_HEX);
new bx_shadow_num_c(sequ, "char_map_select", &BX_VGA_THIS s.sequencer.char_map_select);
new bx_shadow_bool_c(sequ, "extended_mem", &BX_VGA_THIS s.sequencer.extended_mem);
new bx_shadow_bool_c(sequ, "odd_even", &BX_VGA_THIS s.sequencer.odd_even);
new bx_shadow_bool_c(sequ, "chain_four", &BX_VGA_THIS s.sequencer.chain_four);
new bx_shadow_bool_c(list, "enabled", &BX_VGA_THIS s.vga_enabled);
new bx_shadow_num_c(list, "line_offset", &BX_VGA_THIS s.line_offset);
new bx_shadow_num_c(list, "line_compare", &BX_VGA_THIS s.line_compare);
new bx_shadow_num_c(list, "vertical_display_end", &BX_VGA_THIS s.vertical_display_end);
new bx_shadow_num_c(list, "charmap_address", &BX_VGA_THIS s.charmap_address);
new bx_shadow_bool_c(list, "x_dotclockdiv2", &BX_VGA_THIS s.x_dotclockdiv2);
new bx_shadow_bool_c(list, "y_doublescan", &BX_VGA_THIS s.y_doublescan);
new bx_shadow_num_c(list, "last_bpp", &BX_VGA_THIS s.last_bpp);
new bx_shadow_data_c(list, "memory", BX_VGA_THIS s.memory, BX_VGA_THIS s.memsize);
// register state for Bochs VBE
if (!strcmp(SIM->get_param_string(BXPN_VGA_EXTENSION)->getptr(), "vbe")) {
bx_list_c *vbe = new bx_list_c(list, "vbe", 18);
new bx_shadow_num_c(vbe, "cur_dispi", &BX_VGA_THIS vbe.cur_dispi, BASE_HEX);
new bx_shadow_num_c(vbe, "xres", &BX_VGA_THIS vbe.xres);
new bx_shadow_num_c(vbe, "yres", &BX_VGA_THIS vbe.yres);
new bx_shadow_num_c(vbe, "bpp", &BX_VGA_THIS vbe.bpp);
new bx_shadow_num_c(vbe, "bank", &BX_VGA_THIS vbe.bank);
new bx_shadow_bool_c(vbe, "enabled", &BX_VGA_THIS vbe.enabled);
new bx_shadow_num_c(vbe, "curindex", &BX_VGA_THIS vbe.curindex);
new bx_shadow_num_c(vbe, "visible_screen_size", &BX_VGA_THIS vbe.visible_screen_size);
new bx_shadow_num_c(vbe, "offset_x", &BX_VGA_THIS vbe.offset_x);
new bx_shadow_num_c(vbe, "offset_y", &BX_VGA_THIS vbe.offset_y);
new bx_shadow_num_c(vbe, "virtual_xres", &BX_VGA_THIS vbe.virtual_xres);
new bx_shadow_num_c(vbe, "virtual_yres", &BX_VGA_THIS vbe.virtual_yres);
new bx_shadow_num_c(vbe, "virtual_start", &BX_VGA_THIS vbe.virtual_start);
new bx_shadow_num_c(vbe, "bpp_multiplier", &BX_VGA_THIS vbe.bpp_multiplier);
new bx_shadow_bool_c(vbe, "lfb_enabled", &BX_VGA_THIS vbe.lfb_enabled);
new bx_shadow_bool_c(vbe, "get_capabilities", &BX_VGA_THIS vbe.get_capabilities);
new bx_shadow_bool_c(vbe, "dac_8bit", &BX_VGA_THIS vbe.dac_8bit);
}
}
void bx_vga_c::after_restore_state(void)
{
for (unsigned i=0; i<256; i++) {
if (BX_VGA_THIS vbe.dac_8bit) {
bx_gui->palette_change(i, BX_VGA_THIS s.pel.data[i].red,
BX_VGA_THIS s.pel.data[i].green,
BX_VGA_THIS s.pel.data[i].blue);
} else {
bx_gui->palette_change(i, BX_VGA_THIS s.pel.data[i].red<<2,
BX_VGA_THIS s.pel.data[i].green<<2,
BX_VGA_THIS s.pel.data[i].blue<<2);
}
}
bx_gui->set_text_charmap(&BX_VGA_THIS s.memory[0x20000 + BX_VGA_THIS s.charmap_address]);
old_iWidth = BX_MAX_XRES;
old_iHeight = BX_MAX_YRES;
BX_VGA_THIS redraw_area(0, 0, BX_MAX_XRES, BX_MAX_YRES);
if (BX_VGA_THIS vbe.enabled) {
bx_gui->dimension_update(BX_VGA_THIS vbe.xres, BX_VGA_THIS vbe.yres, 0, 0,
BX_VGA_THIS vbe.bpp);
}
BX_VGA_THIS update();
bx_gui->flush();
}
void bx_vga_c::determine_screen_dimensions(unsigned *piHeight, unsigned *piWidth)
{
int ai[0x20];
int i,h,v;
for (i = 0 ; i < 0x20 ; i++)
ai[i] = BX_VGA_THIS s.CRTC.reg[i];
h = (ai[1] + 1) * 8;
v = (ai[18] | ((ai[7] & 0x02) << 7) | ((ai[7] & 0x40) << 3)) + 1;
if (BX_VGA_THIS s.graphics_ctrl.shift_reg == 0)
{
*piWidth = 640;
*piHeight = 480;
if (BX_VGA_THIS s.CRTC.reg[6] == 0xBF)
{
if (BX_VGA_THIS s.CRTC.reg[23] == 0xA3 &&
BX_VGA_THIS s.CRTC.reg[20] == 0x40 &&
BX_VGA_THIS s.CRTC.reg[9] == 0x41)
{
*piWidth = 320;
*piHeight = 240;
}
else {
if (BX_VGA_THIS s.x_dotclockdiv2) h <<= 1;
*piWidth = h;
*piHeight = v;
}
}
else if ((h >= 640) && (v >= 400)) {
*piWidth = h;
*piHeight = v;
}
}
else if (BX_VGA_THIS s.graphics_ctrl.shift_reg == 2)
{
if (BX_VGA_THIS s.sequencer.chain_four)
{
*piWidth = h;
*piHeight = v;
}
else
{
*piWidth = h;
*piHeight = v;
}
}
else
{
if (BX_VGA_THIS s.x_dotclockdiv2) h <<= 1;
*piWidth = h;
*piHeight = v;
}
}
// static IO port read callback handler
// redirects to non-static class handler to avoid virtual functions
Bit32u bx_vga_c::read_handler(void *this_ptr, Bit32u address, unsigned io_len)
{
#if BX_USE_VGA_SMF == 0
bx_vga_c *class_ptr = (bx_vga_c *) this_ptr;
return class_ptr->read(address, io_len);
}
Bit32u bx_vga_c::read(Bit32u address, unsigned io_len)
{
#else
UNUSED(this_ptr);
#endif // BX_USE_VGA_SMF == 0
bx_bool horiz_retrace = 0, vert_retrace = 0;
Bit64u usec;
Bit16u ret16, vertres;
Bit8u retval;
#if defined(VGA_TRACE_FEATURE)
Bit32u ret = 0;
#define RETURN(x) do { ret = (x); goto read_return; } while (0)
#else
#define RETURN return
#endif
if (io_len == 2) {
#if BX_USE_VGA_SMF
ret16 = bx_vga_c::read_handler(0, address, 1);
ret16 |= (bx_vga_c::read_handler(0, address+1, 1)) << 8;
#else
ret16 = bx_vga_c::read(address, 1);
ret16 |= (bx_vga_c::read(address+1, 1) << 8;
#endif
RETURN(ret16);
}
#if !defined(VGA_TRACE_FEATURE)
BX_DEBUG(("io read from 0x%04x", (unsigned) address));
#endif
if ((address >= 0x03b0) && (address <= 0x03bf) &&
(BX_VGA_THIS s.misc_output.color_emulation)) {
RETURN(0xff);
}
if ((address >= 0x03d0) && (address <= 0x03df) &&
(BX_VGA_THIS s.misc_output.color_emulation==0)) {
RETURN(0xff);
}
switch (address) {
case 0x03ba: /* Input Status 1 (monochrome emulation modes) */
case 0x03ca: /* Feature Control ??? */
case 0x03da: /* Input Status 1 (color emulation modes) */
// bit3: Vertical Retrace
// 0 = display is in the display mode
// 1 = display is in the vertical retrace mode
// bit0: Display Enable
// 0 = display is in the display mode
// 1 = display is not in the display mode; either the
// horizontal or vertical retrace period is active
// using 72 Hz vertical frequency
usec = bx_pc_system.time_usec();
switch ((BX_VGA_THIS s.misc_output.vert_sync_pol << 1) | BX_VGA_THIS s.misc_output.horiz_sync_pol)
{
case 0: vertres = 200; break;
case 1: vertres = 400; break;
case 2: vertres = 350; break;
default: vertres = 480; break;
}
if ((usec % 13888) < 70) {
vert_retrace = 1;
}
if ((usec % (13888 / vertres)) == 0) {
horiz_retrace = 1;
}
retval = 0;
if (horiz_retrace || vert_retrace)
retval = 0x01;
if (vert_retrace)
retval |= 0x08;
/* reading this port resets the flip-flop to address mode */
BX_VGA_THIS s.attribute_ctrl.flip_flop = 0;
RETURN(retval);
break;
case 0x03c0: /* */
if (BX_VGA_THIS s.attribute_ctrl.flip_flop == 0) {
//BX_INFO(("io read: 0x3c0: flip_flop = 0"));
retval =
(BX_VGA_THIS s.attribute_ctrl.video_enabled << 5) |
BX_VGA_THIS s.attribute_ctrl.address;
RETURN(retval);
}
else {
BX_ERROR(("io read: 0x3c0: flip_flop != 0"));
return(0);
}
break;
case 0x03c1: /* */
switch (BX_VGA_THIS s.attribute_ctrl.address) {
case 0x00: case 0x01: case 0x02: case 0x03:
case 0x04: case 0x05: case 0x06: case 0x07:
case 0x08: case 0x09: case 0x0a: case 0x0b:
case 0x0c: case 0x0d: case 0x0e: case 0x0f:
retval = BX_VGA_THIS s.attribute_ctrl.palette_reg[BX_VGA_THIS s.attribute_ctrl.address];
RETURN(retval);
break;
case 0x10: /* mode control register */
retval =
(BX_VGA_THIS s.attribute_ctrl.mode_ctrl.graphics_alpha << 0) |
(BX_VGA_THIS s.attribute_ctrl.mode_ctrl.display_type << 1) |
(BX_VGA_THIS s.attribute_ctrl.mode_ctrl.enable_line_graphics << 2) |
(BX_VGA_THIS s.attribute_ctrl.mode_ctrl.blink_intensity << 3) |
(BX_VGA_THIS s.attribute_ctrl.mode_ctrl.pixel_panning_compat << 5) |
(BX_VGA_THIS s.attribute_ctrl.mode_ctrl.pixel_clock_select << 6) |
(BX_VGA_THIS s.attribute_ctrl.mode_ctrl.internal_palette_size << 7);
RETURN(retval);
break;
case 0x11: /* overscan color register */
RETURN(BX_VGA_THIS s.attribute_ctrl.overscan_color);
break;
case 0x12: /* color plane enable */
RETURN(BX_VGA_THIS s.attribute_ctrl.color_plane_enable);
break;
case 0x13: /* horizontal PEL panning register */
RETURN(BX_VGA_THIS s.attribute_ctrl.horiz_pel_panning);
break;
case 0x14: /* color select register */
RETURN(BX_VGA_THIS s.attribute_ctrl.color_select);
break;
default:
BX_INFO(("io read: 0x3c1: unknown register 0x%02x",
(unsigned) BX_VGA_THIS s.attribute_ctrl.address));
RETURN(0);
}
break;
case 0x03c2: /* Input Status 0 */
BX_DEBUG(("io read 0x3c2: input status #0: ignoring"));
RETURN(0);
break;
case 0x03c3: /* VGA Enable Register */
RETURN(BX_VGA_THIS s.vga_enabled);
break;
case 0x03c4: /* Sequencer Index Register */
RETURN(BX_VGA_THIS s.sequencer.index);
break;
case 0x03c5: /* Sequencer Registers 00..04 */
switch (BX_VGA_THIS s.sequencer.index) {
case 0: /* sequencer: reset */
BX_DEBUG(("io read 0x3c5: sequencer reset"));
RETURN(BX_VGA_THIS s.sequencer.reset1 | (BX_VGA_THIS s.sequencer.reset2<<1));
break;
case 1: /* sequencer: clocking mode */
BX_DEBUG(("io read 0x3c5: sequencer clocking mode"));
RETURN(BX_VGA_THIS s.sequencer.reg1);
break;
case 2: /* sequencer: map mask register */
RETURN(BX_VGA_THIS s.sequencer.map_mask);
break;
case 3: /* sequencer: character map select register */
RETURN(BX_VGA_THIS s.sequencer.char_map_select);
break;
case 4: /* sequencer: memory mode register */
retval =
(BX_VGA_THIS s.sequencer.extended_mem << 1) |
(BX_VGA_THIS s.sequencer.odd_even << 2) |
(BX_VGA_THIS s.sequencer.chain_four << 3);
RETURN(retval);
break;
default:
BX_DEBUG(("io read 0x3c5: index %u unhandled",
(unsigned) BX_VGA_THIS s.sequencer.index));
RETURN(0);
}
break;
case 0x03c6: /* PEL mask ??? */
RETURN(BX_VGA_THIS s.pel.mask);
break;
case 0x03c7: /* DAC state, read = 11b, write = 00b */
RETURN(BX_VGA_THIS s.pel.dac_state);
break;
case 0x03c8: /* PEL address write mode */
RETURN(BX_VGA_THIS s.pel.write_data_register);
break;
case 0x03c9: /* PEL Data Register, colors 00..FF */
if (BX_VGA_THIS s.pel.dac_state == 0x03) {
switch (BX_VGA_THIS s.pel.read_data_cycle) {
case 0:
retval = BX_VGA_THIS s.pel.data[BX_VGA_THIS s.pel.read_data_register].red;
break;
case 1:
retval = BX_VGA_THIS s.pel.data[BX_VGA_THIS s.pel.read_data_register].green;
break;
case 2:
retval = BX_VGA_THIS s.pel.data[BX_VGA_THIS s.pel.read_data_register].blue;
break;
default:
retval = 0; // keep compiler happy
}
BX_VGA_THIS s.pel.read_data_cycle++;
if (BX_VGA_THIS s.pel.read_data_cycle >= 3) {
BX_VGA_THIS s.pel.read_data_cycle = 0;
BX_VGA_THIS s.pel.read_data_register++;
}
}
else {
retval = 0x3f;
}
RETURN(retval);
break;
case 0x03cc: /* Miscellaneous Output / Graphics 1 Position ??? */
retval =
((BX_VGA_THIS s.misc_output.color_emulation & 0x01) << 0) |
((BX_VGA_THIS s.misc_output.enable_ram & 0x01) << 1) |
((BX_VGA_THIS s.misc_output.clock_select & 0x03) << 2) |
((BX_VGA_THIS s.misc_output.select_high_bank & 0x01) << 5) |
((BX_VGA_THIS s.misc_output.horiz_sync_pol & 0x01) << 6) |
((BX_VGA_THIS s.misc_output.vert_sync_pol & 0x01) << 7);
RETURN(retval);
break;
case 0x03ce: /* Graphics Controller Index Register */
RETURN(BX_VGA_THIS s.graphics_ctrl.index);
break;
case 0x03cd: /* ??? */
BX_DEBUG(("io read from 03cd"));
RETURN(0x00);
break;
case 0x03cf: /* Graphics Controller Registers 00..08 */
switch (BX_VGA_THIS s.graphics_ctrl.index) {
case 0: /* Set/Reset */
RETURN(BX_VGA_THIS s.graphics_ctrl.set_reset);
break;
case 1: /* Enable Set/Reset */
RETURN(BX_VGA_THIS s.graphics_ctrl.enable_set_reset);
break;
case 2: /* Color Compare */
RETURN(BX_VGA_THIS s.graphics_ctrl.color_compare);
break;
case 3: /* Data Rotate */
retval =
((BX_VGA_THIS s.graphics_ctrl.raster_op & 0x03) << 3) |
((BX_VGA_THIS s.graphics_ctrl.data_rotate & 0x07) << 0);
RETURN(retval);
break;
case 4: /* Read Map Select */
RETURN(BX_VGA_THIS s.graphics_ctrl.read_map_select);
break;
case 5: /* Mode */
retval =
((BX_VGA_THIS s.graphics_ctrl.shift_reg & 0x03) << 5) |
((BX_VGA_THIS s.graphics_ctrl.odd_even & 0x01) << 4) |
((BX_VGA_THIS s.graphics_ctrl.read_mode & 0x01) << 3) |
((BX_VGA_THIS s.graphics_ctrl.write_mode & 0x03) << 0);
if (BX_VGA_THIS s.graphics_ctrl.odd_even ||
BX_VGA_THIS s.graphics_ctrl.shift_reg)
BX_DEBUG(("io read 0x3cf: reg 05 = 0x%02x", (unsigned) retval));
RETURN(retval);
break;
case 6: /* Miscellaneous */
retval =
((BX_VGA_THIS s.graphics_ctrl.memory_mapping & 0x03) << 2) |
((BX_VGA_THIS s.graphics_ctrl.odd_even & 0x01) << 1) |
((BX_VGA_THIS s.graphics_ctrl.graphics_alpha & 0x01) << 0);
RETURN(retval);
break;
case 7: /* Color Don't Care */
RETURN(BX_VGA_THIS s.graphics_ctrl.color_dont_care);
break;
case 8: /* Bit Mask */
RETURN(BX_VGA_THIS s.graphics_ctrl.bitmask);
break;
default:
/* ??? */
BX_DEBUG(("io read: 0x3cf: index %u unhandled",
(unsigned) BX_VGA_THIS s.graphics_ctrl.index));
RETURN(0);
}
break;
case 0x03d4: /* CRTC Index Register (color emulation modes) */
RETURN(BX_VGA_THIS s.CRTC.address);
break;
case 0x03b5: /* CRTC Registers (monochrome emulation modes) */
case 0x03d5: /* CRTC Registers (color emulation modes) */
if (BX_VGA_THIS s.CRTC.address > 0x18) {
BX_DEBUG(("io read: invalid CRTC register 0x%02x",
(unsigned) BX_VGA_THIS s.CRTC.address));
RETURN(0);
}
RETURN(BX_VGA_THIS s.CRTC.reg[BX_VGA_THIS s.CRTC.address]);
break;
case 0x03b4: /* CRTC Index Register (monochrome emulation modes) */
case 0x03cb: /* not sure but OpenBSD reads it a lot */
default:
BX_INFO(("io read from vga port 0x%04x", (unsigned) address));
RETURN(0); /* keep compiler happy */
}
#if defined(VGA_TRACE_FEATURE)
read_return:
if (io_len == 1) {
BX_DEBUG(("8-bit read from 0x%04x = 0x%02x", (unsigned) address, ret));
} else {
BX_DEBUG(("16-bit read from 0x%04x = 0x%04x", (unsigned) address, ret));
}
return ret;
#endif
}
#if defined(VGA_TRACE_FEATURE)
#undef RETURN
#endif
// static IO port write callback handler
// redirects to non-static class handler to avoid virtual functions
void bx_vga_c::write_handler(void *this_ptr, Bit32u address, Bit32u value, unsigned io_len)
{
#if BX_USE_VGA_SMF == 0
bx_vga_c *class_ptr = (bx_vga_c *) this_ptr;
class_ptr->write(address, value, io_len, 0);
#else
UNUSED(this_ptr);
theVga->write(address, value, io_len, 0);
#endif
}
#if BX_USE_VGA_SMF
void bx_vga_c::write_handler_no_log(void *this_ptr, Bit32u address, Bit32u value, unsigned io_len)
{
UNUSED(this_ptr);
theVga->write(address, value, io_len, 1);
}
#endif
void bx_vga_c::write(Bit32u address, Bit32u value, unsigned io_len, bx_bool no_log)
{
Bit8u charmap1, charmap2, prev_memory_mapping;
bx_bool prev_video_enabled, prev_line_graphics, prev_int_pal_size, prev_graphics_alpha;
//bx_bool prev_chain_odd_even;
bx_bool needs_update = 0, charmap_update = 0;
#if defined(VGA_TRACE_FEATURE)
if (!no_log)
switch (io_len) {
case 1:
BX_DEBUG(("8-bit write to %04x = %02x", (unsigned)address, (unsigned)value));
break;
case 2:
BX_DEBUG(("16-bit write to %04x = %04x", (unsigned)address, (unsigned)value));
break;
default:
BX_PANIC(("Weird VGA write size"));
}
#else
if (io_len == 1) {
BX_DEBUG(("io write to 0x%04x = 0x%02x", (unsigned) address, (unsigned) value));
}
#endif
if (io_len == 2) {
#if BX_USE_VGA_SMF
bx_vga_c::write_handler_no_log(0, address, value & 0xff, 1);
bx_vga_c::write_handler_no_log(0, address+1, (value >> 8) & 0xff, 1);
#else
bx_vga_c::write(address, value & 0xff, 1, 1);
bx_vga_c::write(address+1, (value >> 8) & 0xff, 1, 1);
#endif
return;
}
if ((address >= 0x03b0) && (address <= 0x03bf) &&
(BX_VGA_THIS s.misc_output.color_emulation))
return;
if ((address >= 0x03d0) && (address <= 0x03df) &&
(BX_VGA_THIS s.misc_output.color_emulation==0))
return;
switch (address) {
case 0x03ba: /* Feature Control (monochrome emulation modes) */
#if !defined(VGA_TRACE_FEATURE)
BX_DEBUG(("io write 3ba: feature control: ignoring"));
#endif
break;
case 0x03c0: /* Attribute Controller */
if (BX_VGA_THIS s.attribute_ctrl.flip_flop == 0) { /* address mode */
prev_video_enabled = BX_VGA_THIS s.attribute_ctrl.video_enabled;
BX_VGA_THIS s.attribute_ctrl.video_enabled = (value >> 5) & 0x01;
#if !defined(VGA_TRACE_FEATURE)
BX_DEBUG(("io write 3c0: video_enabled = %u",
(unsigned) BX_VGA_THIS s.attribute_ctrl.video_enabled));
#endif
if (BX_VGA_THIS s.attribute_ctrl.video_enabled == 0)
bx_gui->clear_screen();
else if (!prev_video_enabled) {
#if !defined(VGA_TRACE_FEATURE)
BX_DEBUG(("found enable transition"));
#endif
needs_update = 1;
}
value &= 0x1f; /* address = bits 0..4 */
BX_VGA_THIS s.attribute_ctrl.address = value;
switch (value) {
case 0x00: case 0x01: case 0x02: case 0x03:
case 0x04: case 0x05: case 0x06: case 0x07:
case 0x08: case 0x09: case 0x0a: case 0x0b:
case 0x0c: case 0x0d: case 0x0e: case 0x0f:
break;
default:
BX_DEBUG(("io write 0x3c0: address mode reg=0x%02x",
(unsigned) value));
}
}
else { /* data-write mode */
switch (BX_VGA_THIS s.attribute_ctrl.address) {
case 0x00: case 0x01: case 0x02: case 0x03:
case 0x04: case 0x05: case 0x06: case 0x07:
case 0x08: case 0x09: case 0x0a: case 0x0b:
case 0x0c: case 0x0d: case 0x0e: case 0x0f:
if (value != BX_VGA_THIS s.attribute_ctrl.palette_reg[BX_VGA_THIS s.attribute_ctrl.address]) {
BX_VGA_THIS s.attribute_ctrl.palette_reg[BX_VGA_THIS s.attribute_ctrl.address] =
value;
needs_update = 1;
}
break;
case 0x10: // mode control register
prev_line_graphics = BX_VGA_THIS s.attribute_ctrl.mode_ctrl.enable_line_graphics;
prev_int_pal_size = BX_VGA_THIS s.attribute_ctrl.mode_ctrl.internal_palette_size;
BX_VGA_THIS s.attribute_ctrl.mode_ctrl.graphics_alpha =
(value >> 0) & 0x01;
BX_VGA_THIS s.attribute_ctrl.mode_ctrl.display_type =
(value >> 1) & 0x01;
BX_VGA_THIS s.attribute_ctrl.mode_ctrl.enable_line_graphics =
(value >> 2) & 0x01;
BX_VGA_THIS s.attribute_ctrl.mode_ctrl.blink_intensity =
(value >> 3) & 0x01;
BX_VGA_THIS s.attribute_ctrl.mode_ctrl.pixel_panning_compat =
(value >> 5) & 0x01;
BX_VGA_THIS s.attribute_ctrl.mode_ctrl.pixel_clock_select =
(value >> 6) & 0x01;
BX_VGA_THIS s.attribute_ctrl.mode_ctrl.internal_palette_size =
(value >> 7) & 0x01;
if (((value >> 2) & 0x01) != prev_line_graphics) {
charmap_update = 1;
}
if (((value >> 7) & 0x01) != prev_int_pal_size) {
needs_update = 1;
}
#if !defined(VGA_TRACE_FEATURE)
BX_DEBUG(("io write 0x3c0: mode control: 0x%02x",
(unsigned) value));
#endif
break;
case 0x11: // Overscan Color Register
BX_VGA_THIS s.attribute_ctrl.overscan_color = (value & 0x3f);
#if !defined(VGA_TRACE_FEATURE)
BX_DEBUG(("io write 0x3c0: overscan color = 0x%02x",
(unsigned) value));
#endif
break;
case 0x12: // Color Plane Enable Register
BX_VGA_THIS s.attribute_ctrl.color_plane_enable = (value & 0x0f);
needs_update = 1;
#if !defined(VGA_TRACE_FEATURE)
BX_DEBUG(("io write 0x3c0: color plane enable = 0x%02x",
(unsigned) value));
#endif
break;
case 0x13: // Horizontal Pixel Panning Register
BX_VGA_THIS s.attribute_ctrl.horiz_pel_panning = (value & 0x0f);
needs_update = 1;
#if !defined(VGA_TRACE_FEATURE)
BX_DEBUG(("io write 0x3c0: horiz pel panning = 0x%02x",
(unsigned) value));
#endif
break;
case 0x14: // Color Select Register
BX_VGA_THIS s.attribute_ctrl.color_select = (value & 0x0f);
needs_update = 1;
#if !defined(VGA_TRACE_FEATURE)
BX_DEBUG(("io write 0x3c0: color select = 0x%02x",
(unsigned) BX_VGA_THIS s.attribute_ctrl.color_select));
#endif
break;
default:
BX_DEBUG(("io write 0x3c0: data-write mode 0x%02x",
(unsigned) BX_VGA_THIS s.attribute_ctrl.address));
}
}
BX_VGA_THIS s.attribute_ctrl.flip_flop = !BX_VGA_THIS s.attribute_ctrl.flip_flop;
break;
case 0x03c2: // Miscellaneous Output Register
BX_VGA_THIS s.misc_output.color_emulation = (value >> 0) & 0x01;
BX_VGA_THIS s.misc_output.enable_ram = (value >> 1) & 0x01;
BX_VGA_THIS s.misc_output.clock_select = (value >> 2) & 0x03;
BX_VGA_THIS s.misc_output.select_high_bank = (value >> 5) & 0x01;
BX_VGA_THIS s.misc_output.horiz_sync_pol = (value >> 6) & 0x01;
BX_VGA_THIS s.misc_output.vert_sync_pol = (value >> 7) & 0x01;
#if !defined(VGA_TRACE_FEATURE)
BX_DEBUG(("io write 3c2:"));
BX_DEBUG((" color_emulation (attempted) = %u",
(value >> 0) & 0x01));
BX_DEBUG((" enable_ram = %u",
(unsigned) BX_VGA_THIS s.misc_output.enable_ram));
BX_DEBUG((" clock_select = %u",
(unsigned) BX_VGA_THIS s.misc_output.clock_select));
BX_DEBUG((" select_high_bank = %u",
(unsigned) BX_VGA_THIS s.misc_output.select_high_bank));
BX_DEBUG((" horiz_sync_pol = %u",
(unsigned) BX_VGA_THIS s.misc_output.horiz_sync_pol));
BX_DEBUG((" vert_sync_pol = %u",
(unsigned) BX_VGA_THIS s.misc_output.vert_sync_pol));
#endif
break;
case 0x03c3: // VGA enable
// bit0: enables VGA display if set
BX_VGA_THIS s.vga_enabled = value & 0x01;
#if !defined(VGA_TRACE_FEATURE)
BX_DEBUG(("io write 0x03c3: VGA enable = %u", BX_VGA_THIS s.vga_enabled));
#endif
break;
case 0x03c4: /* Sequencer Index Register */
if (value > 4) {
BX_DEBUG(("io write 3c4: value > 4"));
}
BX_VGA_THIS s.sequencer.index = value;
break;
case 0x03c5: /* Sequencer Registers 00..04 */
switch (BX_VGA_THIS s.sequencer.index) {
case 0: /* sequencer: reset */
#if !defined(VGA_TRACE_FEATURE)
BX_DEBUG(("write 0x3c5: sequencer reset: value=0x%02x",
(unsigned) value));
#endif
if (BX_VGA_THIS s.sequencer.reset1 && ((value & 0x01) == 0)) {
BX_VGA_THIS s.sequencer.char_map_select = 0;
BX_VGA_THIS s.charmap_address = 0;
charmap_update = 1;
}
BX_VGA_THIS s.sequencer.reset1 = (value >> 0) & 0x01;
BX_VGA_THIS s.sequencer.reset2 = (value >> 1) & 0x01;
break;
case 1: /* sequencer: clocking mode */
#if !defined(VGA_TRACE_FEATURE)
BX_DEBUG(("io write 0x3c5=0x%02x: clocking mode reg: ignoring",
(unsigned) value));
#endif
if ((value & 0x20) > 0) {
bx_gui->clear_screen();
} else if ((BX_VGA_THIS s.sequencer.reg1 & 0x20) > 0) {
needs_update = 1;
}
BX_VGA_THIS s.sequencer.reg1 = value & 0x3d;
BX_VGA_THIS s.x_dotclockdiv2 = ((value & 0x08) > 0);
break;
case 2: /* sequencer: map mask register */
BX_VGA_THIS s.sequencer.map_mask = (value & 0x0f);
break;
case 3: /* sequencer: character map select register */
BX_VGA_THIS s.sequencer.char_map_select = value & 0x3f;
charmap1 = value & 0x13;
if (charmap1 > 3) charmap1 = (charmap1 & 3) + 4;
charmap2 = (value & 0x2C) >> 2;
if (charmap2 > 3) charmap2 = (charmap2 & 3) + 4;
if (BX_VGA_THIS s.CRTC.reg[0x09] > 0) {
BX_VGA_THIS s.charmap_address = charmap_offset[charmap1];
charmap_update = 1;
}
if (charmap2 != charmap1)
BX_INFO(("char map select: map #2 in block #%d unused", charmap2));
break;
case 4: /* sequencer: memory mode register */
BX_VGA_THIS s.sequencer.extended_mem = (value >> 1) & 0x01;
BX_VGA_THIS s.sequencer.odd_even = (value >> 2) & 0x01;
BX_VGA_THIS s.sequencer.chain_four = (value >> 3) & 0x01;
#if !defined(VGA_TRACE_FEATURE)
BX_DEBUG(("io write 0x3c5: memory mode:"));
BX_DEBUG((" extended_mem = %u",
(unsigned) BX_VGA_THIS s.sequencer.extended_mem));
BX_DEBUG((" odd_even = %u",
(unsigned) BX_VGA_THIS s.sequencer.odd_even));
BX_DEBUG((" chain_four = %u",
(unsigned) BX_VGA_THIS s.sequencer.chain_four));
#endif
break;
default:
BX_DEBUG(("io write 0x3c5: index 0x%02x unhandled",
(unsigned) BX_VGA_THIS s.sequencer.index));
}
break;
case 0x03c6: /* PEL mask */
BX_VGA_THIS s.pel.mask = value;
if (BX_VGA_THIS s.pel.mask != 0xff)
BX_DEBUG(("io write 0x3c6: PEL mask=0x%02x != 0xFF", value));
// BX_VGA_THIS s.pel.mask should be and'd with final value before
// indexing into color register BX_VGA_THIS s.pel.data[]
break;
case 0x03c7: // PEL address, read mode
BX_VGA_THIS s.pel.read_data_register = value;
BX_VGA_THIS s.pel.read_data_cycle = 0;
BX_VGA_THIS s.pel.dac_state = 0x03;
break;
case 0x03c8: /* PEL address write mode */
BX_VGA_THIS s.pel.write_data_register = value;
BX_VGA_THIS s.pel.write_data_cycle = 0;
BX_VGA_THIS s.pel.dac_state = 0x00;
break;
case 0x03c9: /* PEL Data Register, colors 00..FF */
switch (BX_VGA_THIS s.pel.write_data_cycle) {
case 0:
BX_VGA_THIS s.pel.data[BX_VGA_THIS s.pel.write_data_register].red = value;
break;
case 1:
BX_VGA_THIS s.pel.data[BX_VGA_THIS s.pel.write_data_register].green = value;
break;
case 2:
BX_VGA_THIS s.pel.data[BX_VGA_THIS s.pel.write_data_register].blue = value;
if (BX_VGA_THIS vbe.dac_8bit) {
needs_update |= bx_gui->palette_change(BX_VGA_THIS s.pel.write_data_register,
BX_VGA_THIS s.pel.data[BX_VGA_THIS s.pel.write_data_register].red,
BX_VGA_THIS s.pel.data[BX_VGA_THIS s.pel.write_data_register].green,
BX_VGA_THIS s.pel.data[BX_VGA_THIS s.pel.write_data_register].blue);
} else {
needs_update |= bx_gui->palette_change(BX_VGA_THIS s.pel.write_data_register,
BX_VGA_THIS s.pel.data[BX_VGA_THIS s.pel.write_data_register].red<<2,
BX_VGA_THIS s.pel.data[BX_VGA_THIS s.pel.write_data_register].green<<2,
BX_VGA_THIS s.pel.data[BX_VGA_THIS s.pel.write_data_register].blue<<2);
}
break;
}
BX_VGA_THIS s.pel.write_data_cycle++;
if (BX_VGA_THIS s.pel.write_data_cycle >= 3) {
//BX_INFO(("BX_VGA_THIS s.pel.data[%u] {r=%u, g=%u, b=%u}",
// (unsigned) BX_VGA_THIS s.pel.write_data_register,
// (unsigned) BX_VGA_THIS s.pel.data[BX_VGA_THIS s.pel.write_data_register].red,
// (unsigned) BX_VGA_THIS s.pel.data[BX_VGA_THIS s.pel.write_data_register].green,
// (unsigned) BX_VGA_THIS s.pel.data[BX_VGA_THIS s.pel.write_data_register].blue);
BX_VGA_THIS s.pel.write_data_cycle = 0;
BX_VGA_THIS s.pel.write_data_register++;
}
break;
case 0x03ca: /* Graphics 2 Position (EGA) */
// ignore, EGA only???
break;
case 0x03cc: /* Graphics 1 Position (EGA) */
// ignore, EGA only???
break;
case 0x03cd: /* ??? */
BX_DEBUG(("io write to 0x3cd = 0x%02x", (unsigned) value));
break;
case 0x03ce: /* Graphics Controller Index Register */
if (value > 0x08) /* ??? */
BX_DEBUG(("io write: 0x3ce: value > 8"));
BX_VGA_THIS s.graphics_ctrl.index = value;
break;
case 0x03cf: /* Graphics Controller Registers 00..08 */
switch (BX_VGA_THIS s.graphics_ctrl.index) {
case 0: /* Set/Reset */
BX_VGA_THIS s.graphics_ctrl.set_reset = value & 0x0f;
break;
case 1: /* Enable Set/Reset */
BX_VGA_THIS s.graphics_ctrl.enable_set_reset = value & 0x0f;
break;
case 2: /* Color Compare */
BX_VGA_THIS s.graphics_ctrl.color_compare = value & 0x0f;
break;
case 3: /* Data Rotate */
BX_VGA_THIS s.graphics_ctrl.data_rotate = value & 0x07;
BX_VGA_THIS s.graphics_ctrl.raster_op = (value >> 3) & 0x03;
break;
case 4: /* Read Map Select */
BX_VGA_THIS s.graphics_ctrl.read_map_select = value & 0x03;
#if !defined(VGA_TRACE_FEATURE)
BX_DEBUG(("io write to 0x3cf = 0x%02x (RMS)", (unsigned) value));
#endif
break;
case 5: /* Mode */
BX_VGA_THIS s.graphics_ctrl.write_mode = value & 0x03;
BX_VGA_THIS s.graphics_ctrl.read_mode = (value >> 3) & 0x01;
BX_VGA_THIS s.graphics_ctrl.odd_even = (value >> 4) & 0x01;
BX_VGA_THIS s.graphics_ctrl.shift_reg = (value >> 5) & 0x03;
if (BX_VGA_THIS s.graphics_ctrl.odd_even)
BX_DEBUG(("io write: 0x3cf: mode reg: value = 0x%02x",
(unsigned) value));
if (BX_VGA_THIS s.graphics_ctrl.shift_reg)
BX_DEBUG(("io write: 0x3cf: mode reg: value = 0x%02x",
(unsigned) value));
break;
case 6: /* Miscellaneous */
prev_graphics_alpha = BX_VGA_THIS s.graphics_ctrl.graphics_alpha;
// prev_chain_odd_even = BX_VGA_THIS s.graphics_ctrl.chain_odd_even;
prev_memory_mapping = BX_VGA_THIS s.graphics_ctrl.memory_mapping;
BX_VGA_THIS s.graphics_ctrl.graphics_alpha = value & 0x01;
BX_VGA_THIS s.graphics_ctrl.chain_odd_even = (value >> 1) & 0x01;
BX_VGA_THIS s.graphics_ctrl.memory_mapping = (value >> 2) & 0x03;
#if !defined(VGA_TRACE_FEATURE)
BX_DEBUG(("memory_mapping set to %u",
(unsigned) BX_VGA_THIS s.graphics_ctrl.memory_mapping));
BX_DEBUG(("graphics mode set to %u",
(unsigned) BX_VGA_THIS s.graphics_ctrl.graphics_alpha));
BX_DEBUG(("odd_even mode set to %u",
(unsigned) BX_VGA_THIS s.graphics_ctrl.odd_even));
BX_DEBUG(("io write: 0x3cf: misc reg: value = 0x%02x",
(unsigned) value));
#endif
if (prev_memory_mapping != BX_VGA_THIS s.graphics_ctrl.memory_mapping)
needs_update = 1;
if (prev_graphics_alpha != BX_VGA_THIS s.graphics_ctrl.graphics_alpha) {
needs_update = 1;
old_iHeight = 0;
}
break;
case 7: /* Color Don't Care */
BX_VGA_THIS s.graphics_ctrl.color_dont_care = value & 0x0f;
break;
case 8: /* Bit Mask */
BX_VGA_THIS s.graphics_ctrl.bitmask = value;
break;
default:
/* ??? */
BX_DEBUG(("io write: 0x3cf: index %u unhandled",
(unsigned) BX_VGA_THIS s.graphics_ctrl.index));
}
break;
case 0x03b4: /* CRTC Index Register (monochrome emulation modes) */
case 0x03d4: /* CRTC Index Register (color emulation modes) */
BX_VGA_THIS s.CRTC.address = value & 0x7f;
if (BX_VGA_THIS s.CRTC.address > 0x18)
BX_DEBUG(("write: invalid CRTC register 0x%02x selected",
(unsigned) BX_VGA_THIS s.CRTC.address));
break;
case 0x03b5: /* CRTC Registers (monochrome emulation modes) */
case 0x03d5: /* CRTC Registers (color emulation modes) */
if (BX_VGA_THIS s.CRTC.address > 0x18) {
BX_DEBUG(("write: invalid CRTC register 0x%02x ignored",
(unsigned) BX_VGA_THIS s.CRTC.address));
return;
}
if (BX_VGA_THIS s.CRTC.write_protect && (BX_VGA_THIS s.CRTC.address < 0x08)) {
if (BX_VGA_THIS s.CRTC.address == 0x07) {
BX_VGA_THIS s.CRTC.reg[BX_VGA_THIS s.CRTC.address] &= ~0x10;
BX_VGA_THIS s.CRTC.reg[BX_VGA_THIS s.CRTC.address] |= (value & 0x10);
BX_VGA_THIS s.line_compare &= 0x2ff;
if (BX_VGA_THIS s.CRTC.reg[0x07] & 0x10) BX_VGA_THIS s.line_compare |= 0x100;
needs_update = 1;
break;
} else {
return;
}
}
if (value != BX_VGA_THIS s.CRTC.reg[BX_VGA_THIS s.CRTC.address]) {
BX_VGA_THIS s.CRTC.reg[BX_VGA_THIS s.CRTC.address] = value;
switch (BX_VGA_THIS s.CRTC.address) {
case 0x07:
BX_VGA_THIS s.vertical_display_end &= 0xff;
if (BX_VGA_THIS s.CRTC.reg[0x07] & 0x02) BX_VGA_THIS s.vertical_display_end |= 0x100;
if (BX_VGA_THIS s.CRTC.reg[0x07] & 0x40) BX_VGA_THIS s.vertical_display_end |= 0x200;
BX_VGA_THIS s.line_compare &= 0x2ff;
if (BX_VGA_THIS s.CRTC.reg[0x07] & 0x10) BX_VGA_THIS s.line_compare |= 0x100;
needs_update = 1;
break;
case 0x08:
// Vertical pel panning change
needs_update = 1;
break;
case 0x09:
BX_VGA_THIS s.y_doublescan = ((value & 0x9f) > 0);
BX_VGA_THIS s.line_compare &= 0x1ff;
if (BX_VGA_THIS s.CRTC.reg[0x09] & 0x40) BX_VGA_THIS s.line_compare |= 0x200;
charmap_update = 1;
needs_update = 1;
break;
case 0x0A:
case 0x0B:
case 0x0E:
case 0x0F:
// Cursor size / location change
BX_VGA_THIS s.vga_mem_updated = 1;
break;
case 0x0C:
case 0x0D:
// Start address change
if (BX_VGA_THIS s.graphics_ctrl.graphics_alpha) {
needs_update = 1;
} else {
BX_VGA_THIS s.vga_mem_updated = 1;
}
break;
case 0x11:
BX_VGA_THIS s.CRTC.write_protect = ((BX_VGA_THIS s.CRTC.reg[0x11] & 0x80) > 0);
break;
case 0x12:
BX_VGA_THIS s.vertical_display_end &= 0x300;
BX_VGA_THIS s.vertical_display_end |= BX_VGA_THIS s.CRTC.reg[0x12];
break;
case 0x13:
case 0x14:
case 0x17:
if (!BX_VGA_THIS vbe.enabled || (BX_VGA_THIS vbe.bpp == VBE_DISPI_BPP_4)) {
// Line offset change
BX_VGA_THIS s.line_offset = BX_VGA_THIS s.CRTC.reg[0x13] << 1;
if (BX_VGA_THIS s.CRTC.reg[0x14] & 0x40) BX_VGA_THIS s.line_offset <<= 2;
else if ((BX_VGA_THIS s.CRTC.reg[0x17] & 0x40) == 0) BX_VGA_THIS s.line_offset <<= 1;
needs_update = 1;
}
break;
case 0x18:
BX_VGA_THIS s.line_compare &= 0x300;
BX_VGA_THIS s.line_compare |= BX_VGA_THIS s.CRTC.reg[0x18];
needs_update = 1;
break;
}
}
break;
case 0x03da: /* Feature Control (color emulation modes) */
BX_DEBUG(("io write: 3da: ignoring: feature ctrl & vert sync"));
break;
case 0x03c1: /* */
default:
BX_ERROR(("unsupported io write to port 0x%04x, val=0x%02x",
(unsigned) address, (unsigned) value));
}
if (charmap_update) {
bx_gui->set_text_charmap(
& BX_VGA_THIS s.memory[0x20000 + BX_VGA_THIS s.charmap_address]);
BX_VGA_THIS s.vga_mem_updated = 1;
}
if (needs_update) {
// Mark all video as updated so the changes will go through
BX_VGA_THIS redraw_area(0, 0, old_iWidth, old_iHeight);
}
}
Bit64s bx_vga_c::vga_param_handler(bx_param_c *param, int set, Bit64s val)
{
// handler for runtime parameter 'vga_update_interval'
if (set) {
BX_INFO(("Changing timer interval to %d", (Bit32u)val));
BX_VGA_THIS timer_handler(theVga);
bx_pc_system.activate_timer(BX_VGA_THIS timer_id, (Bit32u)val, 1);
}
return val;
}
void bx_vga_c::trigger_timer(void *this_ptr)
{
timer_handler(this_ptr);
}
void bx_vga_c::timer_handler(void *this_ptr)
{
#if BX_USE_VGA_SMF == 0
bx_vga_c *class_ptr = (bx_vga_c *) this_ptr;
class_ptr->timer();
}
void bx_vga_c::timer(void)
{
#else
UNUSED(this_ptr);
#endif
update();
bx_gui->flush();
}
void bx_vga_c::update(void)
{
unsigned iHeight, iWidth;
/* no screen update necessary */
if ((BX_VGA_THIS s.vga_mem_updated==0) && BX_VGA_THIS s.graphics_ctrl.graphics_alpha)
return;
/* skip screen update when vga/video is disabled or the sequencer is in reset mode */
if (!BX_VGA_THIS s.vga_enabled || !BX_VGA_THIS s.attribute_ctrl.video_enabled
|| !BX_VGA_THIS s.sequencer.reset2 || !BX_VGA_THIS s.sequencer.reset1
|| (BX_VGA_THIS s.sequencer.reg1 & 0x20))
return;
/* skip screen update if the vertical retrace is in progress
(using 72 Hz vertical frequency) */
if ((bx_pc_system.time_usec() % 13888) < 70)
return;
if ((BX_VGA_THIS vbe.enabled) && (BX_VGA_THIS vbe.bpp != VBE_DISPI_BPP_4)) {
// specific VBE code display update code
unsigned pitch;
unsigned xc, yc, xti, yti;
unsigned r, c, w, h;
int i;
unsigned long red, green, blue, colour;
Bit8u * vid_ptr, * vid_ptr2;
Bit8u * tile_ptr, * tile_ptr2;
bx_svga_tileinfo_t info;
Bit8u dac_size = BX_VGA_THIS vbe.dac_8bit ? 8 : 6;
iWidth=BX_VGA_THIS vbe.xres;
iHeight=BX_VGA_THIS vbe.yres;
pitch = BX_VGA_THIS s.line_offset;
Bit8u *disp_ptr = &BX_VGA_THIS s.memory[BX_VGA_THIS vbe.virtual_start];
if (bx_gui->graphics_tile_info(&info)) {
if (info.is_indexed) {
switch (BX_VGA_THIS vbe.bpp) {
case 4:
case 15:
case 16:
case 24:
case 32:
BX_ERROR(("current guest pixel format is unsupported on indexed colour host displays"));
break;
case 8:
for (yc=0, yti = 0; yc<iHeight; yc+=Y_TILESIZE, yti++) {
for (xc=0, xti = 0; xc<iWidth; xc+=X_TILESIZE, xti++) {
if (GET_TILE_UPDATED (xti, yti)) {
vid_ptr = disp_ptr + (yc * pitch + xc);
tile_ptr = bx_gui->graphics_tile_get(xc, yc, &w, &h);
for (r=0; r<h; r++) {
vid_ptr2 = vid_ptr;
tile_ptr2 = tile_ptr;
for (c=0; c<w; c++) {
colour = 0;
for (i=0; i<(int)BX_VGA_THIS vbe.bpp; i+=8) {
colour |= *(vid_ptr2++) << i;
}
if (info.is_little_endian) {
for (i=0; i<info.bpp; i+=8) {
*(tile_ptr2++) = (Bit8u)(colour >> i);
}
}
else {
for (i=info.bpp-8; i>-8; i-=8) {
*(tile_ptr2++) = (Bit8u)(colour >> i);
}
}
}
vid_ptr += pitch;
tile_ptr += info.pitch;
}
bx_gui->graphics_tile_update_in_place(xc, yc, w, h);
SET_TILE_UPDATED (xti, yti, 0);
}
}
}
break;
}
}
else {
switch (BX_VGA_THIS vbe.bpp) {
case 4:
BX_ERROR(("cannot draw 4bpp SVGA"));
break;
case 8:
for (yc=0, yti = 0; yc<iHeight; yc+=Y_TILESIZE, yti++) {
for (xc=0, xti = 0; xc<iWidth; xc+=X_TILESIZE, xti++) {
if (GET_TILE_UPDATED (xti, yti)) {
vid_ptr = disp_ptr + (yc * pitch + xc);
tile_ptr = bx_gui->graphics_tile_get(xc, yc, &w, &h);
for (r=0; r<h; r++) {
vid_ptr2 = vid_ptr;
tile_ptr2 = tile_ptr;
for (c=0; c<w; c++) {
colour = *(vid_ptr2++);
colour = MAKE_COLOUR(
BX_VGA_THIS s.pel.data[colour].red, dac_size, info.red_shift, info.red_mask,
BX_VGA_THIS s.pel.data[colour].green, dac_size, info.green_shift, info.green_mask,
BX_VGA_THIS s.pel.data[colour].blue, dac_size, info.blue_shift, info.blue_mask);
if (info.is_little_endian) {
for (i=0; i<info.bpp; i+=8) {
*(tile_ptr2++) = (Bit8u)(colour >> i);
}
}
else {
for (i=info.bpp-8; i>-8; i-=8) {
*(tile_ptr2++) = (Bit8u)(colour >> i);
}
}
}
vid_ptr += pitch;
tile_ptr += info.pitch;
}
bx_gui->graphics_tile_update_in_place(xc, yc, w, h);
SET_TILE_UPDATED (xti, yti, 0);
}
}
}
break;
case 15:
for (yc=0, yti = 0; yc<iHeight; yc+=Y_TILESIZE, yti++) {
for (xc=0, xti = 0; xc<iWidth; xc+=X_TILESIZE, xti++) {
if (GET_TILE_UPDATED (xti, yti)) {
vid_ptr = disp_ptr + (yc * pitch + (xc<<1));
tile_ptr = bx_gui->graphics_tile_get(xc, yc, &w, &h);
for (r=0; r<h; r++) {
vid_ptr2 = vid_ptr;
tile_ptr2 = tile_ptr;
for (c=0; c<w; c++) {
colour = *(vid_ptr2++);
colour |= *(vid_ptr2++) << 8;
colour = MAKE_COLOUR(
colour & 0x001f, 5, info.blue_shift, info.blue_mask,
colour & 0x03e0, 10, info.green_shift, info.green_mask,
colour & 0x7c00, 15, info.red_shift, info.red_mask);
if (info.is_little_endian) {
for (i=0; i<info.bpp; i+=8) {
*(tile_ptr2++) = (Bit8u)(colour >> i);
}
}
else {
for (i=info.bpp-8; i>-8; i-=8) {
*(tile_ptr2++) = (Bit8u)(colour >> i);
}
}
}
vid_ptr += pitch;
tile_ptr += info.pitch;
}
bx_gui->graphics_tile_update_in_place(xc, yc, w, h);
SET_TILE_UPDATED (xti, yti, 0);
}
}
}
break;
case 16:
for (yc=0, yti = 0; yc<iHeight; yc+=Y_TILESIZE, yti++) {
for (xc=0, xti = 0; xc<iWidth; xc+=X_TILESIZE, xti++) {
if (GET_TILE_UPDATED (xti, yti)) {
vid_ptr = disp_ptr + (yc * pitch + (xc<<1));
tile_ptr = bx_gui->graphics_tile_get(xc, yc, &w, &h);
for (r=0; r<h; r++) {
vid_ptr2 = vid_ptr;
tile_ptr2 = tile_ptr;
for (c=0; c<w; c++) {
colour = *(vid_ptr2++);
colour |= *(vid_ptr2++) << 8;
colour = MAKE_COLOUR(
colour & 0x001f, 5, info.blue_shift, info.blue_mask,
colour & 0x07e0, 11, info.green_shift, info.green_mask,
colour & 0xf800, 16, info.red_shift, info.red_mask);
if (info.is_little_endian) {
for (i=0; i<info.bpp; i+=8) {
*(tile_ptr2++) = (Bit8u)(colour >> i);
}
}
else {
for (i=info.bpp-8; i>-8; i-=8) {
*(tile_ptr2++) = (Bit8u)(colour >> i);
}
}
}
vid_ptr += pitch;
tile_ptr += info.pitch;
}
bx_gui->graphics_tile_update_in_place(xc, yc, w, h);
SET_TILE_UPDATED (xti, yti, 0);
}
}
}
break;
case 24:
for (yc=0, yti = 0; yc<iHeight; yc+=Y_TILESIZE, yti++) {
for (xc=0, xti = 0; xc<iWidth; xc+=X_TILESIZE, xti++) {
if (GET_TILE_UPDATED (xti, yti)) {
vid_ptr = disp_ptr + (yc * pitch + 3*xc);
tile_ptr = bx_gui->graphics_tile_get(xc, yc, &w, &h);
for (r=0; r<h; r++) {
vid_ptr2 = vid_ptr;
tile_ptr2 = tile_ptr;
for (c=0; c<w; c++) {
blue = *(vid_ptr2++);
green = *(vid_ptr2++);
red = *(vid_ptr2++);
colour = MAKE_COLOUR(
red, 8, info.red_shift, info.red_mask,
green, 8, info.green_shift, info.green_mask,
blue, 8, info.blue_shift, info.blue_mask);
if (info.is_little_endian) {
for (i=0; i<info.bpp; i+=8) {
*(tile_ptr2++) = (Bit8u)(colour >> i);
}
}
else {
for (i=info.bpp-8; i>-8; i-=8) {
*(tile_ptr2++) = (Bit8u)(colour >> i);
}
}
}
vid_ptr += pitch;
tile_ptr += info.pitch;
}
bx_gui->graphics_tile_update_in_place(xc, yc, w, h);
SET_TILE_UPDATED (xti, yti, 0);
}
}
}
break;
case 32:
for (yc=0, yti = 0; yc<iHeight; yc+=Y_TILESIZE, yti++) {
for (xc=0, xti = 0; xc<iWidth; xc+=X_TILESIZE, xti++) {
if (GET_TILE_UPDATED (xti, yti)) {
vid_ptr = disp_ptr + (yc * pitch + (xc<<2));
tile_ptr = bx_gui->graphics_tile_get(xc, yc, &w, &h);
for (r=0; r<h; r++) {
vid_ptr2 = vid_ptr;
tile_ptr2 = tile_ptr;
for (c=0; c<w; c++) {
blue = *(vid_ptr2++);
green = *(vid_ptr2++);
red = *(vid_ptr2++);
vid_ptr2++;
colour = MAKE_COLOUR(
red, 8, info.red_shift, info.red_mask,
green, 8, info.green_shift, info.green_mask,
blue, 8, info.blue_shift, info.blue_mask);
if (info.is_little_endian) {
for (i=0; i<info.bpp; i+=8) {
*(tile_ptr2++) = (Bit8u)(colour >> i);
}
}
else {
for (i=info.bpp-8; i>-8; i-=8) {
*(tile_ptr2++) = (Bit8u)(colour >> i);
}
}
}
vid_ptr += pitch;
tile_ptr += info.pitch;
}
bx_gui->graphics_tile_update_in_place(xc, yc, w, h);
SET_TILE_UPDATED (xti, yti, 0);
}
}
}
break;
}
}
old_iWidth = iWidth;
old_iHeight = iHeight;
BX_VGA_THIS s.vga_mem_updated = 0;
}
else {
BX_PANIC(("cannot get svga tile info"));
}
// after a vbe display update, don't try to do any 'normal vga' updates anymore
return;
}
// fields that effect the way video memory is serialized into screen output:
// GRAPHICS CONTROLLER:
// BX_VGA_THIS s.graphics_ctrl.shift_reg:
// 0: output data in standard VGA format or CGA-compatible 640x200 2 color
// graphics mode (mode 6)
// 1: output data in CGA-compatible 320x200 4 color graphics mode
// (modes 4 & 5)
// 2: output data 8 bits at a time from the 4 bit planes
// (mode 13 and variants like modeX)
// if (BX_VGA_THIS s.vga_mem_updated==0 || BX_VGA_THIS s.attribute_ctrl.video_enabled == 0)
if (BX_VGA_THIS s.graphics_ctrl.graphics_alpha) {
Bit8u color;
unsigned bit_no, r, c, x, y;
unsigned long byte_offset, start_addr;
unsigned xc, yc, xti, yti;
start_addr = (BX_VGA_THIS s.CRTC.reg[0x0c] << 8) | BX_VGA_THIS s.CRTC.reg[0x0d];
//BX_DEBUG(("update: shiftreg=%u, chain4=%u, mapping=%u",
// (unsigned) BX_VGA_THIS s.graphics_ctrl.shift_reg,
// (unsigned) BX_VGA_THIS s.sequencer.chain_four,
// (unsigned) BX_VGA_THIS s.graphics_ctrl.memory_mapping);
determine_screen_dimensions(&iHeight, &iWidth);
if((iWidth != old_iWidth) || (iHeight != old_iHeight) ||
(BX_VGA_THIS s.last_bpp > 8))
{
bx_gui->dimension_update(iWidth, iHeight);
old_iWidth = iWidth;
old_iHeight = iHeight;
BX_VGA_THIS s.last_bpp = 8;
}
switch (BX_VGA_THIS s.graphics_ctrl.shift_reg) {
case 0:
Bit8u attribute, palette_reg_val, DAC_regno;
unsigned long line_compare;
Bit8u *plane0, *plane1, *plane2, *plane3;
if (BX_VGA_THIS s.graphics_ctrl.memory_mapping == 3) { // CGA 640x200x2
for (yc=0, yti=0; yc<iHeight; yc+=Y_TILESIZE, yti++) {
for (xc=0, xti=0; xc<iWidth; xc+=X_TILESIZE, xti++) {
if (GET_TILE_UPDATED (xti, yti)) {
for (r=0; r<Y_TILESIZE; r++) {
y = yc + r;
if (BX_VGA_THIS s.y_doublescan) y >>= 1;
for (c=0; c<X_TILESIZE; c++) {
x = xc + c;
/* 0 or 0x2000 */
byte_offset = start_addr + ((y & 1) << 13);
/* to the start of the line */
byte_offset += (320 / 4) * (y / 2);
/* to the byte start */
byte_offset += (x / 8);
bit_no = 7 - (x % 8);
palette_reg_val = (((BX_VGA_THIS s.memory[byte_offset]) >> bit_no) & 1);
DAC_regno = BX_VGA_THIS s.attribute_ctrl.palette_reg[palette_reg_val];
BX_VGA_THIS s.tile[r*X_TILESIZE + c] = DAC_regno;
}
}
SET_TILE_UPDATED (xti, yti, 0);
bx_gui->graphics_tile_update(BX_VGA_THIS s.tile, xc, yc);
}
}
}
} else { // output data in serial fashion with each display plane
// output on its associated serial output. Standard EGA/VGA format
if (BX_VGA_THIS vbe.enabled) {
plane0 = &BX_VGA_THIS s.memory[0<<VBE_DISPI_4BPP_PLANE_SHIFT];
plane1 = &BX_VGA_THIS s.memory[1<<VBE_DISPI_4BPP_PLANE_SHIFT];
plane2 = &BX_VGA_THIS s.memory[2<<VBE_DISPI_4BPP_PLANE_SHIFT];
plane3 = &BX_VGA_THIS s.memory[3<<VBE_DISPI_4BPP_PLANE_SHIFT];
start_addr = BX_VGA_THIS vbe.virtual_start;
line_compare = 0xffff;
} else {
plane0 = &BX_VGA_THIS s.memory[0<<16];
plane1 = &BX_VGA_THIS s.memory[1<<16];
plane2 = &BX_VGA_THIS s.memory[2<<16];
plane3 = &BX_VGA_THIS s.memory[3<<16];
line_compare = BX_VGA_THIS s.line_compare;
if (BX_VGA_THIS s.y_doublescan) line_compare >>= 1;
}
for (yc=0, yti=0; yc<iHeight; yc+=Y_TILESIZE, yti++) {
for (xc=0, xti=0; xc<iWidth; xc+=X_TILESIZE, xti++) {
if (GET_TILE_UPDATED (xti, yti)) {
for (r=0; r<Y_TILESIZE; r++) {
y = yc + r;
if (BX_VGA_THIS s.y_doublescan) y >>= 1;
for (c=0; c<X_TILESIZE; c++) {
x = xc + c;
if (BX_VGA_THIS s.x_dotclockdiv2) x >>= 1;
bit_no = 7 - (x % 8);
if (y > line_compare) {
byte_offset = x / 8 +
((y - line_compare - 1) * BX_VGA_THIS s.line_offset);
} else {
byte_offset = start_addr + x / 8 +
(y * BX_VGA_THIS s.line_offset);
}
attribute =
(((plane0[byte_offset] >> bit_no) & 0x01) << 0) |
(((plane1[byte_offset] >> bit_no) & 0x01) << 1) |
(((plane2[byte_offset] >> bit_no) & 0x01) << 2) |
(((plane3[byte_offset] >> bit_no) & 0x01) << 3);
attribute &= BX_VGA_THIS s.attribute_ctrl.color_plane_enable;
// undocumented feature ???: colors 0..7 high intensity, colors 8..15 blinking
// using low/high intensity. Blinking is not implemented yet.
if (BX_VGA_THIS s.attribute_ctrl.mode_ctrl.blink_intensity) attribute ^= 0x08;
palette_reg_val = BX_VGA_THIS s.attribute_ctrl.palette_reg[attribute];
if (BX_VGA_THIS s.attribute_ctrl.mode_ctrl.internal_palette_size) {
// use 4 lower bits from palette register
// use 4 higher bits from color select register
// 16 banks of 16-color registers
DAC_regno = (palette_reg_val & 0x0f) |
(BX_VGA_THIS s.attribute_ctrl.color_select << 4);
}
else {
// use 6 lower bits from palette register
// use 2 higher bits from color select register
// 4 banks of 64-color registers
DAC_regno = (palette_reg_val & 0x3f) |
((BX_VGA_THIS s.attribute_ctrl.color_select & 0x0c) << 4);
}
// DAC_regno &= video DAC mask register ???
BX_VGA_THIS s.tile[r*X_TILESIZE + c] = DAC_regno;
}
}
SET_TILE_UPDATED (xti, yti, 0);
bx_gui->graphics_tile_update(BX_VGA_THIS s.tile, xc, yc);
}
}
}
}
break; // case 0
case 1: // output the data in a CGA-compatible 320x200 4 color graphics
// mode. (modes 4 & 5)
/* CGA 320x200x4 start */
for (yc=0, yti=0; yc<iHeight; yc+=Y_TILESIZE, yti++) {
for (xc=0, xti=0; xc<iWidth; xc+=X_TILESIZE, xti++) {
if (GET_TILE_UPDATED (xti, yti)) {
for (r=0; r<Y_TILESIZE; r++) {
y = yc + r;
if (BX_VGA_THIS s.y_doublescan) y >>= 1;
for (c=0; c<X_TILESIZE; c++) {
x = xc + c;
if (BX_VGA_THIS s.x_dotclockdiv2) x >>= 1;
/* 0 or 0x2000 */
byte_offset = start_addr + ((y & 1) << 13);
/* to the start of the line */
byte_offset += (320 / 4) * (y / 2);
/* to the byte start */
byte_offset += (x / 4);
attribute = 6 - 2*(x % 4);
palette_reg_val = (BX_VGA_THIS s.memory[byte_offset]) >> attribute;
palette_reg_val &= 3;
DAC_regno = BX_VGA_THIS s.attribute_ctrl.palette_reg[palette_reg_val];
BX_VGA_THIS s.tile[r*X_TILESIZE + c] = DAC_regno;
}
}
SET_TILE_UPDATED (xti, yti, 0);
bx_gui->graphics_tile_update(BX_VGA_THIS s.tile, xc, yc);
}
}
}
/* CGA 320x200x4 end */
break; // case 1
case 2: // output the data eight bits at a time from the 4 bit plane
// (format for VGA mode 13 hex)
case 3: // FIXME: is this really the same ???
if (BX_VGA_THIS s.sequencer.chain_four) {
unsigned long pixely, pixelx, plane;
if (BX_VGA_THIS s.misc_output.select_high_bank != 1)
BX_PANIC(("update: select_high_bank != 1"));
for (yc=0, yti=0; yc<iHeight; yc+=Y_TILESIZE, yti++) {
for (xc=0, xti=0; xc<iWidth; xc+=X_TILESIZE, xti++) {
if (GET_TILE_UPDATED (xti, yti)) {
for (r=0; r<Y_TILESIZE; r++) {
pixely = yc + r;
if (BX_VGA_THIS s.y_doublescan) pixely >>= 1;
for (c=0; c<X_TILESIZE; c++) {
pixelx = (xc + c) >> 1;
plane = (pixelx % 4);
byte_offset = start_addr + (plane * 65536) +
(pixely * BX_VGA_THIS s.line_offset) + (pixelx & ~0x03);
color = BX_VGA_THIS s.memory[byte_offset];
BX_VGA_THIS s.tile[r*X_TILESIZE + c] = color;
}
}
SET_TILE_UPDATED (xti, yti, 0);
bx_gui->graphics_tile_update(BX_VGA_THIS s.tile, xc, yc);
}
}
}
}
else { // chain_four == 0, modeX
unsigned long pixely, pixelx, plane;
for (yc=0, yti=0; yc<iHeight; yc+=Y_TILESIZE, yti++) {
for (xc=0, xti=0; xc<iWidth; xc+=X_TILESIZE, xti++) {
if (GET_TILE_UPDATED (xti, yti)) {
for (r=0; r<Y_TILESIZE; r++) {
pixely = yc + r;
if (BX_VGA_THIS s.y_doublescan) pixely >>= 1;
for (c=0; c<X_TILESIZE; c++) {
pixelx = (xc + c) >> 1;
plane = (pixelx % 4);
byte_offset = (plane * 65536) +
(pixely * BX_VGA_THIS s.line_offset)
+ (pixelx >> 2);
color = BX_VGA_THIS s.memory[start_addr + byte_offset];
BX_VGA_THIS s.tile[r*X_TILESIZE + c] = color;
}
}
SET_TILE_UPDATED (xti, yti, 0);
bx_gui->graphics_tile_update(BX_VGA_THIS s.tile, xc, yc);
}
}
}
}
break; // case 2
default:
BX_PANIC(("update: shift_reg == %u", (unsigned)
BX_VGA_THIS s.graphics_ctrl.shift_reg));
}
BX_VGA_THIS s.vga_mem_updated = 0;
return;
}
else { // text mode
unsigned long start_address;
unsigned long cursor_address, cursor_x, cursor_y;
bx_vga_tminfo_t tm_info;
unsigned VDE, MSL, cols, rows, cWidth;
static unsigned cs_counter = 1;
static bx_bool cs_visible = 0;
bx_bool cs_toggle = 0;
cs_counter--;
if ((BX_VGA_THIS s.vga_mem_updated==0) && (cs_counter > 0))
return;
tm_info.start_address = 2*((BX_VGA_THIS s.CRTC.reg[12] << 8) +
BX_VGA_THIS s.CRTC.reg[13]);
tm_info.cs_start = BX_VGA_THIS s.CRTC.reg[0x0a] & 0x3f;
if (cs_counter == 0) {
cs_toggle = 1;
cs_visible = !cs_visible;
cs_counter = BX_VGA_THIS s.blink_counter;
}
if (!cs_visible) {
tm_info.cs_start |= 0x20;
}
tm_info.cs_end = BX_VGA_THIS s.CRTC.reg[0x0b] & 0x1f;
tm_info.line_offset = BX_VGA_THIS s.CRTC.reg[0x13] << 2;
tm_info.line_compare = BX_VGA_THIS s.line_compare;
tm_info.h_panning = BX_VGA_THIS s.attribute_ctrl.horiz_pel_panning & 0x0f;
tm_info.v_panning = BX_VGA_THIS s.CRTC.reg[0x08] & 0x1f;
tm_info.line_graphics = BX_VGA_THIS s.attribute_ctrl.mode_ctrl.enable_line_graphics;
tm_info.split_hpanning = BX_VGA_THIS s.attribute_ctrl.mode_ctrl.pixel_panning_compat;
tm_info.blink_flags = 0;
if (BX_VGA_THIS s.attribute_ctrl.mode_ctrl.blink_intensity) {
tm_info.blink_flags |= BX_TEXT_BLINK_MODE;
if (cs_toggle)
tm_info.blink_flags |= BX_TEXT_BLINK_TOGGLE;
if (cs_visible)
tm_info.blink_flags |= BX_TEXT_BLINK_STATE;
}
if ((BX_VGA_THIS s.sequencer.reg1 & 0x01) == 0) {
if (tm_info.h_panning >= 8)
tm_info.h_panning = 0;
else
tm_info.h_panning++;
} else {
tm_info.h_panning &= 0x07;
}
// Verticle Display End: find out how many lines are displayed
VDE = BX_VGA_THIS s.vertical_display_end;
// Maximum Scan Line: height of character cell
MSL = BX_VGA_THIS s.CRTC.reg[0x09] & 0x1f;
cols = BX_VGA_THIS s.CRTC.reg[1] + 1;
// workaround for update() calls before VGABIOS init
if (cols == 1) {
cols = 80;
MSL = 15;
}
if ((MSL == 1) && (VDE == 399)) {
// emulated CGA graphics mode 160x100x16 colors
MSL = 3;
}
rows = (VDE+1)/(MSL+1);
if ((rows * tm_info.line_offset) > (1 << 17)) {
BX_ERROR(("update(): text mode: out of memory"));
return;
}
cWidth = ((BX_VGA_THIS s.sequencer.reg1 & 0x01) == 1) ? 8 : 9;
iWidth = cWidth * cols;
iHeight = VDE+1;
if ((iWidth != old_iWidth) || (iHeight != old_iHeight) || (MSL != old_MSL) ||
(BX_VGA_THIS s.last_bpp > 8))
{
bx_gui->dimension_update(iWidth, iHeight, MSL+1, cWidth);
old_iWidth = iWidth;
old_iHeight = iHeight;
old_MSL = MSL;
BX_VGA_THIS s.last_bpp = 8;
}
// pass old text snapshot & new VGA memory contents
start_address = tm_info.start_address;
cursor_address = 2*((BX_VGA_THIS s.CRTC.reg[0x0e] << 8) +
BX_VGA_THIS s.CRTC.reg[0x0f]);
if (cursor_address < start_address) {
cursor_x = 0xffff;
cursor_y = 0xffff;
} else {
cursor_x = ((cursor_address - start_address)/2) % (iWidth/cWidth);
cursor_y = ((cursor_address - start_address)/2) / (iWidth/cWidth);
}
bx_gui->text_update(BX_VGA_THIS s.text_snapshot,
&BX_VGA_THIS s.memory[start_address],
cursor_x, cursor_y, tm_info);
if (BX_VGA_THIS s.vga_mem_updated) {
// screen updated, copy new VGA memory contents into text snapshot
memcpy(BX_VGA_THIS s.text_snapshot,
&BX_VGA_THIS s.memory[start_address],
tm_info.line_offset*rows);
BX_VGA_THIS s.vga_mem_updated = 0;
}
}
}
bx_bool bx_vga_c::mem_read_handler(bx_phy_address addr, unsigned len, void *data, void *param)
{
Bit8u *data_ptr;
#ifdef BX_LITTLE_ENDIAN
data_ptr = (Bit8u *) data;
#else // BX_BIG_ENDIAN
data_ptr = (Bit8u *) data + (len - 1);
#endif
for (unsigned i = 0; i < len; i++) {
*data_ptr = theVga->mem_read(addr);
addr++;
#ifdef BX_LITTLE_ENDIAN
data_ptr++;
#else // BX_BIG_ENDIAN
data_ptr--;
#endif
}
return 1;
}
Bit8u bx_vga_c::mem_read(bx_phy_address addr)
{
Bit32u offset;
Bit8u *plane0, *plane1, *plane2, *plane3;
// if in a vbe enabled mode, read from the vbe_memory
if ((BX_VGA_THIS vbe.enabled) && (BX_VGA_THIS vbe.bpp != VBE_DISPI_BPP_4)) {
return vbe_mem_read(addr);
} else if ((BX_VGA_THIS vbe.base_address != 0) && (addr >= BX_VGA_THIS vbe.base_address)) {
return 0xff;
}
switch (BX_VGA_THIS s.graphics_ctrl.memory_mapping) {
case 1: // 0xA0000 .. 0xAFFFF
if (addr > 0xAFFFF) return 0xff;
offset = addr & 0xFFFF;
break;
case 2: // 0xB0000 .. 0xB7FFF
if ((addr < 0xB0000) || (addr > 0xB7FFF)) return 0xff;
offset = addr & 0x7FFF;
break;
case 3: // 0xB8000 .. 0xBFFFF
if (addr < 0xB8000) return 0xff;
offset = addr & 0x7FFF;
break;
default: // 0xA0000 .. 0xBFFFF
offset = addr & 0x1FFFF;
}
if (BX_VGA_THIS s.sequencer.chain_four) {
// Mode 13h: 320 x 200 256 color mode: chained pixel representation
return BX_VGA_THIS s.memory[(offset & ~0x03) + (offset % 4)*65536];
}
if (BX_VGA_THIS vbe.enabled) {
plane0 = &BX_VGA_THIS s.memory[(0<<VBE_DISPI_4BPP_PLANE_SHIFT) + (BX_VGA_THIS vbe.bank<<16)];
plane1 = &BX_VGA_THIS s.memory[(1<<VBE_DISPI_4BPP_PLANE_SHIFT) + (BX_VGA_THIS vbe.bank<<16)];
plane2 = &BX_VGA_THIS s.memory[(2<<VBE_DISPI_4BPP_PLANE_SHIFT) + (BX_VGA_THIS vbe.bank<<16)];
plane3 = &BX_VGA_THIS s.memory[(3<<VBE_DISPI_4BPP_PLANE_SHIFT) + (BX_VGA_THIS vbe.bank<<16)];
} else {
plane0 = &BX_VGA_THIS s.memory[0<<16];
plane1 = &BX_VGA_THIS s.memory[1<<16];
plane2 = &BX_VGA_THIS s.memory[2<<16];
plane3 = &BX_VGA_THIS s.memory[3<<16];
}
/* addr between 0xA0000 and 0xAFFFF */
switch (BX_VGA_THIS s.graphics_ctrl.read_mode) {
case 0: /* read mode 0 */
BX_VGA_THIS s.graphics_ctrl.latch[0] = plane0[offset];
BX_VGA_THIS s.graphics_ctrl.latch[1] = plane1[offset];
BX_VGA_THIS s.graphics_ctrl.latch[2] = plane2[offset];
BX_VGA_THIS s.graphics_ctrl.latch[3] = plane3[offset];
return(BX_VGA_THIS s.graphics_ctrl.latch[BX_VGA_THIS s.graphics_ctrl.read_map_select]);
break;
case 1: /* read mode 1 */
{
Bit8u color_compare, color_dont_care;
Bit8u latch0, latch1, latch2, latch3, retval;
color_compare = BX_VGA_THIS s.graphics_ctrl.color_compare & 0x0f;
color_dont_care = BX_VGA_THIS s.graphics_ctrl.color_dont_care & 0x0f;
latch0 = BX_VGA_THIS s.graphics_ctrl.latch[0] = plane0[offset];
latch1 = BX_VGA_THIS s.graphics_ctrl.latch[1] = plane1[offset];
latch2 = BX_VGA_THIS s.graphics_ctrl.latch[2] = plane2[offset];
latch3 = BX_VGA_THIS s.graphics_ctrl.latch[3] = plane3[offset];
latch0 ^= ccdat[color_compare][0];
latch1 ^= ccdat[color_compare][1];
latch2 ^= ccdat[color_compare][2];
latch3 ^= ccdat[color_compare][3];
latch0 &= ccdat[color_dont_care][0];
latch1 &= ccdat[color_dont_care][1];
latch2 &= ccdat[color_dont_care][2];
latch3 &= ccdat[color_dont_care][3];
retval = ~(latch0 | latch1 | latch2 | latch3);
return retval;
}
break;
default:
return 0;
}
}
bx_bool bx_vga_c::mem_write_handler(bx_phy_address addr, unsigned len, void *data, void *param)
{
Bit8u *data_ptr;
#ifdef BX_LITTLE_ENDIAN
data_ptr = (Bit8u *) data;
#else // BX_BIG_ENDIAN
data_ptr = (Bit8u *) data + (len - 1);
#endif
for (unsigned i = 0; i < len; i++) {
theVga->mem_write(addr, *data_ptr);
addr++;
#ifdef BX_LITTLE_ENDIAN
data_ptr++;
#else // BX_BIG_ENDIAN
data_ptr--;
#endif
}
return 1;
}
void bx_vga_c::mem_write(bx_phy_address addr, Bit8u value)
{
Bit32u offset;
Bit8u new_val[4] = {0,0,0,0};
unsigned start_addr;
Bit8u *plane0, *plane1, *plane2, *plane3;
// if in a vbe enabled mode, write to the vbe_memory
if ((BX_VGA_THIS vbe.enabled) && (BX_VGA_THIS vbe.bpp != VBE_DISPI_BPP_4))
{
vbe_mem_write(addr, value);
return;
} else if ((BX_VGA_THIS vbe.base_address != 0) && (addr >= BX_VGA_THIS vbe.base_address)) {
return;
}
switch (BX_VGA_THIS s.graphics_ctrl.memory_mapping) {
case 1: // 0xA0000 .. 0xAFFFF
if ((addr < 0xA0000) || (addr > 0xAFFFF)) return;
offset = (Bit32u)addr - 0xA0000;
break;
case 2: // 0xB0000 .. 0xB7FFF
if ((addr < 0xB0000) || (addr > 0xB7FFF)) return;
offset = (Bit32u)addr - 0xB0000;
break;
case 3: // 0xB8000 .. 0xBFFFF
if ((addr < 0xB8000) || (addr > 0xBFFFF)) return;
offset = (Bit32u)addr - 0xB8000;
break;
default: // 0xA0000 .. 0xBFFFF
if ((addr < 0xA0000) || (addr > 0xBFFFF)) return;
offset = (Bit32u)addr - 0xA0000;
}
start_addr = (BX_VGA_THIS s.CRTC.reg[0x0c] << 8) | BX_VGA_THIS s.CRTC.reg[0x0d];
if (BX_VGA_THIS s.graphics_ctrl.graphics_alpha) {
if (BX_VGA_THIS s.graphics_ctrl.memory_mapping == 3) { // 0xB8000 .. 0xBFFFF
unsigned x_tileno, x_tileno2, y_tileno;
/* CGA 320x200x4 / 640x200x2 start */
BX_VGA_THIS s.memory[offset] = value;
offset -= start_addr;
if (offset>=0x2000) {
y_tileno = offset - 0x2000;
y_tileno /= (320/4);
y_tileno <<= 1; //2 * y_tileno;
y_tileno++;
x_tileno = (offset - 0x2000) % (320/4);
x_tileno <<= 2; //*= 4;
} else {
y_tileno = offset / (320/4);
y_tileno <<= 1; //2 * y_tileno;
x_tileno = offset % (320/4);
x_tileno <<= 2; //*=4;
}
x_tileno2=x_tileno;
if (BX_VGA_THIS s.graphics_ctrl.shift_reg==0) {
x_tileno*=2;
x_tileno2+=7;
} else {
x_tileno2+=3;
}
if (BX_VGA_THIS s.x_dotclockdiv2) {
x_tileno/=(X_TILESIZE/2);
x_tileno2/=(X_TILESIZE/2);
} else {
x_tileno/=X_TILESIZE;
x_tileno2/=X_TILESIZE;
}
if (BX_VGA_THIS s.y_doublescan) {
y_tileno/=(Y_TILESIZE/2);
} else {
y_tileno/=Y_TILESIZE;
}
BX_VGA_THIS s.vga_mem_updated = 1;
SET_TILE_UPDATED (x_tileno, y_tileno, 1);
if (x_tileno2!=x_tileno) {
SET_TILE_UPDATED (x_tileno2, y_tileno, 1);
}
return;
/* CGA 320x200x4 / 640x200x2 end */
}
else if (BX_VGA_THIS s.graphics_ctrl.memory_mapping != 1) {
BX_PANIC(("mem_write: graphics: mapping = %u",
(unsigned) BX_VGA_THIS s.graphics_ctrl.memory_mapping));
return;
}
if (BX_VGA_THIS s.sequencer.chain_four) {
unsigned x_tileno, y_tileno;
// 320 x 200 256 color mode: chained pixel representation
BX_VGA_THIS s.memory[(offset & ~0x03) + (offset % 4)*65536] = value;
if (BX_VGA_THIS s.line_offset > 0) {
offset -= start_addr;
x_tileno = (offset % BX_VGA_THIS s.line_offset) / (X_TILESIZE/2);
if (BX_VGA_THIS s.y_doublescan) {
y_tileno = (offset / BX_VGA_THIS s.line_offset) / (Y_TILESIZE/2);
} else {
y_tileno = (offset / BX_VGA_THIS s.line_offset) / Y_TILESIZE;
}
BX_VGA_THIS s.vga_mem_updated = 1;
SET_TILE_UPDATED (x_tileno, y_tileno, 1);
}
return;
}
}
/* addr between 0xA0000 and 0xAFFFF */
if (BX_VGA_THIS vbe.enabled) {
plane0 = &BX_VGA_THIS s.memory[(0<<VBE_DISPI_4BPP_PLANE_SHIFT) + (BX_VGA_THIS vbe.bank<<16)];
plane1 = &BX_VGA_THIS s.memory[(1<<VBE_DISPI_4BPP_PLANE_SHIFT) + (BX_VGA_THIS vbe.bank<<16)];
plane2 = &BX_VGA_THIS s.memory[(2<<VBE_DISPI_4BPP_PLANE_SHIFT) + (BX_VGA_THIS vbe.bank<<16)];
plane3 = &BX_VGA_THIS s.memory[(3<<VBE_DISPI_4BPP_PLANE_SHIFT) + (BX_VGA_THIS vbe.bank<<16)];
} else {
plane0 = &BX_VGA_THIS s.memory[0<<16];
plane1 = &BX_VGA_THIS s.memory[1<<16];
plane2 = &BX_VGA_THIS s.memory[2<<16];
plane3 = &BX_VGA_THIS s.memory[3<<16];
}
switch (BX_VGA_THIS s.graphics_ctrl.write_mode) {
unsigned i;
case 0: /* write mode 0 */
{
const Bit8u bitmask = BX_VGA_THIS s.graphics_ctrl.bitmask;
const Bit8u set_reset = BX_VGA_THIS s.graphics_ctrl.set_reset;
const Bit8u enable_set_reset = BX_VGA_THIS s.graphics_ctrl.enable_set_reset;
/* perform rotate on CPU data in case its needed */
if (BX_VGA_THIS s.graphics_ctrl.data_rotate) {
value = (value >> BX_VGA_THIS s.graphics_ctrl.data_rotate) |
(value << (8 - BX_VGA_THIS s.graphics_ctrl.data_rotate));
}
new_val[0] = BX_VGA_THIS s.graphics_ctrl.latch[0] & ~bitmask;
new_val[1] = BX_VGA_THIS s.graphics_ctrl.latch[1] & ~bitmask;
new_val[2] = BX_VGA_THIS s.graphics_ctrl.latch[2] & ~bitmask;
new_val[3] = BX_VGA_THIS s.graphics_ctrl.latch[3] & ~bitmask;
switch (BX_VGA_THIS s.graphics_ctrl.raster_op) {
case 0: // replace
new_val[0] |= ((enable_set_reset & 1)
? ((set_reset & 1) ? bitmask : 0)
: (value & bitmask));
new_val[1] |= ((enable_set_reset & 2)
? ((set_reset & 2) ? bitmask : 0)
: (value & bitmask));
new_val[2] |= ((enable_set_reset & 4)
? ((set_reset & 4) ? bitmask : 0)
: (value & bitmask));
new_val[3] |= ((enable_set_reset & 8)
? ((set_reset & 8) ? bitmask : 0)
: (value & bitmask));
break;
case 1: // AND
new_val[0] |= ((enable_set_reset & 1)
? ((set_reset & 1)
? (BX_VGA_THIS s.graphics_ctrl.latch[0] & bitmask)
: 0)
: (value & BX_VGA_THIS s.graphics_ctrl.latch[0]) & bitmask);
new_val[1] |= ((enable_set_reset & 2)
? ((set_reset & 2)
? (BX_VGA_THIS s.graphics_ctrl.latch[1] & bitmask)
: 0)
: (value & BX_VGA_THIS s.graphics_ctrl.latch[1]) & bitmask);
new_val[2] |= ((enable_set_reset & 4)
? ((set_reset & 4)
? (BX_VGA_THIS s.graphics_ctrl.latch[2] & bitmask)
: 0)
: (value & BX_VGA_THIS s.graphics_ctrl.latch[2]) & bitmask);
new_val[3] |= ((enable_set_reset & 8)
? ((set_reset & 8)
? (BX_VGA_THIS s.graphics_ctrl.latch[3] & bitmask)
: 0)
: (value & BX_VGA_THIS s.graphics_ctrl.latch[3]) & bitmask);
break;
case 2: // OR
new_val[0]
|= ((enable_set_reset & 1)
? ((set_reset & 1)
? bitmask
: (BX_VGA_THIS s.graphics_ctrl.latch[0] & bitmask))
: ((value | BX_VGA_THIS s.graphics_ctrl.latch[0]) & bitmask));
new_val[1]
|= ((enable_set_reset & 2)
? ((set_reset & 2)
? bitmask
: (BX_VGA_THIS s.graphics_ctrl.latch[1] & bitmask))
: ((value | BX_VGA_THIS s.graphics_ctrl.latch[1]) & bitmask));
new_val[2]
|= ((enable_set_reset & 4)
? ((set_reset & 4)
? bitmask
: (BX_VGA_THIS s.graphics_ctrl.latch[2] & bitmask))
: ((value | BX_VGA_THIS s.graphics_ctrl.latch[2]) & bitmask));
new_val[3]
|= ((enable_set_reset & 8)
? ((set_reset & 8)
? bitmask
: (BX_VGA_THIS s.graphics_ctrl.latch[3] & bitmask))
: ((value | BX_VGA_THIS s.graphics_ctrl.latch[3]) & bitmask));
break;
case 3: // XOR
new_val[0]
|= ((enable_set_reset & 1)
? ((set_reset & 1)
? (~BX_VGA_THIS s.graphics_ctrl.latch[0] & bitmask)
: (BX_VGA_THIS s.graphics_ctrl.latch[0] & bitmask))
: (value ^ BX_VGA_THIS s.graphics_ctrl.latch[0]) & bitmask);
new_val[1]
|= ((enable_set_reset & 2)
? ((set_reset & 2)
? (~BX_VGA_THIS s.graphics_ctrl.latch[1] & bitmask)
: (BX_VGA_THIS s.graphics_ctrl.latch[1] & bitmask))
: (value ^ BX_VGA_THIS s.graphics_ctrl.latch[1]) & bitmask);
new_val[2]
|= ((enable_set_reset & 4)
? ((set_reset & 4)
? (~BX_VGA_THIS s.graphics_ctrl.latch[2] & bitmask)
: (BX_VGA_THIS s.graphics_ctrl.latch[2] & bitmask))
: (value ^ BX_VGA_THIS s.graphics_ctrl.latch[2]) & bitmask);
new_val[3]
|= ((enable_set_reset & 8)
? ((set_reset & 8)
? (~BX_VGA_THIS s.graphics_ctrl.latch[3] & bitmask)
: (BX_VGA_THIS s.graphics_ctrl.latch[3] & bitmask))
: (value ^ BX_VGA_THIS s.graphics_ctrl.latch[3]) & bitmask);
break;
default:
BX_PANIC(("vga_mem_write: write mode 0: op = %u",
(unsigned) BX_VGA_THIS s.graphics_ctrl.raster_op));
}
}
break;
case 1: /* write mode 1 */
for (i=0; i<4; i++) {
new_val[i] = BX_VGA_THIS s.graphics_ctrl.latch[i];
}
break;
case 2: /* write mode 2 */
{
const Bit8u bitmask = BX_VGA_THIS s.graphics_ctrl.bitmask;
new_val[0] = BX_VGA_THIS s.graphics_ctrl.latch[0] & ~bitmask;
new_val[1] = BX_VGA_THIS s.graphics_ctrl.latch[1] & ~bitmask;
new_val[2] = BX_VGA_THIS s.graphics_ctrl.latch[2] & ~bitmask;
new_val[3] = BX_VGA_THIS s.graphics_ctrl.latch[3] & ~bitmask;
switch (BX_VGA_THIS s.graphics_ctrl.raster_op) {
case 0: // write
new_val[0] |= (value & 1) ? bitmask : 0;
new_val[1] |= (value & 2) ? bitmask : 0;
new_val[2] |= (value & 4) ? bitmask : 0;
new_val[3] |= (value & 8) ? bitmask : 0;
break;
case 1: // AND
new_val[0] |= (value & 1)
? (BX_VGA_THIS s.graphics_ctrl.latch[0] & bitmask)
: 0;
new_val[1] |= (value & 2)
? (BX_VGA_THIS s.graphics_ctrl.latch[1] & bitmask)
: 0;
new_val[2] |= (value & 4)
? (BX_VGA_THIS s.graphics_ctrl.latch[2] & bitmask)
: 0;
new_val[3] |= (value & 8)
? (BX_VGA_THIS s.graphics_ctrl.latch[3] & bitmask)
: 0;
break;
case 2: // OR
new_val[0] |= (value & 1)
? bitmask
: (BX_VGA_THIS s.graphics_ctrl.latch[0] & bitmask);
new_val[1] |= (value & 2)
? bitmask
: (BX_VGA_THIS s.graphics_ctrl.latch[1] & bitmask);
new_val[2] |= (value & 4)
? bitmask
: (BX_VGA_THIS s.graphics_ctrl.latch[2] & bitmask);
new_val[3] |= (value & 8)
? bitmask
: (BX_VGA_THIS s.graphics_ctrl.latch[3] & bitmask);
break;
case 3: // XOR
new_val[0] |= (value & 1)
? (~BX_VGA_THIS s.graphics_ctrl.latch[0] & bitmask)
: (BX_VGA_THIS s.graphics_ctrl.latch[0] & bitmask);
new_val[1] |= (value & 2)
? (~BX_VGA_THIS s.graphics_ctrl.latch[1] & bitmask)
: (BX_VGA_THIS s.graphics_ctrl.latch[1] & bitmask);
new_val[2] |= (value & 4)
? (~BX_VGA_THIS s.graphics_ctrl.latch[2] & bitmask)
: (BX_VGA_THIS s.graphics_ctrl.latch[2] & bitmask);
new_val[3] |= (value & 8)
? (~BX_VGA_THIS s.graphics_ctrl.latch[3] & bitmask)
: (BX_VGA_THIS s.graphics_ctrl.latch[3] & bitmask);
break;
}
}
break;
case 3: /* write mode 3 */
{
const Bit8u bitmask = BX_VGA_THIS s.graphics_ctrl.bitmask & value;
const Bit8u set_reset = BX_VGA_THIS s.graphics_ctrl.set_reset;
/* perform rotate on CPU data */
if (BX_VGA_THIS s.graphics_ctrl.data_rotate) {
value = (value >> BX_VGA_THIS s.graphics_ctrl.data_rotate) |
(value << (8 - BX_VGA_THIS s.graphics_ctrl.data_rotate));
}
new_val[0] = BX_VGA_THIS s.graphics_ctrl.latch[0] & ~bitmask;
new_val[1] = BX_VGA_THIS s.graphics_ctrl.latch[1] & ~bitmask;
new_val[2] = BX_VGA_THIS s.graphics_ctrl.latch[2] & ~bitmask;
new_val[3] = BX_VGA_THIS s.graphics_ctrl.latch[3] & ~bitmask;
value &= bitmask;
switch (BX_VGA_THIS s.graphics_ctrl.raster_op) {
case 0: // write
new_val[0] |= (set_reset & 1) ? value : 0;
new_val[1] |= (set_reset & 2) ? value : 0;
new_val[2] |= (set_reset & 4) ? value : 0;
new_val[3] |= (set_reset & 8) ? value : 0;
break;
case 1: // AND
new_val[0] |= ((set_reset & 1) ? value : 0)
& BX_VGA_THIS s.graphics_ctrl.latch[0];
new_val[1] |= ((set_reset & 2) ? value : 0)
& BX_VGA_THIS s.graphics_ctrl.latch[1];
new_val[2] |= ((set_reset & 4) ? value : 0)
& BX_VGA_THIS s.graphics_ctrl.latch[2];
new_val[3] |= ((set_reset & 8) ? value : 0)
& BX_VGA_THIS s.graphics_ctrl.latch[3];
break;
case 2: // OR
new_val[0] |= ((set_reset & 1) ? value : 0)
| BX_VGA_THIS s.graphics_ctrl.latch[0];
new_val[1] |= ((set_reset & 2) ? value : 0)
| BX_VGA_THIS s.graphics_ctrl.latch[1];
new_val[2] |= ((set_reset & 4) ? value : 0)
| BX_VGA_THIS s.graphics_ctrl.latch[2];
new_val[3] |= ((set_reset & 8) ? value : 0)
| BX_VGA_THIS s.graphics_ctrl.latch[3];
break;
case 3: // XOR
new_val[0] |= ((set_reset & 1) ? value : 0)
^ BX_VGA_THIS s.graphics_ctrl.latch[0];
new_val[1] |= ((set_reset & 2) ? value : 0)
^ BX_VGA_THIS s.graphics_ctrl.latch[1];
new_val[2] |= ((set_reset & 4) ? value : 0)
^ BX_VGA_THIS s.graphics_ctrl.latch[2];
new_val[3] |= ((set_reset & 8) ? value : 0)
^ BX_VGA_THIS s.graphics_ctrl.latch[3];
break;
}
}
break;
default:
BX_PANIC(("vga_mem_write: write mode %u ?",
(unsigned) BX_VGA_THIS s.graphics_ctrl.write_mode));
}
if (BX_VGA_THIS s.sequencer.map_mask & 0x0f) {
BX_VGA_THIS s.vga_mem_updated = 1;
if (BX_VGA_THIS s.sequencer.map_mask & 0x01)
plane0[offset] = new_val[0];
if (BX_VGA_THIS s.sequencer.map_mask & 0x02)
plane1[offset] = new_val[1];
if (BX_VGA_THIS s.sequencer.map_mask & 0x04) {
if ((offset & 0xe000) == BX_VGA_THIS s.charmap_address) {
bx_gui->set_text_charbyte((offset & 0x1fff), new_val[2]);
}
plane2[offset] = new_val[2];
}
if (BX_VGA_THIS s.sequencer.map_mask & 0x08)
plane3[offset] = new_val[3];
unsigned x_tileno, y_tileno;
if (BX_VGA_THIS s.graphics_ctrl.shift_reg == 2) {
offset -= start_addr;
x_tileno = (offset % BX_VGA_THIS s.line_offset) * 4 / (X_TILESIZE / 2);
if (BX_VGA_THIS s.y_doublescan) {
y_tileno = (offset / BX_VGA_THIS s.line_offset) / (Y_TILESIZE / 2);
} else {
y_tileno = (offset / BX_VGA_THIS s.line_offset) / Y_TILESIZE;
}
SET_TILE_UPDATED (x_tileno, y_tileno, 1);
} else {
if (BX_VGA_THIS s.line_compare < BX_VGA_THIS s.vertical_display_end) {
if (BX_VGA_THIS s.line_offset > 0) {
if (BX_VGA_THIS s.x_dotclockdiv2) {
x_tileno = (offset % BX_VGA_THIS s.line_offset) / (X_TILESIZE / 16);
} else {
x_tileno = (offset % BX_VGA_THIS s.line_offset) / (X_TILESIZE / 8);
}
if (BX_VGA_THIS s.y_doublescan) {
y_tileno = ((offset / BX_VGA_THIS s.line_offset) * 2 + BX_VGA_THIS s.line_compare + 1) / Y_TILESIZE;
} else {
y_tileno = ((offset / BX_VGA_THIS s.line_offset) + BX_VGA_THIS s.line_compare + 1) / Y_TILESIZE;
}
SET_TILE_UPDATED (x_tileno, y_tileno, 1);
}
}
if (offset >= start_addr) {
offset -= start_addr;
if (BX_VGA_THIS s.line_offset > 0) {
if (BX_VGA_THIS s.x_dotclockdiv2) {
x_tileno = (offset % BX_VGA_THIS s.line_offset) / (X_TILESIZE / 16);
} else {
x_tileno = (offset % BX_VGA_THIS s.line_offset) / (X_TILESIZE / 8);
}
if (BX_VGA_THIS s.y_doublescan) {
y_tileno = (offset / BX_VGA_THIS s.line_offset) / (Y_TILESIZE / 2);
} else {
y_tileno = (offset / BX_VGA_THIS s.line_offset) / Y_TILESIZE;
}
SET_TILE_UPDATED (x_tileno, y_tileno, 1);
}
}
}
}
}
void bx_vga_c::get_text_snapshot(Bit8u **text_snapshot, unsigned *txHeight,
unsigned *txWidth)
{
unsigned VDE, MSL;
if (!BX_VGA_THIS s.graphics_ctrl.graphics_alpha) {
*text_snapshot = &BX_VGA_THIS s.text_snapshot[0];
VDE = BX_VGA_THIS s.vertical_display_end;
MSL = BX_VGA_THIS s.CRTC.reg[0x09] & 0x1f;
*txHeight = (VDE+1)/(MSL+1);
*txWidth = BX_VGA_THIS s.CRTC.reg[1] + 1;
} else {
*txHeight = 0;
*txWidth = 0;
}
}
Bit8u bx_vga_c::get_actl_palette_idx(Bit8u index)
{
return BX_VGA_THIS s.attribute_ctrl.palette_reg[index];
}
#if BX_DEBUGGER
void bx_vga_c::debug_dump(void)
{
dbg_printf("s.misc_output.color_emulation = %u\n",
(unsigned) BX_VGA_THIS s.misc_output.color_emulation);
dbg_printf("s.misc_output.enable_ram = %u\n",
(unsigned) BX_VGA_THIS s.misc_output.enable_ram);
dbg_printf("s.misc_output.clock_select = %u ",
(unsigned) BX_VGA_THIS s.misc_output.clock_select);
if (BX_VGA_THIS s.misc_output.clock_select == 0)
dbg_printf("(25Mhz 640 horiz pixel clock)\n");
else
dbg_printf("(28Mhz 720 horiz pixel clock)\n");
dbg_printf("s.misc_output.select_high_bank = %u\n",
(unsigned) BX_VGA_THIS s.misc_output.select_high_bank);
dbg_printf("s.misc_output.horiz_sync_pol = %u\n",
(unsigned) BX_VGA_THIS s.misc_output.horiz_sync_pol);
dbg_printf("s.misc_output.vert_sync_pol = %u ",
(unsigned) BX_VGA_THIS s.misc_output.vert_sync_pol);
switch ((BX_VGA_THIS s.misc_output.vert_sync_pol << 1) |
BX_VGA_THIS s.misc_output.horiz_sync_pol) {
case 1: dbg_printf("(400 lines)\n"); break;
case 2: dbg_printf("(350 lines)\n"); break;
case 3: dbg_printf("(480 lines)\n"); break;
default: dbg_printf("(reserved)\n");
}
dbg_printf("s.graphics_ctrl.odd_even = %u\n",
(unsigned) BX_VGA_THIS s.graphics_ctrl.odd_even);
dbg_printf("s.graphics_ctrl.chain_odd_even = %u\n",
(unsigned) BX_VGA_THIS s.graphics_ctrl.chain_odd_even);
dbg_printf("s.graphics_ctrl.shift_reg = %u\n",
(unsigned) BX_VGA_THIS s.graphics_ctrl.shift_reg);
dbg_printf("s.graphics_ctrl.graphics_alpha = %u\n",
(unsigned) BX_VGA_THIS s.graphics_ctrl.graphics_alpha);
dbg_printf("s.graphics_ctrl.memory_mapping = %u ",
(unsigned) BX_VGA_THIS s.graphics_ctrl.memory_mapping);
switch (BX_VGA_THIS s.graphics_ctrl.memory_mapping) {
case 1: dbg_printf("(A0000-AFFFF)\n"); break;
case 2: dbg_printf("(B0000-B7FFF)\n"); break;
case 3: dbg_printf("(B8000-BFFFF)\n"); break;
default: dbg_printf("(A0000-BFFFF)\n"); break;
}
dbg_printf("s.sequencer.extended_mem = %u\n",
(unsigned) BX_VGA_THIS s.sequencer.extended_mem);
dbg_printf("s.sequencer.odd_even = %u (inverted)\n",
(unsigned) BX_VGA_THIS s.sequencer.odd_even);
dbg_printf("s.sequencer.chain_four = %u\n",
(unsigned) BX_VGA_THIS s.sequencer.chain_four);
dbg_printf("s.attribute_ctrl.video_enabled = %u\n",
(unsigned) BX_VGA_THIS s.attribute_ctrl.video_enabled);
dbg_printf("s.attribute_ctrl.mode_ctrl.graphics_alpha = %u\n",
(unsigned) BX_VGA_THIS s.attribute_ctrl.mode_ctrl.graphics_alpha);
dbg_printf("s.attribute_ctrl.mode_ctrl.display_type = %u\n",
(unsigned) BX_VGA_THIS s.attribute_ctrl.mode_ctrl.display_type);
dbg_printf("s.attribute_ctrl.mode_ctrl.internal_palette_size = %u\n",
(unsigned) BX_VGA_THIS s.attribute_ctrl.mode_ctrl.internal_palette_size);
dbg_printf("s.attribute_ctrl.mode_ctrl.pixel_clock_select = %u\n",
(unsigned) BX_VGA_THIS s.attribute_ctrl.mode_ctrl.pixel_clock_select);
}
#endif
void bx_vga_c::redraw_area(unsigned x0, unsigned y0, unsigned width,
unsigned height)
{
unsigned xti, yti, xt0, xt1, yt0, yt1, xmax, ymax;
if (width == 0 || height == 0) {
return;
}
BX_VGA_THIS s.vga_mem_updated = 1;
if (BX_VGA_THIS s.graphics_ctrl.graphics_alpha || BX_VGA_THIS vbe.enabled) {
// graphics mode
xmax = old_iWidth;
ymax = old_iHeight;
if (BX_VGA_THIS vbe.enabled) {
xmax = BX_VGA_THIS vbe.xres;
ymax = BX_VGA_THIS vbe.yres;
}
xt0 = x0 / X_TILESIZE;
yt0 = y0 / Y_TILESIZE;
if (x0 < xmax) {
xt1 = (x0 + width - 1) / X_TILESIZE;
} else {
xt1 = (xmax - 1) / X_TILESIZE;
}
if (y0 < ymax) {
yt1 = (y0 + height - 1) / Y_TILESIZE;
} else {
yt1 = (ymax - 1) / Y_TILESIZE;
}
for (yti=yt0; yti<=yt1; yti++) {
for (xti=xt0; xti<=xt1; xti++) {
SET_TILE_UPDATED(xti, yti, 1);
}
}
} else {
// text mode
memset(BX_VGA_THIS s.text_snapshot, 0,
sizeof(BX_VGA_THIS s.text_snapshot));
}
}
bx_bool bx_vga_c::vbe_set_base_addr(Bit32u *addr, Bit8u *pci_conf)
{
if (DEV_pci_set_base_mem(BX_VGA_THIS_PTR, mem_read_handler,
mem_write_handler,
addr, pci_conf, VBE_DISPI_TOTAL_VIDEO_MEMORY_BYTES)) {
BX_VGA_THIS vbe.base_address = *addr;
return 1;
}
return 0;
}
Bit8u BX_CPP_AttrRegparmN(1)
bx_vga_c::vbe_mem_read(bx_phy_address addr)
{
Bit32u offset;
if (addr >= BX_VGA_THIS vbe.base_address) {
// LFB read
offset = (Bit32u)(addr - BX_VGA_THIS vbe.base_address);
}
else {
// banked mode read
offset = (Bit32u)(BX_VGA_THIS vbe.bank*65536 + addr - 0xA0000);
}
// check for out of memory read
if (offset > VBE_DISPI_TOTAL_VIDEO_MEMORY_BYTES)
return 0;
return (BX_VGA_THIS s.memory[offset]);
}
void BX_CPP_AttrRegparmN(2)
bx_vga_c::vbe_mem_write(bx_phy_address addr, Bit8u value)
{
Bit32u offset;
unsigned x_tileno, y_tileno;
if (BX_VGA_THIS vbe.lfb_enabled)
{
if (addr >= BX_VGA_THIS vbe.base_address) {
// LFB write
offset = (Bit32u)(addr - BX_VGA_THIS vbe.base_address);
}
else {
// banked mode write while in LFB mode -> ignore
return;
}
}
else
{
if (addr < BX_VGA_THIS vbe.base_address) {
// banked mode write
offset = (Bit32u)(BX_VGA_THIS vbe.bank*65536 + (addr - 0xA0000));
}
else {
// LFB write while in banked mode -> ignore
return;
}
}
// check for out of memory write
if (offset < VBE_DISPI_TOTAL_VIDEO_MEMORY_BYTES)
{
BX_VGA_THIS s.memory[offset]=value;
}
else
{
// make sure we don't flood the logfile
static int count=0;
if (count<100)
{
count ++;
BX_INFO(("VBE_mem_write out of video memory write at %x",offset));
}
}
offset-=BX_VGA_THIS vbe.virtual_start;
// only update the UI when writing 'onscreen'
if (offset < BX_VGA_THIS vbe.visible_screen_size)
{
y_tileno = ((offset / BX_VGA_THIS vbe.bpp_multiplier) / BX_VGA_THIS vbe.virtual_xres) / Y_TILESIZE;
x_tileno = ((offset / BX_VGA_THIS vbe.bpp_multiplier) % BX_VGA_THIS vbe.virtual_xres) / X_TILESIZE;
if ((y_tileno < BX_NUM_Y_TILES) && (x_tileno < BX_NUM_X_TILES))
{
BX_VGA_THIS s.vga_mem_updated = 1;
SET_TILE_UPDATED (x_tileno, y_tileno, 1);
}
}
}
Bit32u bx_vga_c::vbe_read_handler(void *this_ptr, Bit32u address, unsigned io_len)
{
#if BX_USE_VGA_SMF == 0
bx_vga_c *class_ptr = (bx_vga_c *) this_ptr;
return class_ptr->vbe_read(address, io_len);
}
Bit32u bx_vga_c::vbe_read(Bit32u address, unsigned io_len)
{
#else
UNUSED(this_ptr);
#endif // BX_USE_VGA_SMF == 0
Bit16u retval;
// BX_INFO(("VBE_read %x (len %x)", address, io_len));
if (address==VBE_DISPI_IOPORT_INDEX)
{
// index register
return (Bit32u) BX_VGA_THIS vbe.curindex;
}
else
{
// data register read
switch (BX_VGA_THIS vbe.curindex)
{
case VBE_DISPI_INDEX_ID: // Display Interface ID check
return BX_VGA_THIS vbe.cur_dispi;
case VBE_DISPI_INDEX_XRES: // x resolution
if (BX_VGA_THIS vbe.get_capabilities) {
return BX_VGA_THIS vbe.max_xres;
} else {
return BX_VGA_THIS vbe.xres;
}
case VBE_DISPI_INDEX_YRES: // y resolution
if (BX_VGA_THIS vbe.get_capabilities) {
return BX_VGA_THIS vbe.max_yres;
} else {
return BX_VGA_THIS vbe.yres;
}
case VBE_DISPI_INDEX_BPP: // bpp
if (BX_VGA_THIS vbe.get_capabilities) {
return BX_VGA_THIS vbe.max_bpp;
} else {
return BX_VGA_THIS vbe.bpp;
}
case VBE_DISPI_INDEX_ENABLE: // vbe enabled
retval = BX_VGA_THIS vbe.enabled;
if (BX_VGA_THIS vbe.get_capabilities)
retval |= VBE_DISPI_GETCAPS;
if (BX_VGA_THIS vbe.dac_8bit)
retval |= VBE_DISPI_8BIT_DAC;
return retval;
case VBE_DISPI_INDEX_BANK: // current bank
return BX_VGA_THIS vbe.bank;
case VBE_DISPI_INDEX_X_OFFSET:
return BX_VGA_THIS vbe.offset_x;
case VBE_DISPI_INDEX_Y_OFFSET:
return BX_VGA_THIS vbe.offset_y;
case VBE_DISPI_INDEX_VIRT_WIDTH:
return BX_VGA_THIS vbe.virtual_xres;
case VBE_DISPI_INDEX_VIRT_HEIGHT:
return BX_VGA_THIS vbe.virtual_yres;
case VBE_DISPI_INDEX_VIDEO_MEMORY_64K:
return (VBE_DISPI_TOTAL_VIDEO_MEMORY_KB >> 6);
default:
BX_PANIC(("VBE unknown data read index 0x%x",BX_VGA_THIS vbe.curindex));
break;
}
}
BX_PANIC(("VBE_read shouldn't reach this"));
return 0; /* keep compiler happy */
}
void bx_vga_c::vbe_write_handler(void *this_ptr, Bit32u address, Bit32u value, unsigned io_len)
{
#if BX_USE_VGA_SMF == 0
bx_vga_c *class_ptr = (bx_vga_c *) this_ptr;
class_ptr->vbe_write(address, value, io_len);
}
Bit32u bx_vga_c::vbe_write(Bit32u address, Bit32u value, unsigned io_len)
{
#else
UNUSED(this_ptr);
#endif
bx_bool new_vbe_8bit_dac;
bx_bool needs_update = 0;
unsigned i;
// BX_INFO(("VBE_write %x = %x (len %x)", address, value, io_len));
switch(address)
{
// index register
case VBE_DISPI_IOPORT_INDEX:
BX_VGA_THIS vbe.curindex = (Bit16u) value;
break;
// data register
// FIXME: maybe do some 'sanity' checks on received data?
case VBE_DISPI_IOPORT_DATA:
switch (BX_VGA_THIS vbe.curindex)
{
case VBE_DISPI_INDEX_ID: // Display Interface ID check
{
if ((value == VBE_DISPI_ID0) ||
(value == VBE_DISPI_ID1) ||
(value == VBE_DISPI_ID2) ||
(value == VBE_DISPI_ID3) ||
(value == VBE_DISPI_ID4) ||
(value == VBE_DISPI_ID5))
{
// allow backwards compatible with previous dispi bioses
BX_VGA_THIS vbe.cur_dispi=value;
}
else
{
BX_PANIC(("VBE unknown Display Interface %x", value));
}
// make sure we don't flood the logfile
static int count=0;
if (count < 100)
{
count++;
BX_INFO(("VBE known Display Interface %x", value));
}
} break;
case VBE_DISPI_INDEX_XRES: // set xres
{
// check that we don't set xres during vbe enabled
if (!BX_VGA_THIS vbe.enabled)
{
// check for within max xres range
if (value <= VBE_DISPI_MAX_XRES)
{
BX_VGA_THIS vbe.xres=(Bit16u) value;
BX_INFO(("VBE set xres (%d)", value));
}
else
{
BX_INFO(("VBE set xres more then max xres (%d)", value));
}
}
else
{
BX_ERROR(("VBE set xres during vbe enabled!"));
}
} break;
case VBE_DISPI_INDEX_YRES: // set yres
{
// check that we don't set yres during vbe enabled
if (!BX_VGA_THIS vbe.enabled)
{
// check for within max yres range
if (value <= VBE_DISPI_MAX_YRES)
{
BX_VGA_THIS vbe.yres=(Bit16u) value;
BX_INFO(("VBE set yres (%d)", value));
}
else
{
BX_INFO(("VBE set yres more then max yres (%d)", value));
}
}
else
{
BX_ERROR(("VBE set yres during vbe enabled!"));
}
} break;
case VBE_DISPI_INDEX_BPP: // set bpp
{
// check that we don't set bpp during vbe enabled
if (!BX_VGA_THIS vbe.enabled)
{
// for backward compatiblity
if (value == 0) value = VBE_DISPI_BPP_8;
// check for correct bpp range
if ((value == VBE_DISPI_BPP_4) || (value == VBE_DISPI_BPP_8) || (value == VBE_DISPI_BPP_15) ||
(value == VBE_DISPI_BPP_16) || (value == VBE_DISPI_BPP_24) || (value == VBE_DISPI_BPP_32))
{
BX_VGA_THIS vbe.bpp=(Bit16u) value;
BX_INFO(("VBE set bpp (%d)", value));
}
else
{
BX_ERROR(("VBE set bpp with unknown bpp (%d)", value));
}
}
else
{
BX_ERROR(("VBE set bpp during vbe enabled!"));
}
} break;
case VBE_DISPI_INDEX_BANK: // set bank
{
value=value & 0xff; // FIXME lobyte = vbe bank A?
unsigned divider = (BX_VGA_THIS vbe.bpp!=VBE_DISPI_BPP_4)?64:256;
// check for max bank nr
if (value < (VBE_DISPI_TOTAL_VIDEO_MEMORY_KB / divider))
{
if (!BX_VGA_THIS vbe.lfb_enabled)
{
BX_DEBUG(("VBE set bank to %d", value));
BX_VGA_THIS vbe.bank=value;
}
else
{
BX_ERROR(("VBE set bank in LFB mode ignored"));
}
}
else
{
BX_ERROR(("VBE set invalid bank (%d)", value));
}
} break;
case VBE_DISPI_INDEX_ENABLE: // enable video
{
if ((value & VBE_DISPI_ENABLED) && !BX_VGA_THIS vbe.enabled)
{
unsigned depth=0;
// setup virtual resolution to be the same as current reso
BX_VGA_THIS vbe.virtual_yres=BX_VGA_THIS vbe.yres;
BX_VGA_THIS vbe.virtual_xres=BX_VGA_THIS vbe.xres;
// reset offset
BX_VGA_THIS vbe.offset_x=0;
BX_VGA_THIS vbe.offset_y=0;
BX_VGA_THIS vbe.virtual_start=0;
switch((BX_VGA_THIS vbe.bpp))
{
// Default pixel sizes
case VBE_DISPI_BPP_8:
BX_VGA_THIS vbe.bpp_multiplier = 1;
BX_VGA_THIS s.line_offset = BX_VGA_THIS vbe.virtual_xres;
depth=8;
break;
case VBE_DISPI_BPP_4:
BX_VGA_THIS vbe.bpp_multiplier = 1;
BX_VGA_THIS s.line_offset = (BX_VGA_THIS vbe.virtual_xres >> 3);
depth=4;
break;
case VBE_DISPI_BPP_15:
BX_VGA_THIS vbe.bpp_multiplier = 2;
BX_VGA_THIS s.line_offset = BX_VGA_THIS vbe.virtual_xres * 2;
depth=15;
break;
case VBE_DISPI_BPP_16:
BX_VGA_THIS vbe.bpp_multiplier = 2;
BX_VGA_THIS s.line_offset = BX_VGA_THIS vbe.virtual_xres * 2;
depth=16;
break;
case VBE_DISPI_BPP_24:
BX_VGA_THIS vbe.bpp_multiplier = 3;
BX_VGA_THIS s.line_offset = BX_VGA_THIS vbe.virtual_xres * 3;
depth=24;
break;
case VBE_DISPI_BPP_32:
BX_VGA_THIS vbe.bpp_multiplier = 4;
BX_VGA_THIS s.line_offset = BX_VGA_THIS vbe.virtual_xres << 2;
depth=32;
break;
}
BX_VGA_THIS vbe.visible_screen_size = BX_VGA_THIS s.line_offset * BX_VGA_THIS vbe.yres;
BX_INFO(("VBE enabling x %d, y %d, bpp %d, %u bytes visible", BX_VGA_THIS vbe.xres, BX_VGA_THIS vbe.yres, BX_VGA_THIS vbe.bpp, BX_VGA_THIS vbe.visible_screen_size));
if (depth > 4)
{
BX_VGA_THIS vbe.lfb_enabled=(bx_bool)(value & VBE_DISPI_LFB_ENABLED);
if ((value & VBE_DISPI_NOCLEARMEM) == 0)
{
memset(BX_VGA_THIS s.memory, 0, BX_VGA_THIS vbe.visible_screen_size);
}
bx_gui->dimension_update(BX_VGA_THIS vbe.xres, BX_VGA_THIS vbe.yres, 0, 0, depth);
BX_VGA_THIS s.last_bpp = depth;
}
}
else if (((value & VBE_DISPI_ENABLED) == 0) && BX_VGA_THIS vbe.enabled)
{
BX_INFO(("VBE disabling"));
BX_VGA_THIS vbe.lfb_enabled=0;
}
BX_VGA_THIS vbe.enabled=(bx_bool)(value & VBE_DISPI_ENABLED);
BX_VGA_THIS vbe.get_capabilities=(bx_bool)((value & VBE_DISPI_GETCAPS) != 0);
new_vbe_8bit_dac=(bx_bool)((value & VBE_DISPI_8BIT_DAC) != 0);
if (new_vbe_8bit_dac != BX_VGA_THIS vbe.dac_8bit)
{
if (new_vbe_8bit_dac)
{
for (i=0; i<256; i++)
{
BX_VGA_THIS s.pel.data[i].red <<= 2;
BX_VGA_THIS s.pel.data[i].green <<= 2;
BX_VGA_THIS s.pel.data[i].blue <<= 2;
}
BX_INFO(("DAC in 8 bit mode"));
}
else
{
for (i=0; i<256; i++)
{
BX_VGA_THIS s.pel.data[i].red >>= 2;
BX_VGA_THIS s.pel.data[i].green >>= 2;
BX_VGA_THIS s.pel.data[i].blue >>= 2;
}
BX_INFO(("DAC in standard mode"));
}
BX_VGA_THIS vbe.dac_8bit=new_vbe_8bit_dac;
needs_update = 1;
}
} break;
case VBE_DISPI_INDEX_X_OFFSET:
{
BX_DEBUG(("VBE offset x %d", value));
BX_VGA_THIS vbe.offset_x=(Bit16u)value;
BX_VGA_THIS vbe.virtual_start = BX_VGA_THIS vbe.offset_y * BX_VGA_THIS s.line_offset;
if (BX_VGA_THIS vbe.bpp != VBE_DISPI_BPP_4) {
BX_VGA_THIS vbe.virtual_start += (BX_VGA_THIS vbe.offset_x * BX_VGA_THIS vbe.bpp_multiplier);
} else {
BX_VGA_THIS vbe.virtual_start += (BX_VGA_THIS vbe.offset_x >> 3);
}
needs_update = 1;
} break;
case VBE_DISPI_INDEX_Y_OFFSET:
{
BX_DEBUG(("VBE offset y %d", value));
Bit32u new_screen_start = value * BX_VGA_THIS s.line_offset;
if (BX_VGA_THIS vbe.bpp != VBE_DISPI_BPP_4) {
if ((new_screen_start + BX_VGA_THIS vbe.visible_screen_size) > VBE_DISPI_TOTAL_VIDEO_MEMORY_BYTES)
{
BX_PANIC(("VBE offset y %d out of bounds", value));
break;
}
new_screen_start += (BX_VGA_THIS vbe.offset_x * BX_VGA_THIS vbe.bpp_multiplier);
} else {
if ((new_screen_start + BX_VGA_THIS vbe.visible_screen_size) > (VBE_DISPI_TOTAL_VIDEO_MEMORY_BYTES / 4))
{
BX_PANIC(("VBE offset y %d out of bounds", value));
break;
}
new_screen_start += (BX_VGA_THIS vbe.offset_x >> 3);
}
BX_VGA_THIS vbe.virtual_start = new_screen_start;
BX_VGA_THIS vbe.offset_y = (Bit16u)value;
needs_update = 1;
} break;
case VBE_DISPI_INDEX_VIRT_WIDTH:
{
BX_INFO(("VBE requested virtual width %d", value));
// calculate virtual width & height dimensions
// req:
// virt_width > xres
// virt_height >=yres
// virt_width*virt_height < MAX_VIDEO_MEMORY
// basicly 2 situations
// situation 1:
// MAX_VIDEO_MEMORY / virt_width >= yres
// adjust result height
// else
// adjust result width based upon virt_height=yres
Bit16u new_width=value;
Bit16u new_height;
if (BX_VGA_THIS vbe.bpp != VBE_DISPI_BPP_4) {
new_height=(VBE_DISPI_TOTAL_VIDEO_MEMORY_BYTES / BX_VGA_THIS vbe.bpp_multiplier) / new_width;
} else {
new_height=(VBE_DISPI_TOTAL_VIDEO_MEMORY_BYTES * 2) / new_width;
}
if (new_height >=BX_VGA_THIS vbe.yres)
{
// we have a decent virtual width & new_height
BX_INFO(("VBE decent virtual height %d",new_height));
}
else
{
// no decent virtual height: adjust width & height
new_height=BX_VGA_THIS vbe.yres;
if (BX_VGA_THIS vbe.bpp != VBE_DISPI_BPP_4) {
new_width=(VBE_DISPI_TOTAL_VIDEO_MEMORY_BYTES / BX_VGA_THIS vbe.bpp_multiplier) / new_height;
} else {
new_width=(VBE_DISPI_TOTAL_VIDEO_MEMORY_BYTES * 2) / new_height;
}
BX_INFO(("VBE recalc virtual width %d height %d",new_width, new_height));
}
BX_VGA_THIS vbe.virtual_xres=new_width;
BX_VGA_THIS vbe.virtual_yres=new_height;
if (BX_VGA_THIS vbe.bpp != VBE_DISPI_BPP_4) {
BX_VGA_THIS s.line_offset = BX_VGA_THIS vbe.virtual_xres * BX_VGA_THIS vbe.bpp_multiplier;
} else {
BX_VGA_THIS s.line_offset = BX_VGA_THIS vbe.virtual_xres >> 3;
}
BX_VGA_THIS vbe.visible_screen_size = BX_VGA_THIS s.line_offset * BX_VGA_THIS vbe.yres;
} break;
case VBE_DISPI_INDEX_VIRT_HEIGHT:
BX_ERROR(("VBE: write to virtual height register ignored"));
break;
default:
BX_ERROR(("VBE: write unsupported register at index 0x%x",BX_VGA_THIS vbe.curindex));
break;
}
if (needs_update) {
BX_VGA_THIS s.vga_mem_updated = 1;
for (unsigned xti = 0; xti < BX_NUM_X_TILES; xti++) {
for (unsigned yti = 0; yti < BX_NUM_Y_TILES; yti++) {
SET_TILE_UPDATED (xti, yti, 1);
}
}
}
break;
} // end switch address
}
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