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/*
* Mesa 3-D graphics library
* Version: 4.1
*
* Copyright (C) 1999 Brian Paul All Rights Reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included
* in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* BRIAN PAUL BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN
* AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
/*
* DOS/DJGPP device driver v1.3 for Mesa
*
* Copyright (C) 2002 - Borca Daniel
* Email : dborca@yahoo.com
* Web : http://www.geocities.com/dborca
*/
#include <dpmi.h>
#include <pc.h>
#include <stdlib.h>
#include <stubinfo.h>
#include <sys/exceptn.h>
#include <sys/segments.h>
#include <sys/farptr.h>
#include <sys/movedata.h>
#include "video.h"
#include "vesa.h"
static vl_mode modes[128];
static word16 vesa_ver;
static int banked_selector, linear_selector;
static int oldmode = -1;
static int vesa_color_precision = 6;
static word16 *vesa_pmcode;
unsigned int vesa_gran_mask, vesa_gran_shift;
/*
* VESA info
*/
#define V_SIGN 0
#define V_MINOR 4
#define V_MAJOR 5
#define V_OEM_OFS 6
#define V_OEM_SEG 8
#define V_MODE_OFS 14
#define V_MODE_SEG 16
#define V_MEMORY 18
/*
* mode info
*/
#define M_ATTR 0
#define M_GRAN 4
#define M_SCANLEN 16
#define M_XRES 18
#define M_YRES 20
#define M_BPP 25
#define M_RED 31
#define M_GREEN 33
#define M_BLUE 35
#define M_PHYS_PTR 40
/*
* VESA 3.0 CRTC timings structure
*/
typedef struct CRTCInfoBlock {
unsigned short HorizontalTotal;
unsigned short HorizontalSyncStart;
unsigned short HorizontalSyncEnd;
unsigned short VerticalTotal;
unsigned short VerticalSyncStart;
unsigned short VerticalSyncEnd;
unsigned char Flags;
unsigned long PixelClock; /* units of Hz */
unsigned short RefreshRate; /* units of 0.01 Hz */
unsigned char reserved[40];
} __PACKED__ CRTCInfoBlock;
#define HNEG (1 << 2)
#define VNEG (1 << 3)
#define DOUBLESCAN (1 << 0)
/* Desc: Attempts to detect VESA, check video modes and create selectors.
*
* In : -
* Out : mode array
*
* Note: -
*/
static vl_mode *vesa_init (void)
{
__dpmi_regs r;
word16 *p;
vl_mode *q;
char vesa_info[512], tmp[512];
int maxsize = 0;
word32 linearfb = 0;
if (vesa_ver) {
return modes;
}
_farpokel(_stubinfo->ds_selector, 0, 0x32454256);
r.x.ax = 0x4f00;
r.x.di = 0;
r.x.es = _stubinfo->ds_segment;
__dpmi_int(0x10, &r);
movedata(_stubinfo->ds_selector, 0, _my_ds(), (unsigned)vesa_info, 512);
if ((r.x.ax!=0x004f) || ((_32_ vesa_info[V_SIGN])!=0x41534556)) {
return NULL;
}
p = (word16 *)(((_16_ vesa_info[V_MODE_SEG])<<4) + (_16_ vesa_info[V_MODE_OFS]));
q = modes;
do {
if ((q->mode=_farpeekw(__djgpp_dos_sel, (unsigned long)(p++)))==0xffff) {
break;
}
r.x.ax = 0x4f01;
r.x.cx = q->mode;
r.x.di = 512;
r.x.es = _stubinfo->ds_segment;
__dpmi_int(0x10, &r);
movedata(_stubinfo->ds_selector, 512, _my_ds(), (unsigned)tmp, 256);
switch (tmp[M_BPP]) {
case 16:
q->bpp = tmp[M_RED] + tmp[M_GREEN] + tmp[M_BLUE];
break;
case 8:
case 15:
case 24:
case 32:
q->bpp = tmp[M_BPP];
break;
default:
q->bpp = 0;
}
if ((r.x.ax==0x004f) && ((tmp[M_ATTR]&0x11)==0x11) && q->bpp) {
q->xres = _16_ tmp[M_XRES];
q->yres = _16_ tmp[M_YRES];
q->scanlen = _16_ tmp[M_SCANLEN];
q->gran = (_16_ tmp[M_GRAN])<<10;
if (tmp[M_ATTR]&0x80) {
#if 0
*(q+1) = *q++;
#else
vl_mode *q1 = q + 1;
*q1 = *q++;
#endif
linearfb = _32_ tmp[M_PHYS_PTR];
q->mode |= 0x4000;
}
if (maxsize<(q->scanlen*q->yres)) {
maxsize = q->scanlen*q->yres;
}
q++;
}
} while (TRUE);
if (q==modes) {
return NULL;
}
if (linearfb) {
maxsize = ((maxsize+0xfffUL)&~0xfffUL);
if (_create_selector(&linear_selector, linearfb, maxsize)) {
return NULL;
}
}
if (_create_selector(&banked_selector, 0xa0000, modes[0].gran)) {
_remove_selector(&linear_selector);
return NULL;
}
for (q=modes; q->mode!=0xffff; q++) {
q->sel = (q->mode&0x4000) ? linear_selector : banked_selector;
}
if (vesa_info[V_MAJOR] >= 2) {
r.x.ax = 0x4f0a;
r.x.bx = 0;
__dpmi_int(0x10, &r);
if (r.x.ax == 0x004f) {
vesa_pmcode = (word16 *)malloc(r.x.cx);
movedata(__djgpp_dos_sel, (r.x.es << 4) + r.x.di, _my_ds(), (unsigned)vesa_pmcode, r.x.cx);
if (vesa_pmcode[3]) {
p = (word16 *)((long)vesa_pmcode + vesa_pmcode[3]);
while (*p++ != 0xffff) ;
} else {
p = NULL;
}
if (p && (*p != 0xffff)) {
free(vesa_pmcode);
vesa_pmcode = NULL;
} else {
vesa_swbank = (void *)((long)vesa_pmcode + vesa_pmcode[0]);
}
}
}
vesa_ver = _16_ vesa_info[V_MINOR];
return modes;
}
/* Desc: Frees all resources allocated by VESA init code.
*
* In : -
* Out : -
*
* Note: -
*/
static void vesa_fini (void)
{
if (vesa_ver) {
_remove_selector(&linear_selector);
_remove_selector(&banked_selector);
if (vesa_pmcode != NULL) {
free(vesa_pmcode);
vesa_pmcode = NULL;
}
}
}
/* Desc: Uses VESA 3.0 function 0x4F0B to find the closest pixel clock to the requested value.
*
* In : mode, clock
* Out : desired clock
*
* Note: -
*/
static unsigned long _closest_pixclk (int mode_no, unsigned long vclk)
{
__dpmi_regs r;
r.x.ax = 0x4F0B;
r.h.bl = 0;
r.d.ecx = vclk;
r.x.dx = mode_no;
__dpmi_int(0x10, &r);
return (r.x.ax==0x004f) ? r.d.ecx : 0;
}
/* Desc: Calculates CRTC mode timings.
*
* In : crtc block, geometry, adjust
* Out :
*
* Note:
*/
static void _crtc_timing (CRTCInfoBlock *crtc, int xres, int yres, int xadjust, int yadjust)
{
int HTotal, VTotal;
int HDisp, VDisp;
int HSS, VSS;
int HSE, VSE;
int HSWidth, VSWidth;
int SS, SE;
int doublescan = FALSE;
if (yres < 400) {
doublescan = TRUE;
yres *= 2;
}
HDisp = xres;
HTotal = (int)(HDisp * 1.27) & ~0x7;
HSWidth = (int)((HTotal - HDisp) / 5) & ~0x7;
HSS = HDisp + 16;
HSE = HSS + HSWidth;
VDisp = yres;
VTotal = VDisp * 1.07;
VSWidth = (VTotal / 100) + 1;
VSS = VDisp + ((int)(VTotal - VDisp) / 5) + 1;
VSE = VSS + VSWidth;
SS = HSS + xadjust;
SE = HSE + xadjust;
if (xadjust < 0) {
if (SS < (HDisp + 8)) {
SS = HDisp + 8;
SE = SS + HSWidth;
}
} else {
if ((HTotal - 24) < SE) {
SE = HTotal - 24;
SS = SE - HSWidth;
}
}
HSS = SS;
HSE = SE;
SS = VSS + yadjust;
SE = VSE + yadjust;
if (yadjust < 0) {
if (SS < (VDisp + 3)) {
SS = VDisp + 3;
SE = SS + VSWidth;
}
} else {
if ((VTotal - 4) < SE) {
SE = VTotal - 4;
SS = SE - VSWidth;
}
}
VSS = SS;
VSE = SE;
crtc->HorizontalTotal = HTotal;
crtc->HorizontalSyncStart = HSS;
crtc->HorizontalSyncEnd = HSE;
crtc->VerticalTotal = VTotal;
crtc->VerticalSyncStart = VSS;
crtc->VerticalSyncEnd = VSE;
crtc->Flags = HNEG | VNEG;
if (doublescan)
crtc->Flags |= DOUBLESCAN;
}
/* Desc: Attempts to enter specified video mode.
*
* In : ptr to mode structure, refresh rate
* Out : 0 if success
*
* Note: -
*/
static int vesa_entermode (vl_mode *p, int refresh)
{
__dpmi_regs r;
if (p->mode & 0x4000) {
VESA.blit = _can_mmx() ? vesa_l_dump_virtual_mmx : vesa_l_dump_virtual;
} else {
VESA.blit = vesa_b_dump_virtual;
{ int n; for (vesa_gran_shift=0, n=p->gran; n; vesa_gran_shift++, n>>=1) ; }
vesa_gran_mask = (1<<(--vesa_gran_shift)) - 1;
if ((unsigned)p->gran != (vesa_gran_mask+1)) {
return !0;
}
}
if (oldmode == -1) {
r.x.ax = 0x4f03;
__dpmi_int(0x10, &r);
oldmode = r.x.bx;
}
r.x.ax = 0x4f02;
r.x.bx = p->mode;
if (refresh && ((vesa_ver>>8) >= 3)) {
/* VESA 3.0 stuff for controlling the refresh rate */
CRTCInfoBlock crtc;
unsigned long vclk;
double f0;
_crtc_timing(&crtc, p->xres, p->yres, 0, 0);
vclk = (double)crtc.HorizontalTotal * crtc.VerticalTotal * refresh;
vclk = _closest_pixclk(p->mode, vclk);
if (vclk != 0) {
f0 = (double)vclk / (crtc.HorizontalTotal * crtc.VerticalTotal);
/*_current_refresh_rate = (int)(f0 + 0.5);*/
crtc.PixelClock = vclk;
crtc.RefreshRate = refresh * 100;
movedata(_my_ds(), (unsigned)&crtc, _stubinfo->ds_selector, 0, sizeof(crtc));
r.x.di = 0;
r.x.es = _stubinfo->ds_segment;
r.x.bx |= 0x0800;
}
}
__dpmi_int(0x10, &r);
if (r.x.ax != 0x004f) {
return !0;
}
if (p->bpp == 8) {
r.x.ax = 0x4f08;
r.x.bx = 0x0800;
__dpmi_int(0x10, &r);
if (r.x.ax == 0x004f) {
r.x.ax = 0x4f08;
r.h.bl = 0x01;
__dpmi_int(0x10, &r);
vesa_color_precision = r.h.bh;
}
}
return 0;
}
/* Desc: Restores to the mode prior to first call to vesa_entermode.
*
* In : -
* Out : -
*
* Note: -
*/
static void vesa_restore (void)
{
__dpmi_regs r;
if (oldmode != -1) {
r.x.ax = 0x4f02;
r.x.bx = oldmode;
__dpmi_int(0x10, &r);
}
}
/* Desc: set one palette entry
*
* In : color index, R, G, B
* Out : -
*
* Note: uses integer values
*/
static void vesa_setCI_i (int index, int red, int green, int blue)
{
#if 0
__asm("\n\
movw $0x1010, %%ax \n\
movb %1, %%dh \n\
movb %2, %%ch \n\
int $0x10 \n\
"::"b"(index), "m"(red), "m"(green), "c"(blue):"%eax", "%edx");
#else
outportb(0x03C8, index);
outportb(0x03C9, red);
outportb(0x03C9, green);
outportb(0x03C9, blue);
#endif
}
/* Desc: set one palette entry
*
* In : color index, R, G, B
* Out : -
*
* Note: uses normalized values
*/
static void vesa_setCI_f (int index, float red, float green, float blue)
{
float max = (1 << vesa_color_precision) - 1;
vesa_setCI_i(index, (int)(red * max), (int)(green * max), (int)(blue * max));
}
/* Desc: state retrieval
*
* In : parameter name, ptr to storage
* Out : 0 if request successfully processed
*
* Note: -
*/
static int vesa_get (int pname, int *params)
{
switch (pname) {
case VL_GET_CI_PREC:
params[0] = vesa_color_precision;
break;
default:
return -1;
}
return 0;
}
/*
* the driver
*/
vl_driver VESA = {
vesa_init,
vesa_entermode,
NULL,
vesa_setCI_f,
vesa_setCI_i,
vesa_get,
vesa_restore,
vesa_fini
};
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