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FreeBE/ati/driver.c

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/*
* ______ ____ ______ _____ ______
* | ____| | _ \| ____| / / _ \| ____|
* | |__ _ __ ___ ___| |_) | |__ / / |_| | |__
* | __| '__/ _ \/ _ \ _ <| __| / /| _ | __|
* | | | | | __/ __/ |_) | |____ / / | | | | |
* |_| |_| \___|\___|____/|______/_/ |_| |_|_|
*
*
* ATI 18800/28800 driver (based on the Allegro ATI code).
*
* By Shawn Hargreaves.
*
* See freebe.txt for copyright information.
*/
// #define NO_HWPTR
#include <pc.h>
#include "vbeaf.h"
/* chipset information */
#define ATI_18800 1
#define ATI_18800_1 2
#define ATI_28800_2 3
#define ATI_28800_4 4
#define ATI_28800_5 5
int ati_type;
int ati_port = 0x1CE;
/* driver function prototypes */
void SetBank32( );
void SetBank32End( );
int ExtStub( );
long GetVideoModeInfo(AF_DRIVER *af, short mode, AF_MODE_INFO *modeInfo);
long SetVideoMode(AF_DRIVER *af, short mode, long virtualX, long virtualY,
long *bytesPerLine, int numBuffers, AF_CRTCInfo *crtc);
void RestoreTextMode(AF_DRIVER *af);
long GetClosestPixelClock(AF_DRIVER *af, short mode, unsigned long pixelClock);
void SaveRestoreState(AF_DRIVER *af, int subfunc, void *saveBuf);
void SetDisplayStart(AF_DRIVER *af, long x, long y, long waitVRT);
void SetActiveBuffer(AF_DRIVER *af, long index);
void SetVisibleBuffer(AF_DRIVER *af, long index, long waitVRT);
int GetDisplayStartStatus(AF_DRIVER *af);
void SetPaletteData(AF_DRIVER *af, AF_PALETTE *pal, long num, long index,
long waitVRT);
void SetBank(AF_DRIVER *af, long bank);
/* list which ports we are going to access (only needed under Linux) */
unsigned short ports_table[] = { 0xFFFF };
/* internal driver state variables */
int af_bpp;
int af_width;
int af_height;
int af_visible_page;
int af_active_page;
int af_scroll_x;
int af_scroll_y;
int af_bank;
/* FreeBE/AF extension allowing farptr access to video memory */
FAF_HWPTR_DATA hwptr;
/* list of available video modes */
typedef struct VIDEO_MODE {
int w, h;
int bpp;
int num;
} VIDEO_MODE;
VIDEO_MODE mode_list[] = { { 640, 400, 8, 0x61 }, { 640, 480, 8, 0x62 } };
#define NUM_MODES (int)(sizeof(mode_list) / sizeof(VIDEO_MODE))
short available_modes[NUM_MODES + 1] = { 1, 2, -1 };
/* detect:
* Detects the presence of an ATI card.
*/
char *detect( ) {
char *name = NULL;
char buf[16];
int sel, i;
sel = allocate_selector(0, 1024 * 1024);
if (sel < 0) return NULL;
for (i = 0; i < 9; i++) /* check ID string */
buf[i] = _farpeekb(sel, 0xC0031 + i);
if (memcmp(buf, "761295520", 9) != 0) {
free_selector(sel);
return NULL;
}
ati_port = _farpeekw(sel, 0xC0010); /* read port address */
if (!ati_port) ati_port = 0x1CE;
switch (_farpeekb(sel, 0xC0043)) { /* check ATI type */
case '1':
ati_type = ATI_18800;
name = "18800";
break;
case '2':
ati_type = ATI_18800_1;
name = "18800-1";
break;
case '3':
ati_type = ATI_28800_2;
name = "28800-2";
break;
case '4':
ati_type = ATI_28800_4;
name = "28800-4";
break;
case '5':
ati_type = ATI_28800_5;
name = "28800-5";
break;
default:
/* unknown sort of ATI */
free_selector(sel);
return NULL;
}
free_selector(sel);
return name;
}
/* SetupDriver:
* Fills in our driver header block.
*/
int SetupDriver(AF_DRIVER *af) {
char *name;
int vram_size;
int i;
name = detect( );
if (!name) return 1;
i = 0;
while (af->OemVendorName[i]) i++;
af->OemVendorName[i++] = ',';
af->OemVendorName[i++] = ' ';
while (*name) af->OemVendorName[i++] = *(name++);
af->OemVendorName[i] = 0;
if (get_vesa_info(&vram_size, NULL, NULL) != 0)
af->TotalMemory = 512;
else
af->TotalMemory = MIN(vram_size / 1024, 512);
af->AvailableModes = available_modes;
af->Attributes =
(afHaveMultiBuffer | afHaveVirtualScroll | afHaveBankedBuffer);
af->BankSize = 64;
af->BankedBasePtr = 0xA0000;
af->IOPortsTable = ports_table;
af->SetBank32 = SetBank32;
af->SetBank32Len = (long)SetBank32End - (long)SetBank32;
af->SupplementalExt = ExtStub;
af->GetVideoModeInfo = GetVideoModeInfo;
af->SetVideoMode = SetVideoMode;
af->RestoreTextMode = RestoreTextMode;
af->GetClosestPixelClock = GetClosestPixelClock;
af->SaveRestoreState = SaveRestoreState;
af->SetDisplayStart = SetDisplayStart;
af->SetActiveBuffer = SetActiveBuffer;
af->SetVisibleBuffer = SetVisibleBuffer;
af->GetDisplayStartStatus = GetDisplayStartStatus;
af->SetPaletteData = SetPaletteData;
af->SetBank = SetBank;
return 0;
}
/* InitDriver:
* The second thing to be called during the init process, after the
* application has mapped all the memory and I/O resources we need.
*/
int InitDriver(AF_DRIVER *af) {
hwptr_init(hwptr.IOMemMaps[0], af->IOMemMaps[0]);
hwptr_init(hwptr.IOMemMaps[1], af->IOMemMaps[1]);
hwptr_init(hwptr.IOMemMaps[2], af->IOMemMaps[2]);
hwptr_init(hwptr.IOMemMaps[3], af->IOMemMaps[3]);
hwptr_init(hwptr.BankedMem, af->BankedMem);
hwptr_init(hwptr.LinearMem, af->LinearMem);
return 0;
}
/* FreeBEX:
* Returns an interface structure for the requested FreeBE/AF extension.
*/
void *FreeBEX(AF_DRIVER *af, unsigned long id) {
switch (id) {
#ifndef NO_HWPTR
case FAFEXT_HWPTR:
/* allow farptr access to video memory */
return &hwptr;
#endif
default: return NULL;
}
}
/* ExtStub:
* Vendor-specific extension hook: we don't provide any.
*/
int ExtStub( ) {
return 0;
}
/* GetVideoModeInfo:
* Retrieves information about this video mode, returning zero on success
* or -1 if the mode is invalid.
*/
long GetVideoModeInfo(AF_DRIVER *af, short mode, AF_MODE_INFO *modeInfo) {
VIDEO_MODE *info;
int i;
if ((mode <= 0) || (mode > NUM_MODES)) return -1;
info = &mode_list[mode - 1];
for (i = 0; i < (int)sizeof(AF_MODE_INFO); i++) ((char *)modeInfo)[i] = 0;
modeInfo->Attributes =
(afHaveMultiBuffer | afHaveVirtualScroll | afHaveBankedBuffer);
modeInfo->XResolution = info->w;
modeInfo->YResolution = info->h;
modeInfo->BitsPerPixel = info->bpp;
modeInfo->MaxBuffers = (af->TotalMemory * 1024) /
(info->w * info->h * BYTES_PER_PIXEL(info->bpp));
if (info->w > 1024) {
modeInfo->MaxBytesPerScanLine = 2048 * BYTES_PER_PIXEL(info->bpp);
modeInfo->MaxScanLineWidth = 2048;
} else {
modeInfo->MaxBytesPerScanLine = 1024 * BYTES_PER_PIXEL(info->bpp);
modeInfo->MaxScanLineWidth = 1024;
}
modeInfo->BytesPerScanLine = info->w * BYTES_PER_PIXEL(info->bpp);
modeInfo->BnkMaxBuffers = modeInfo->MaxBuffers;
modeInfo->MaxPixelClock = 135000000;
return 0;
}
/* SetVideoMode:
* Sets the specified video mode, returning zero on success.
*/
long SetVideoMode(AF_DRIVER *af, short mode, long virtualX, long virtualY,
long *bytesPerLine, int numBuffers, AF_CRTCInfo *crtc) {
long available_vram;
long used_vram;
int width;
VIDEO_MODE *info;
RM_REGS r;
/* reject anything with hardware stereo, linear framebuffer, or noclear */
if (mode & 0xC400) return -1;
mode &= 0x3FF;
if ((mode <= 0) || (mode > NUM_MODES)) return -1;
info = &mode_list[mode - 1];
/* call BIOS to set the mode */
r.x.ax = info->num;
rm_int(0x10, &r);
/* adjust the virtual width for widescreen modes */
if (virtualX > info->w) {
if (virtualX > 1024) return -1;
*bytesPerLine = ((virtualX * BYTES_PER_PIXEL(info->bpp)) + 15) & 0xFFF0;
width = read_vga_register(0x3D4, 0x13);
write_vga_register(0x3D4, 0x13,
(width * (*bytesPerLine)) /
(info->w * BYTES_PER_PIXEL(info->bpp)));
} else
*bytesPerLine = info->w * BYTES_PER_PIXEL(info->bpp);
/* set up some hardware registers */
if (ati_type >= ATI_28800_4) /* allow display past 512k */
alter_vga_register(ati_port, 0xB6, 1, 1);
if (ati_type >= ATI_18800_1) /* select single bank mode */
alter_vga_register(ati_port, 0xBE, 8, 0);
/* store info about the current mode */
af_bpp = info->bpp;
af_width = *bytesPerLine;
af_height = MAX(info->h, virtualY);
af_visible_page = 0;
af_active_page = 0;
af_scroll_x = 0;
af_scroll_y = 0;
af_bank = -1;
af->BufferEndX = af_width / BYTES_PER_PIXEL(af_bpp) - 1;
af->BufferEndY = af_height - 1;
af->OriginOffset = 0;
used_vram = af_width * af_height * numBuffers;
available_vram = af->TotalMemory * 1024;
if (used_vram > available_vram) return -1;
if (available_vram - used_vram >= af_width) {
af->OffscreenOffset = used_vram;
af->OffscreenStartY = af_height * numBuffers;
af->OffscreenEndY = available_vram / af_width - 1;
} else {
af->OffscreenOffset = 0;
af->OffscreenStartY = 0;
af->OffscreenEndY = 0;
}
return 0;
}
/* RestoreTextMode:
* Returns to text mode, shutting down the accelerator hardware.
*/
void RestoreTextMode(AF_DRIVER *af) {
RM_REGS r;
r.x.ax = 3;
rm_int(0x10, &r);
}
/* GetClosestPixelClock:
* I don't have a clue what this should return: it is used for the
* refresh rate control.
*/
long GetClosestPixelClock(AF_DRIVER *af, short mode, unsigned long pixelClock) {
/* ??? */
return 135000000;
}
/* SaveRestoreState:
* Stores the current driver status: not presently implemented.
*/
void SaveRestoreState(AF_DRIVER *af, int subfunc, void *saveBuf) {
/* not implemented (not used by Allegro) */
}
/* SetDisplayStart:
* Hardware scrolling function. The waitVRT value may be one of:
*
* -1 = don't set hardware, just store values for next page flip to use
* 0 = set values and return immediately
* 1 = set values and wait for retrace
*/
void SetDisplayStart(AF_DRIVER *af, long x, long y, long waitVRT) {
if (waitVRT >= 0) {
long a = (x * BYTES_PER_PIXEL(af_bpp)) +
((y + af_visible_page * af_height) * af_width);
asm volatile("cli");
if (waitVRT) {
do { } while (inportb(0x3DA) & 1); }
/* write high bits to ATI-specific registers */
if (ati_type < ATI_28800_2) {
alter_vga_register(ati_port, 0xB0, 0xC0, a >> 12);
} else {
alter_vga_register(ati_port, 0xB0, 0x40, a >> 12);
alter_vga_register(ati_port, 0xA3, 0x10, a >> 15);
}
/* write to normal VGA address registers */
write_vga_register(0x3D4, 0x0D, (a >> 2) & 0xFF);
write_vga_register(0x3D4, 0x0C, (a >> 10) & 0xFF);
asm volatile("sti");
if (waitVRT) {
do { } while (!(inportb(0x3DA) & 8)); }
}
af_scroll_x = x;
af_scroll_y = y;
}
/* SetActiveBuffer:
* Sets which buffer is being drawn onto, for use in multi buffering
* systems (not used by Allegro).
*/
void SetActiveBuffer(AF_DRIVER *af, long index) {
if (af->OffscreenOffset) {
af->OffscreenStartY += af_active_page * af_height;
af->OffscreenEndY += af_active_page * af_height;
}
af_active_page = index;
af->OriginOffset = af_width * af_height * index;
if (af->OffscreenOffset) {
af->OffscreenStartY -= af_active_page * af_height;
af->OffscreenEndY -= af_active_page * af_height;
}
}
/* SetVisibleBuffer:
* Sets which buffer is displayed on the screen, for use in multi buffering
* systems (not used by Allegro).
*/
void SetVisibleBuffer(AF_DRIVER *af, long index, long waitVRT) {
af_visible_page = index;
SetDisplayStart(af, af_scroll_x, af_scroll_y, waitVRT);
}
/* GetDisplayStartStatus:
* Status poll for triple buffering. Not possible on the majority of
* present cards: this function is just a placeholder.
*/
int GetDisplayStartStatus(AF_DRIVER *af) {
return 1;
}
/* SetPaletteData:
* Palette setting routine.
*/
void SetPaletteData(AF_DRIVER *af, AF_PALETTE *pal, long num, long index,
long waitVRT) {
int i;
if (waitVRT) {
do {
} while (inportb(0x3DA) & 8);
do { } while (!(inportb(0x3DA) & 8)); }
for (i = 0; i < num; i++) {
outportb(0x3C8, index + i);
outportb(0x3C9, pal[i].red / 4);
outportb(0x3C9, pal[i].green / 4);
outportb(0x3C9, pal[i].blue / 4);
}
}
/* SetBank32:
* Relocatable bank switch function, called with a bank number in %edx.
*/
asm ("
.globl _SetBank32, _SetBank32End
.align 4
_SetBank32:
pushl %edx
pushl %eax
movl %edx, %eax
movb %al, %ah /* save al into ah */
movl _ati_port, %edx /* read port 1CE index 0xB2 */
movb $0xB2, %al
outb %al, %dx
incl %edx
inb %dx, %al
decl %edx
andb $0xE1, %al /* mask out bits 1-4 */
shlb $1, %ah /* shift bank number */
orb %al, %ah
movb $0xB2, %al /* write to port 1CE index 0xB2 */
outb %al, %dx
incl %edx
movb %ah, %al
outb %al, %dx
popl %eax
popl %edx
ret
_SetBank32End:
");
/* SetBank:
* C-callable bank switch function. This version simply chains to the
* relocatable SetBank32() above.
*/
void SetBank(AF_DRIVER *af, long bank)
{
asm(" call _SetBank32 " : : "d"(bank));
af_bank = bank;
}
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