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|
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include "savage_driver.h"
#include "savage_vbe.h"
#define iabs(a) ((int)(a)>0?(a):(-(a)))
#if X_BYTE_ORDER == X_LITTLE_ENDIAN
#define B_O16(x) (x)
#define B_O32(x) (x)
#else
#define B_O16(x) ((((x) & 0xff) << 8) | (((x) & 0xff) >> 8))
#define B_O32(x) ((((x) & 0xff) << 24) | (((x) & 0xff00) << 8) \
| (((x) & 0xff0000) >> 8) | (((x) & 0xff000000) >> 24))
#endif
#define L_ADD(x) (B_O32(x) & 0xffff) + ((B_O32(x) >> 12) & 0xffff00)
static int SavageGetDevice( SavagePtr psav );
/*static int SavageGetTVType( SavagePtr psav );*/
void SavageSetVESAModeCrtc1( SavagePtr psav, int n, int Refresh );
void SavageSetVESAModeCrtc2( SavagePtr psav, int n, int Refresh );
static void
SavageClearVM86Regs( xf86Int10InfoPtr pInt )
{
pInt->ax = 0;
pInt->bx = 0;
pInt->cx = 0;
pInt->dx = 0;
pInt->si = 0;
pInt->di = 0;
pInt->es = 0xc000;
pInt->num = 0x10;
}
void
SavageSetTextMode( SavagePtr psav )
{
/* Restore display device if changed. */
if( psav->iDevInfo != psav->iDevInfoPrim ) {
SavageClearVM86Regs( psav->pVbe->pInt10 );
psav->pVbe->pInt10->ax = 0x4f14;
psav->pVbe->pInt10->bx = 0x0003;
psav->pVbe->pInt10->cx = psav->iDevInfoPrim;
xf86ExecX86int10( psav->pVbe->pInt10 );
}
SavageClearVM86Regs( psav->pVbe->pInt10 );
psav->pVbe->pInt10->ax = 0x83;
xf86ExecX86int10( psav->pVbe->pInt10 );
}
void
SavageSetVESAModeCrtc1(SavagePtr psav, int n, int refresh)
{
unsigned char byte;
xf86Msg(X_INFO,"SavageSetVESAModeCrtc1:mode=0x%x,refresh=%dHZ\n",n,refresh);
SavageClearVM86Regs(psav->pVbe->pInt10);
/* set active displays. */
psav->pVbe->pInt10->ax = S3_EXTBIOS_INFO;
psav->pVbe->pInt10->bx = S3_SET_ACTIVE_DISP;
if (psav->TvOn)
psav->pVbe->pInt10->cx = 0x87; /* lcd, tv, crt, duoview */
else
psav->pVbe->pInt10->cx = 0x83; /* lcd, crt, duoview */
xf86ExecX86int10(psav->pVbe->pInt10);
SavageClearVM86Regs(psav->pVbe->pInt10);
/* Establish the refresh rate for this mode. */
psav->pVbe->pInt10->ax = S3_EXTBIOS_INFO;
psav->pVbe->pInt10->bx = S3_SET_REFRESH;
psav->pVbe->pInt10->cx = n & 0x1ff;
psav->pVbe->pInt10->di = refresh & 0xffff;
xf86ExecX86int10(psav->pVbe->pInt10);
/* SR01:turn off screen */
OUTREG8 (SEQ_ADDRESS_REG,0x01);
byte = INREG8(SEQ_DATA_REG) | 0x20;
OUTREG8(SEQ_DATA_REG,byte);
psav->pVbe->pInt10->ax = BIOS_SET_VBE_MODE;
psav->pVbe->pInt10->bx = n;
xf86ExecX86int10(psav->pVbe->pInt10);
}
void
SavageSetVESAModeCrtc2( SavagePtr psav, int n, int refresh )
{
xf86Msg(X_INFO,"SavageSetVESAModeCrtc2:mode=0x%x,refresh=%dHZ\n",n,refresh);
SavageClearVM86Regs(psav->pVbe->pInt10);
UnLockExtRegs();
psav->pVbe->pInt10->ax = S3_EXTBIOS_INFO;
psav->pVbe->pInt10->bx = S3_ALT_SET_ACTIVE_DISP;
if (psav->TvOn)
psav->pVbe->pInt10->cx = 0x87; /* lcd, tv, crt, duoview */
else
psav->pVbe->pInt10->cx = 0x83; /* lcd, crt, duoview */
psav->pVbe->pInt10->dx = n & 0x1ff;
psav->pVbe->pInt10->di = refresh & 0xffff;
xf86ExecX86int10(psav->pVbe->pInt10);
}
void
SavageSetVESAMode( SavagePtr psav, int n, int Refresh )
{
int iDevInfo;
static int iCount = 0;
if (psav->IsSecondary) {
SavageSetVESAModeCrtc2(psav, n, Refresh);
return;
}
if (psav->IsPrimary) {
SavageSetVESAModeCrtc1(psav, n, Refresh);
return;
}
/* Get current display device status. */
iDevInfo = SavageGetDevice(psav);
psav->iDevInfo = iDevInfo;
if( !iCount++ )
psav->iDevInfoPrim = psav->iDevInfo;
if( psav->CrtOnly )
psav->iDevInfo = CRT_ACTIVE;
if( psav->TvOn )
psav->iDevInfo = TV_ACTIVE;
/* Establish the refresh rate for this mode. */
SavageClearVM86Regs( psav->pVbe->pInt10 );
psav->pVbe->pInt10->ax = 0x4f14; /* S3 extensions */
psav->pVbe->pInt10->bx = 0x0001; /* Set default refresh rate */
psav->pVbe->pInt10->cx = n & 0x3fff;
psav->pVbe->pInt10->di = Refresh & 0xffff;
xf86ExecX86int10( psav->pVbe->pInt10 );
/* Set TV type if TV is on. */
if( psav->TvOn ) {
SavageClearVM86Regs( psav->pVbe->pInt10 );
psav->pVbe->pInt10->ax = 0x4f14; /* S3 extensions */
psav->pVbe->pInt10->bx = 0x0007; /* TV extensions */
psav->pVbe->pInt10->cx = psav->PAL ? 0x08 : 0x04;
psav->pVbe->pInt10->dx = 0x0c;
xf86ExecX86int10( psav->pVbe->pInt10 );
}
/* Manipulate output device set. */
if( psav->iDevInfo != iDevInfo ) {
SavageClearVM86Regs( psav->pVbe->pInt10 );
psav->pVbe->pInt10->ax = 0x4f14; /* S3 extensions */
psav->pVbe->pInt10->bx = 0x0003; /* set active devices */
psav->pVbe->pInt10->cx = psav->iDevInfo;
xf86ExecX86int10( psav->pVbe->pInt10 );
/* Re-fetch actual device set. */
psav->iDevInfo = SavageGetDevice( psav );
iDevInfo = psav->iDevInfo;
psav->CrtOnly = (iDevInfo == 1);
psav->TvOn = !!(iDevInfo & 4);
}
/* Now, make this mode current. */
if( xf86LoaderCheckSymbol( "VBESetVBEMode" ) )
{
if( !VBESetVBEMode( psav->pVbe, n, NULL ) )
{
ErrorF("Set video mode failed\n");
}
}
}
void
SavageSetPanelEnabled( SavagePtr psav, Bool active )
{
int iDevInfo;
if( !psav->PanelX )
return; /* no panel */
iDevInfo = SavageGetDevice( psav );
if( active )
iDevInfo |= LCD_ACTIVE;
else
iDevInfo &= ~LCD_ACTIVE;
SavageClearVM86Regs( psav->pVbe->pInt10 );
psav->pVbe->pInt10->ax = 0x4f14; /* S3 extensions */
psav->pVbe->pInt10->bx = 0x0003; /* set active devices */
psav->pVbe->pInt10->cx = iDevInfo;
xf86ExecX86int10( psav->pVbe->pInt10 );
}
/* Function to get supported device list. */
static int SavageGetDevice( SavagePtr psav )
{
SavageClearVM86Regs( psav->pVbe->pInt10 );
psav->pVbe->pInt10->ax = 0x4f14; /* S3 extensions */
psav->pVbe->pInt10->bx = 0x0103; /* get active devices */
xf86ExecX86int10( psav->pVbe->pInt10 );
return ((psav->pVbe->pInt10->cx) & 0xf);
}
void
SavageFreeBIOSModeTable( SavagePtr psav, SavageModeTablePtr* ppTable )
{
int i;
SavageModeEntryPtr pMode = (*ppTable)->Modes;
for( i = (*ppTable)->NumModes; i--; )
{
if( pMode->RefreshRate )
{
free( pMode->RefreshRate );
pMode->RefreshRate = NULL;
}
pMode++;
}
free( *ppTable );
}
SavageModeTablePtr
SavageGetBIOSModeTable( SavagePtr psav, int iDepth )
{
VbeInfoBlock *vbe;
int nModes;
SavageModeTablePtr pTable;
if( !psav->pVbe )
return 0;
if (!(vbe = VBEGetVBEInfo(psav->pVbe)))
return 0;
nModes = SavageGetBIOSModes( psav, vbe, iDepth, NULL );
pTable = (SavageModeTablePtr)
calloc( 1, sizeof(SavageModeTableRec) +
(nModes-1) * sizeof(SavageModeEntry) );
if( pTable ) {
pTable->NumModes = nModes;
SavageGetBIOSModes( psav, vbe, iDepth, pTable->Modes );
}
VBEFreeVBEInfo(vbe);
return pTable;
}
unsigned short
SavageGetBIOSModes(
SavagePtr psav,
VbeInfoBlock *vbe,
int iDepth,
SavageModeEntryPtr s3vModeTable )
{
unsigned short iModeCount = 0;
unsigned short int *mode_list;
pointer vbeLinear = NULL;
int vbeReal;
struct vbe_mode_info_block * vmib;
vbeLinear = xf86Int10AllocPages( psav->pVbe->pInt10, 1, &vbeReal );
if( !vbeLinear )
{
ErrorF( "Cannot allocate scratch page in real mode memory." );
return 0;
}
vmib = (struct vbe_mode_info_block *) vbeLinear;
for (mode_list = vbe->VideoModePtr; *mode_list != 0xffff; mode_list++) {
/*
* This is a HACK to work around what I believe is a BUG in the
* Toshiba Satellite BIOSes in 08/2000 and 09/2000. The BIOS
* table for 1024x600 says it has six refresh rates, when in fact
* it only has 3. When I ask for rate #4, the BIOS goes into an
* infinite loop until the user interrupts it, usually by pressing
* Ctrl-Alt-F1. For now, we'll just punt everything with a VESA
* number greater than or equal to 0200.
*
* This also prevents some strange and unusual results seen with
* the later ProSavage/PM133 BIOSes directly from S3/VIA.
*/
if( *mode_list >= 0x0200 )
continue;
SavageClearVM86Regs( psav->pVbe->pInt10 );
psav->pVbe->pInt10->ax = 0x4f01;
psav->pVbe->pInt10->cx = *mode_list;
psav->pVbe->pInt10->es = SEG_ADDR(vbeReal);
psav->pVbe->pInt10->di = SEG_OFF(vbeReal);
psav->pVbe->pInt10->num = 0x10;
xf86ExecX86int10( psav->pVbe->pInt10 );
if(
(vmib->bits_per_pixel == iDepth) &&
(
(vmib->memory_model == VBE_MODEL_256) ||
(vmib->memory_model == VBE_MODEL_PACKED) ||
(vmib->memory_model == VBE_MODEL_RGB)
)
)
{
/* This mode is a match. */
iModeCount++;
/* If we're supposed to fetch information, do it now. */
if( s3vModeTable )
{
int iRefresh = 0;
s3vModeTable->Width = vmib->x_resolution;
s3vModeTable->Height = vmib->y_resolution;
s3vModeTable->VesaMode = *mode_list;
/* Query the refresh rates at this mode. */
psav->pVbe->pInt10->cx = *mode_list;
psav->pVbe->pInt10->dx = 0;
do
{
if( (iRefresh % 8) == 0 )
{
if( s3vModeTable->RefreshRate )
{
s3vModeTable->RefreshRate = (unsigned char *)
realloc(
s3vModeTable->RefreshRate,
(iRefresh+8) * sizeof(unsigned char)
);
}
else
{
s3vModeTable->RefreshRate = (unsigned char *)
calloc(
sizeof(unsigned char),
(iRefresh+8)
);
}
}
psav->pVbe->pInt10->ax = 0x4f14; /* S3 extended functions */
psav->pVbe->pInt10->bx = 0x0201; /* query refresh rates */
psav->pVbe->pInt10->num = 0x10;
xf86ExecX86int10( psav->pVbe->pInt10 );
s3vModeTable->RefreshRate[iRefresh++] = psav->pVbe->pInt10->di;
}
while( psav->pVbe->pInt10->dx );
s3vModeTable->RefreshCount = iRefresh;
s3vModeTable++;
}
}
}
xf86Int10FreePages( psav->pVbe->pInt10, vbeLinear, 1 );
return iModeCount;
}
ModeStatus SavageMatchBiosMode(ScrnInfoPtr pScrn,int width,int height,int refresh,
unsigned int *vesaMode,unsigned int *newRefresh)
{
SavageModeEntryPtr pmt;
Bool found = FALSE;
SavagePtr psav = SAVPTR(pScrn);
int i,j;
unsigned int chosenVesaMode = 0;
unsigned int chosenRefresh = 0;
/* Scan through our BIOS list to locate the closest valid mode. */
/*
* If we ever break 4GHz clocks on video boards, we'll need to
* change this.
* refresh = (mode->Clock * 1000) / (mode->HTotal * mode->VTotal);
* now we use VRefresh directly,instead of by calculating from dot clock
*/
for( i = 0, pmt = psav->ModeTable->Modes;
i < psav->ModeTable->NumModes;
i++, pmt++ )
{
if( (pmt->Width == width) &&
(pmt->Height == height) )
{
int jDelta = 99;
int jBest = 0;
/* We have an acceptable mode. Find a refresh rate. */
chosenVesaMode = pmt->VesaMode;
if (vesaMode)
*vesaMode = chosenVesaMode;
for( j = 0; j < pmt->RefreshCount; j++ )
{
if( pmt->RefreshRate[j] == refresh )
{
/* Exact match. */
jBest = j;
break;
}
else if( iabs(pmt->RefreshRate[j] - refresh) < jDelta )
{
jDelta = iabs(pmt->RefreshRate[j] - refresh);
jBest = j;
}
}
chosenRefresh = pmt->RefreshRate[jBest];
if (newRefresh)
*newRefresh = chosenRefresh;
found = TRUE;
break;
}
}
if( found ) {
/* Success: we found a match in the BIOS. */
xf86DrvMsg(pScrn->scrnIndex, X_PROBED,
"Chose mode %x at %dHz.\n", chosenVesaMode, chosenRefresh );
return MODE_OK;
} else {
xf86DrvMsg(pScrn->scrnIndex, X_PROBED,
"No suitable BIOS mode found for %dx%d %dHz.\n",
width, height, refresh);
return MODE_NOMODE;
}
}
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