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|
/*
* MGA-1064, MGA-G100, MGA-G200, MGA-G400, MGA-G550 RAMDAC driver
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include "colormapst.h"
/* All drivers should typically include these */
#include "xf86.h"
#include "xf86_OSproc.h"
/* Drivers for PCI hardware need this */
#include "xf86PciInfo.h"
/* Drivers that need to access the PCI config space directly need this */
#include "xf86Pci.h"
#include "mga_reg.h"
#include "mga.h"
#include "mga_macros.h"
#include "mga_maven.h"
#include "xf86DDC.h"
#include <stdlib.h>
#include <unistd.h>
/*
* implementation
*/
#define DACREGSIZE 0x50
/*
* Only change bits shown in this mask. Ideally reserved bits should be
* zeroed here. Also, don't change the vgaioen bit here since it is
* controlled elsewhere.
*
* XXX These settings need to be checked.
*/
#define OPTION1_MASK 0xFFFFFEFF
#define OPTION2_MASK 0xFFFFFFFF
#define OPTION3_MASK 0xFFFFFFFF
#define OPTION1_MASK_PRIMARY 0xFFFC0FF
static void MGAGRamdacInit(ScrnInfoPtr);
static void MGAGSave(ScrnInfoPtr, vgaRegPtr, MGARegPtr, Bool);
static void MGAGRestore(ScrnInfoPtr, vgaRegPtr, MGARegPtr, Bool);
static Bool MGAGInit(ScrnInfoPtr, DisplayModePtr);
static void MGAGLoadPalette(ScrnInfoPtr, int, int*, LOCO*, VisualPtr);
static Bool MGAG_i2cInit(ScrnInfoPtr pScrn);
static void
MGAG200SEComputePLLParam(ScrnInfoPtr pScrn, long lFo, int *M, int *N, int *P)
{
unsigned int ulComputedFo;
unsigned int ulFDelta;
unsigned int ulFPermitedDelta;
unsigned int ulFTmpDelta;
unsigned int ulVCOMax, ulVCOMin;
unsigned int ulTestP;
unsigned int ulTestM;
unsigned int ulTestN;
unsigned int ulPLLFreqRef;
ulVCOMax = 320000;
ulVCOMin = 160000;
ulPLLFreqRef = 25000;
ulFDelta = 0xFFFFFFFF;
/* Permited delta is 0.5% as VESA Specification */
ulFPermitedDelta = lFo * 5 / 1000;
/* Then we need to minimize the M while staying within 0.5% */
for (ulTestP = 8; ulTestP > 0; ulTestP >>= 1) {
if ((lFo * ulTestP) > ulVCOMax) continue;
if ((lFo * ulTestP) < ulVCOMin) continue;
for (ulTestN = 17; ulTestN <= 256; ulTestN++) {
for (ulTestM = 1; ulTestM <= 32; ulTestM++) {
ulComputedFo = (ulPLLFreqRef * ulTestN) / (ulTestM * ulTestP);
if (ulComputedFo > lFo)
ulFTmpDelta = ulComputedFo - lFo;
else
ulFTmpDelta = lFo - ulComputedFo;
if (ulFTmpDelta < ulFDelta) {
ulFDelta = ulFTmpDelta;
*M = ulTestM - 1;
*N = ulTestN - 1;
*P = ulTestP - 1;
}
}
}
}
}
static void
MGAG200EVComputePLLParam(ScrnInfoPtr pScrn, long lFo, int *M, int *N, int *P)
{
unsigned int ulComputedFo;
unsigned int ulFDelta;
unsigned int ulFPermitedDelta;
unsigned int ulFTmpDelta;
unsigned int ulTestP;
unsigned int ulTestM;
unsigned int ulTestN;
unsigned int ulVCOMax;
unsigned int ulVCOMin;
unsigned int ulPLLFreqRef;
ulVCOMax = 550000;
ulVCOMin = 150000;
ulPLLFreqRef = 50000;
ulFDelta = 0xFFFFFFFF;
/* Permited delta is 0.5% as VESA Specification */
ulFPermitedDelta = lFo * 5 / 1000;
/* Then we need to minimize the M while staying within 0.5% */
for (ulTestP = 16; ulTestP > 0; ulTestP--) {
if ((lFo * ulTestP) > ulVCOMax) continue;
if ((lFo * ulTestP) < ulVCOMin) continue;
for (ulTestN = 1; ulTestN <= 256; ulTestN++) {
for (ulTestM = 1; ulTestM <= 16; ulTestM++) {
ulComputedFo = (ulPLLFreqRef * ulTestN) / (ulTestM * ulTestP);
if (ulComputedFo > lFo)
ulFTmpDelta = ulComputedFo - lFo;
else
ulFTmpDelta = lFo - ulComputedFo;
if (ulFTmpDelta < ulFDelta) {
ulFDelta = ulFTmpDelta;
*M = (CARD8)(ulTestM - 1);
*N = (CARD8)(ulTestN - 1);
*P = (CARD8)(ulTestP - 1);
}
}
}
}
#if DEBUG
xf86DrvMsg(pScrn->scrnIndex, X_INFO,
"lFo=%ld n=0x%x m=0x%x p=0x%x \n",
lFo, *N, *M, *P );
#endif
}
static void
MGAG200WBComputePLLParam(ScrnInfoPtr pScrn, long lFo, int *M, int *N, int *P)
{
unsigned int ulComputedFo;
unsigned int ulFDelta;
unsigned int ulFPermitedDelta;
unsigned int ulFTmpDelta;
unsigned int ulVCOMax, ulVCOMin;
unsigned int ulTestP;
unsigned int ulTestM;
unsigned int ulTestN;
unsigned int ulPLLFreqRef;
unsigned int ulTestPStart;
unsigned int ulTestNStart;
unsigned int ulTestNEnd;
unsigned int ulTestMStart;
unsigned int ulTestMEnd;
ulVCOMax = 550000;
ulVCOMin = 150000;
ulPLLFreqRef = 48000;
ulTestPStart = 1;
ulTestNStart = 1;
ulTestNEnd = 150;
ulTestMStart = 1;
ulTestMEnd = 16;
ulFDelta = 0xFFFFFFFF;
/* Permited delta is 0.5% as VESA Specification */
ulFPermitedDelta = lFo * 5 / 1000;
/* Then we need to minimize the M while staying within 0.5% */
for (ulTestP = ulTestPStart; ulTestP < 9; ulTestP++) {
if ((lFo * ulTestP) > ulVCOMax) continue;
if ((lFo * ulTestP) < ulVCOMin) continue;
for (ulTestM = ulTestMStart; ulTestM <= ulTestMEnd; ulTestM++) {
for (ulTestN = ulTestNStart; ulTestN <= ulTestNEnd; ulTestN++) {
ulComputedFo = (ulPLLFreqRef * ulTestN) / (ulTestM * ulTestP);
if (ulComputedFo > lFo)
ulFTmpDelta = ulComputedFo - lFo;
else
ulFTmpDelta = lFo - ulComputedFo;
if (ulFTmpDelta < ulFDelta) {
ulFDelta = ulFTmpDelta;
*M = (CARD8)(ulTestM - 1) | (CARD8)(((ulTestN -1) >> 1) & 0x80);
*N = (CARD8)(ulTestN - 1);
*P = (CARD8)(ulTestP - 1);
}
}
}
}
#if DEBUG
xf86DrvMsg(pScrn->scrnIndex, X_INFO,
"lFo=%ld n=0x%x m=0x%x p=0x%x \n",
lFo, *N, *M, *P );
#endif
}
static void
MGAG200EVPIXPLLSET(ScrnInfoPtr pScrn, MGARegPtr mgaReg)
{
MGAPtr pMga = MGAPTR(pScrn);
unsigned char ucTempByte, ucPixCtrl;
// Set pixclkdis to 1
ucPixCtrl = inMGAdac(MGA1064_PIX_CLK_CTL);
ucPixCtrl |= MGA1064_PIX_CLK_CTL_CLK_DIS;
outMGAdac(MGA1064_PIX_CLK_CTL, ucPixCtrl);
// Select PLL Set C
ucTempByte = INREG8(MGAREG_MEM_MISC_READ);
ucTempByte |= 0x3<<2; //select MGA pixel clock
OUTREG8(MGAREG_MEM_MISC_WRITE, ucTempByte);
// Set pixlock to 0
ucTempByte = inMGAdac(MGA1064_PIX_PLL_STAT);
outMGAdac(MGA1064_PIX_PLL_STAT, ucTempByte & ~0x40);
// Set pix_stby to 1
ucPixCtrl |= MGA1064_PIX_CLK_CTL_CLK_POW_DOWN;
outMGAdac(MGA1064_PIX_CLK_CTL, ucPixCtrl);
// Program the Pixel PLL Register
outMGAdac(MGA1064_EV_PIX_PLLC_M, mgaReg->PllM);
outMGAdac(MGA1064_EV_PIX_PLLC_N, mgaReg->PllN);
outMGAdac(MGA1064_EV_PIX_PLLC_P, mgaReg->PllP);
// Wait 50 us
usleep(50);
// Set pix_stby to 0
ucPixCtrl &= ~MGA1064_PIX_CLK_CTL_CLK_POW_DOWN;
outMGAdac(MGA1064_PIX_CLK_CTL, ucPixCtrl);
// Wait 500 us
usleep(500);
// Select the pixel PLL by setting pixclksel to 1
ucTempByte = inMGAdac(MGA1064_PIX_CLK_CTL);
ucTempByte &= ~MGA1064_PIX_CLK_CTL_SEL_MSK;
ucTempByte |= MGA1064_PIX_CLK_CTL_SEL_PLL;
outMGAdac(MGA1064_PIX_CLK_CTL, ucTempByte);
// Set pixlock to 1
ucTempByte = inMGAdac(MGA1064_PIX_PLL_STAT);
outMGAdac(MGA1064_PIX_CLK_CTL, ucTempByte | 0x40);
// Reset dotclock rate bit.
ucTempByte = INREG8(MGAREG_MEM_MISC_READ);
ucTempByte |= 0x3<<2; //select MGA pixel clock
OUTREG8(MGAREG_MEM_MISC_WRITE, ucTempByte);
OUTREG8(MGAREG_SEQ_INDEX, 1);
ucTempByte = INREG8(MGAREG_SEQ_DATA);
OUTREG8(MGAREG_SEQ_DATA, ucTempByte & ~0x8);
// Set pixclkdis to 0
ucTempByte = inMGAdac(MGA1064_PIX_CLK_CTL);
ucTempByte &= ~MGA1064_PIX_CLK_CTL_CLK_DIS;
outMGAdac(MGA1064_PIX_CLK_CTL, ucTempByte);
}
static void
MGAG200WBPIXPLLSET(ScrnInfoPtr pScrn, MGARegPtr mgaReg)
{
MGAPtr pMga = MGAPTR(pScrn);
unsigned long ulLoopCount, ulLockCheckIterations = 0, ulTempCount, ulVCount;
unsigned char ucTempByte, ucPixCtrl, ucPLLLocked = FALSE;
while(ulLockCheckIterations <= 32 && ucPLLLocked == FALSE)
{
if(ulLockCheckIterations > 0)
{
OUTREG8(MGAREG_CRTCEXT_INDEX, 0x1E);
ucTempByte = INREG8(MGAREG_CRTCEXT_DATA);
if(ucTempByte < 0xFF)
{
OUTREG8(MGAREG_CRTCEXT_DATA, ucTempByte+1);
}
}
// Set pixclkdis to 1
ucPixCtrl = inMGAdac(MGA1064_PIX_CLK_CTL);
ucPixCtrl |= MGA1064_PIX_CLK_CTL_CLK_DIS;
outMGAdac(MGA1064_PIX_CLK_CTL, ucPixCtrl);
ucTempByte = inMGAdac(MGA1064_REMHEADCTL);
ucTempByte |= MGA1064_REMHEADCTL_CLKDIS;
outMGAdac(MGA1064_REMHEADCTL, ucTempByte);
// Select PLL Set C
ucTempByte = INREG8(MGAREG_MEM_MISC_READ);
ucTempByte |= 0x3<<2; //select MGA pixel clock
OUTREG8(MGAREG_MEM_MISC_WRITE, ucTempByte);
ucPixCtrl |= MGA1064_PIX_CLK_CTL_CLK_POW_DOWN | 0x80;
outMGAdac(MGA1064_PIX_CLK_CTL, ucPixCtrl);
// Wait 500 us
usleep(500);
// Reset the PLL
// When we are varying the output frequency by more than
// 10%, we must reset the PLL. However to be prudent, we
// will reset it each time that we are changing it.
ucTempByte = inMGAdac(MGA1064_VREF_CTL);
ucTempByte &= ~0x04;
outMGAdac(MGA1064_VREF_CTL, ucTempByte );
// Wait 50 us
usleep(50);
// Program the Pixel PLL Register
outMGAdac(MGA1064_WB_PIX_PLLC_N, mgaReg->PllN);
outMGAdac(MGA1064_WB_PIX_PLLC_M, mgaReg->PllM);
outMGAdac(MGA1064_WB_PIX_PLLC_P, mgaReg->PllP);
// Wait 50 us
usleep(50);
// Turning the PLL on
ucTempByte = inMGAdac(MGA1064_VREF_CTL);
ucTempByte |= 0x04;
outMGAdac(MGA1064_VREF_CTL, ucTempByte );
// Wait 500 us
usleep(500);
// Select the pixel PLL by setting pixclksel to 1
ucTempByte = inMGAdac(MGA1064_PIX_CLK_CTL);
ucTempByte &= ~MGA1064_PIX_CLK_CTL_SEL_MSK;
ucTempByte |= MGA1064_PIX_CLK_CTL_SEL_PLL;
outMGAdac(MGA1064_PIX_CLK_CTL, ucTempByte);
ucTempByte = inMGAdac(MGA1064_REMHEADCTL);
ucTempByte &= ~MGA1064_REMHEADCTL_CLKSL_MSK;
ucTempByte |= MGA1064_REMHEADCTL_CLKSL_PLL;
outMGAdac(MGA1064_REMHEADCTL, ucTempByte);
// Reset dotclock rate bit.
OUTREG8(MGAREG_SEQ_INDEX, 1);
ucTempByte = INREG8(MGAREG_SEQ_DATA);
OUTREG8(MGAREG_SEQ_DATA, ucTempByte & ~0x8);
// Set pixclkdis to 0
ucTempByte = inMGAdac(MGA1064_PIX_CLK_CTL);
ucTempByte &= ~MGA1064_PIX_CLK_CTL_CLK_DIS;
outMGAdac(MGA1064_PIX_CLK_CTL, ucTempByte);
// Poll VCount. If it increments twice inside 150us,
// we assume that the PLL has locked.
ulLoopCount = 0;
ulVCount = INREG(MGAREG_VCOUNT);
while(ulLoopCount < 30 && ucPLLLocked == FALSE)
{
ulTempCount = INREG(MGAREG_VCOUNT);
if(ulTempCount < ulVCount)
{
ulVCount = 0;
}
if ((ucTempByte - ulVCount) > 2)
{
ucPLLLocked = TRUE;
}
else
{
usleep(5);
}
ulLoopCount++;
}
ulLockCheckIterations++;
}
// Set remclkdis to 0
ucTempByte = inMGAdac(MGA1064_REMHEADCTL);
ucTempByte &= ~MGA1064_REMHEADCTL_CLKDIS;
outMGAdac(MGA1064_REMHEADCTL, ucTempByte);
}
static void
MGAG200WBPrepareForModeSwitch(ScrnInfoPtr pScrn)
{
MGAPtr pMga = MGAPTR(pScrn);
unsigned char ucTmpData = 0;
int ulIterationMax = 0;
// 1- The first step is to warn the BMC of an upcoming mode change.
// We are putting the misc<0> to output.
ucTmpData = inMGAdac(MGA1064_GEN_IO_CTL);
ucTmpData |= 0x10;
outMGAdac(MGA1064_GEN_IO_CTL, ucTmpData);
// We are putting a 1 on the misc<0> line.
ucTmpData = inMGAdac(MGA1064_GEN_IO_DATA);
ucTmpData |= 0x10;
outMGAdac(MGA1064_GEN_IO_DATA, ucTmpData);
// 2- The second step is to mask any further scan request
// This will be done by asserting the remfreqmsk bit (XSPAREREG<7>)
ucTmpData = inMGAdac(MGA1064_SPAREREG);
ucTmpData |= 0x80;
outMGAdac(MGA1064_SPAREREG, ucTmpData);
// 3a- The third step is to verify if there is an active scan
// We are searching for a 0 on remhsyncsts (XSPAREREG<0>)
ulIterationMax = 300;
while (!(ucTmpData & 0x01) && ulIterationMax)
{
ucTmpData = inMGAdac(MGA1064_SPAREREG);
usleep(1000);
ulIterationMax--;
}
// 3b- This step occurs only if the remote is actually scanning
// We are waiting for the end of the frame which is a 1 on
// remvsyncsts (XSPAREREG<1>)
if (ulIterationMax)
{
ulIterationMax = 300;
while ((ucTmpData & 0x02) && ulIterationMax)
{
ucTmpData = inMGAdac(MGA1064_SPAREREG);
usleep(1000);
ulIterationMax--;
}
}
}
static void
MGAG200WBRestoreFromModeSwitch(ScrnInfoPtr pScrn)
{
MGAPtr pMga = MGAPTR(pScrn);
unsigned char ucTmpData = 0;
// 1- The first step is to ensure that the vrsten and hrsten are set
OUTREG8(MGAREG_CRTCEXT_INDEX, 0x01);
ucTmpData = INREG8(MGAREG_CRTCEXT_DATA);
OUTREG8(MGAREG_CRTCEXT_DATA, ucTmpData | 0x88);
// 2- The second step is is to assert the rstlvl2
ucTmpData = inMGAdac(MGA1064_REMHEADCTL2);
ucTmpData |= 0x08;
outMGAdac(MGA1064_REMHEADCTL2, ucTmpData);
// - Wait for 10 us
usleep(10);
// 3- The next step is is to deassert the rstlvl2
ucTmpData &= ~0x08;
outMGAdac(MGA1064_REMHEADCTL2, ucTmpData);
// - Wait for 10 us
usleep(10);
// 4- The fourth step is to remove the mask of scan request
// This will be done by deasserting the remfreqmsk bit (XSPAREREG<7>)
ucTmpData = inMGAdac(MGA1064_SPAREREG);
ucTmpData &= ~0x80;
outMGAdac(MGA1064_SPAREREG, ucTmpData);
// 5- Finally, we are putting back a 0 on the misc<0> line.
ucTmpData = inMGAdac(MGA1064_GEN_IO_DATA);
ucTmpData &= ~0x10;
outMGAdac(MGA1064_GEN_IO_DATA, ucTmpData);
}
/**
* Calculate the PLL settings (m, n, p, s).
*
* For more information, refer to the Matrox "MGA1064SG Developer
* Specification" (document 10524-MS-0100). chapter 5.7.8. "PLLs Clocks
* Generators"
*
* \param f_out Desired clock frequency, measured in kHz.
* \param best_m Value of PLL 'm' register.
* \param best_n Value of PLL 'n' register.
* \param p Value of PLL 'p' register.
* \param s Value of PLL 's' filter register (pix pll clock only).
*/
static void
MGAGCalcClock ( ScrnInfoPtr pScrn, long f_out,
int *best_m, int *best_n, int *p, int *s )
{
MGAPtr pMga = MGAPTR(pScrn);
int m, n;
double f_vco;
double m_err, calc_f;
const double ref_freq = (double) pMga->bios.pll_ref_freq;
const int feed_div_max = 127;
const int in_div_min = 1;
const int post_div_max = 7;
int feed_div_min;
int in_div_max;
switch( pMga->Chipset )
{
case PCI_CHIP_MGA1064:
feed_div_min = 100;
in_div_max = 31;
break;
case PCI_CHIP_MGAG400:
case PCI_CHIP_MGAG550:
feed_div_min = 7;
in_div_max = 31;
break;
case PCI_CHIP_MGAG200_SE_A_PCI:
case PCI_CHIP_MGAG200_SE_B_PCI:
case PCI_CHIP_MGAG100:
case PCI_CHIP_MGAG100_PCI:
case PCI_CHIP_MGAG200:
case PCI_CHIP_MGAG200_PCI:
default:
feed_div_min = 7;
in_div_max = 6;
break;
}
/* Make sure that f_min <= f_out */
if ( f_out < ( pMga->bios.pixel.min_freq / 8))
f_out = pMga->bios.pixel.min_freq / 8;
/*
* f_pll = f_vco / (p+1)
* Choose p so that
* pMga->bios.pixel.min_freq <= f_vco <= pMga->bios.pixel.max_freq
* we don't have to bother checking for this maximum limit.
*/
f_vco = ( double ) f_out;
for ( *p = 0; *p <= post_div_max && f_vco < pMga->bios.pixel.min_freq;
*p = *p * 2 + 1, f_vco *= 2.0);
/* Initial amount of error for frequency maximum */
m_err = f_out;
/* Search for the different values of ( m ) */
for ( m = in_div_min ; m <= in_div_max ; m++ )
{
/* see values of ( n ) which we can't use */
for ( n = feed_div_min; n <= feed_div_max; n++ )
{
calc_f = ref_freq * (n + 1) / (m + 1) ;
/*
* Pick the closest frequency.
*/
if ( abs(calc_f - f_vco) < m_err ) {
m_err = abs(calc_f - f_vco);
*best_m = m;
*best_n = n;
}
}
}
/* Now all the calculations can be completed */
f_vco = ref_freq * (*best_n + 1) / (*best_m + 1);
/* Adjustments for filtering pll feed back */
if ( (50000.0 <= f_vco)
&& (f_vco < 100000.0) )
*s = 0;
if ( (100000.0 <= f_vco)
&& (f_vco < 140000.0) )
*s = 1;
if ( (140000.0 <= f_vco)
&& (f_vco < 180000.0) )
*s = 2;
if ( (180000.0 <= f_vco) )
*s = 3;
#ifdef DEBUG
xf86DrvMsg(pScrn->scrnIndex, X_INFO,
"f_out_requ =%ld f_pll_real=%.1f f_vco=%.1f n=0x%x m=0x%x p=0x%x s=0x%x\n",
f_out, (f_vco / (*p + 1)), f_vco, *best_n, *best_m, *p, *s );
#endif
}
/*
* MGAGSetPCLK - Set the pixel (PCLK) clock.
*/
static void
MGAGSetPCLK( ScrnInfoPtr pScrn, long f_out )
{
MGAPtr pMga = MGAPTR(pScrn);
MGARegPtr pReg = &pMga->ModeReg;
/* Pixel clock values */
int m, n, p, s;
m = n = p = s = 0;
if(MGAISGx50(pMga)) {
pReg->Clock = f_out;
return;
}
if (pMga->is_G200SE) {
MGAG200SEComputePLLParam(pScrn, f_out, &m, &n, &p);
pReg->DacRegs[ MGA1064_PIX_PLLC_M ] = m;
pReg->DacRegs[ MGA1064_PIX_PLLC_N ] = n;
pReg->DacRegs[ MGA1064_PIX_PLLC_P ] = p;
} else if (pMga->is_G200EV) {
MGAG200EVComputePLLParam(pScrn, f_out, &m, &n, &p);
pReg->PllM = m;
pReg->PllN = n;
pReg->PllP = p;
} else if (pMga->is_G200WB) {
MGAG200WBComputePLLParam(pScrn, f_out, &m, &n, &p);
pReg->PllM = m;
pReg->PllN = n;
pReg->PllP = p;
} else {
/* Do the calculations for m, n, p and s */
MGAGCalcClock( pScrn, f_out, &m, &n, &p, &s );
/* Values for the pixel clock PLL registers */
pReg->DacRegs[ MGA1064_PIX_PLLC_M ] = m & 0x1F;
pReg->DacRegs[ MGA1064_PIX_PLLC_N ] = n & 0x7F;
pReg->DacRegs[ MGA1064_PIX_PLLC_P ] = (p & 0x07) |
((s & 0x03) << 3);
}
}
/*
* MGAGInit
*/
static Bool
MGAGInit(ScrnInfoPtr pScrn, DisplayModePtr mode)
{
/*
* initial values of the DAC registers
*/
const static unsigned char initDAC[] = {
/* 0x00: */ 0, 0, 0, 0, 0, 0, 0x00, 0,
/* 0x08: */ 0, 0, 0, 0, 0, 0, 0, 0,
/* 0x10: */ 0, 0, 0, 0, 0, 0, 0, 0,
/* 0x18: */ 0x00, 0, 0xC9, 0xFF, 0xBF, 0x20, 0x1F, 0x20,
/* 0x20: */ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
/* 0x28: */ 0x00, 0x00, 0x00, 0x00, 0, 0, 0, 0x40,
/* 0x30: */ 0x00, 0xB0, 0x00, 0xC2, 0x34, 0x14, 0x02, 0x83,
/* 0x38: */ 0x00, 0x93, 0x00, 0x77, 0x00, 0x00, 0x00, 0x3A,
/* 0x40: */ 0, 0, 0, 0, 0, 0, 0, 0,
/* 0x48: */ 0, 0, 0, 0, 0, 0, 0, 0
};
int i;
int hd, hs, he, ht, vd, vs, ve, vt, wd;
int BppShift;
MGAPtr pMga;
MGARegPtr pReg;
vgaRegPtr pVga;
MGAFBLayout *pLayout;
xMODEINFO ModeInfo;
ModeInfo.ulDispWidth = mode->HDisplay;
ModeInfo.ulDispHeight = mode->VDisplay;
ModeInfo.ulFBPitch = mode->HDisplay;
ModeInfo.ulBpp = pScrn->bitsPerPixel;
ModeInfo.flSignalMode = 0;
ModeInfo.ulPixClock = mode->Clock;
ModeInfo.ulHFPorch = mode->HSyncStart - mode->HDisplay;
ModeInfo.ulHSync = mode->HSyncEnd - mode->HSyncStart;
ModeInfo.ulHBPorch = mode->HTotal - mode->HSyncEnd;
ModeInfo.ulVFPorch = mode->VSyncStart - mode->VDisplay;
ModeInfo.ulVSync = mode->VSyncEnd - mode->VSyncStart;
ModeInfo.ulVBPorch = mode->VTotal - mode->VSyncEnd;
pMga = MGAPTR(pScrn);
pReg = &pMga->ModeReg;
pVga = &VGAHWPTR(pScrn)->ModeReg;
pLayout = &pMga->CurrentLayout;
BppShift = pMga->BppShifts[(pLayout->bitsPerPixel >> 3) - 1];
MGA_NOT_HAL(
/* Allocate the DacRegs space if not done already */
if (pReg->DacRegs == NULL) {
pReg->DacRegs = xnfcalloc(DACREGSIZE, 1);
}
for (i = 0; i < DACREGSIZE; i++) {
pReg->DacRegs[i] = initDAC[i];
}
); /* MGA_NOT_HAL */
switch(pMga->Chipset)
{
case PCI_CHIP_MGA1064:
pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x04;
pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x44;
pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x18;
pReg->Option = 0x5F094F21;
pReg->Option2 = 0x00000000;
break;
case PCI_CHIP_MGAG100:
case PCI_CHIP_MGAG100_PCI:
pReg->DacRegs[MGA1064_VREF_CTL] = 0x03;
if(pMga->HasSDRAM) {
if(pMga->OverclockMem) {
/* 220 Mhz */
pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x06;
pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x38;
pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x18;
} else {
/* 203 Mhz */
pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x01;
pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x0E;
pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x18;
}
pReg->Option = 0x404991a9;
} else {
if(pMga->OverclockMem) {
/* 143 Mhz */
pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x06;
pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x24;
pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x10;
} else {
/* 124 Mhz */
pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x04;
pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x16;
pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x08;
}
pReg->Option = 0x4049d121;
}
pReg->Option2 = 0x0000007;
break;
case PCI_CHIP_MGAG400:
case PCI_CHIP_MGAG550:
#ifdef USEMGAHAL
MGA_HAL(break;);
#endif
if (MGAISGx50(pMga))
break;
if(pMga->Dac.maxPixelClock == 360000) { /* G400 MAX */
if(pMga->OverclockMem) {
/* 150/200 */
pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x05;
pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x42;
pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x18;
pReg->Option3 = 0x019B8419;
pReg->Option = 0x50574120;
} else {
/* 125/166 */
pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x02;
pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x1B;
pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x18;
pReg->Option3 = 0x019B8419;
pReg->Option = 0x5053C120;
}
} else {
if(pMga->OverclockMem) {
/* 125/166 */
pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x02;
pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x1B;
pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x18;
pReg->Option3 = 0x019B8419;
pReg->Option = 0x5053C120;
} else {
/* 110/166 */
pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x13;
pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x7A;
pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x08;
pReg->Option3 = 0x0190a421;
pReg->Option = 0x50044120;
}
}
if(pMga->HasSDRAM)
pReg->Option &= ~(1 << 14);
pReg->Option2 = 0x01003000;
break;
case PCI_CHIP_MGAG200_SE_A_PCI:
case PCI_CHIP_MGAG200_SE_B_PCI:
#ifdef USEMGAHAL
MGA_HAL(break;);
#endif
pReg->DacRegs[ MGA1064_VREF_CTL ] = 0x03;
pReg->DacRegs[MGA1064_PIX_CLK_CTL] =
MGA1064_PIX_CLK_CTL_SEL_PLL;
pReg->DacRegs[MGA1064_MISC_CTL] =
MGA1064_MISC_CTL_DAC_EN |
MGA1064_MISC_CTL_VGA8 |
MGA1064_MISC_CTL_DAC_RAM_CS;
if (pMga->HasSDRAM)
pReg->Option = 0x40049120;
pReg->Option2 = 0x00008000;
break;
case PCI_CHIP_MGAG200_WINBOND_PCI:
pReg->DacRegs[MGA1064_VREF_CTL] = 0x07;
pReg->Option = 0x41049120;
pReg->Option2 = 0x0000b000;
break;
case PCI_CHIP_MGAG200_EV_PCI:
pReg->DacRegs[MGA1064_PIX_CLK_CTL] =
MGA1064_PIX_CLK_CTL_SEL_PLL;
pReg->DacRegs[MGA1064_MISC_CTL] =
MGA1064_MISC_CTL_VGA8 |
MGA1064_MISC_CTL_DAC_RAM_CS;
pReg->Option = 0x00000120;
pReg->Option2 = 0x0000b000;
break;
case PCI_CHIP_MGAG200:
case PCI_CHIP_MGAG200_PCI:
default:
#ifdef USEMGAHAL
MGA_HAL(break;);
#endif
if(pMga->OverclockMem) {
/* 143 Mhz */
pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x06;
pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x24;
pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x10;
} else {
/* 124 Mhz */
pReg->DacRegs[ MGA1064_SYS_PLL_M ] = 0x04;
pReg->DacRegs[ MGA1064_SYS_PLL_N ] = 0x2D;
pReg->DacRegs[ MGA1064_SYS_PLL_P ] = 0x19;
}
pReg->Option2 = 0x00008000;
if(pMga->HasSDRAM)
pReg->Option = 0x40499121;
else
pReg->Option = 0x4049cd21;
break;
}
MGA_NOT_HAL(
/* must always have the pci retries on but rely on
polling to keep them from occuring */
pReg->Option &= ~0x20000000;
switch(pLayout->bitsPerPixel)
{
case 8:
pReg->DacRegs[ MGA1064_MUL_CTL ] = MGA1064_MUL_CTL_8bits;
break;
case 16:
pReg->DacRegs[ MGA1064_MUL_CTL ] = MGA1064_MUL_CTL_16bits;
if ( (pLayout->weight.red == 5) && (pLayout->weight.green == 5)
&& (pLayout->weight.blue == 5) ) {
pReg->DacRegs[ MGA1064_MUL_CTL ] = MGA1064_MUL_CTL_15bits;
}
break;
case 24:
pReg->DacRegs[ MGA1064_MUL_CTL ] = MGA1064_MUL_CTL_24bits;
break;
case 32:
pReg->DacRegs[ MGA1064_MUL_CTL ] = MGA1064_MUL_CTL_32_24bits;
break;
default:
FatalError("MGA: unsupported depth\n");
}
); /* MGA_NOT_HAL */
/*
* This will initialize all of the generic VGA registers.
*/
if (!vgaHWInit(pScrn, mode))
return(FALSE);
/*
* Here all of the MGA registers get filled in.
*/
hd = (mode->CrtcHDisplay >> 3) - 1;
hs = (mode->CrtcHSyncStart >> 3) - 1;
he = (mode->CrtcHSyncEnd >> 3) - 1;
ht = (mode->CrtcHTotal >> 3) - 1;
vd = mode->CrtcVDisplay - 1;
vs = mode->CrtcVSyncStart - 1;
ve = mode->CrtcVSyncEnd - 1;
vt = mode->CrtcVTotal - 2;
/* HTOTAL & 0x7 equal to 0x6 in 8bpp or 0x4 in 24bpp causes strange
* vertical stripes
*/
if((ht & 0x07) == 0x06 || (ht & 0x07) == 0x04)
ht++;
if (pLayout->bitsPerPixel == 24)
wd = (pLayout->displayWidth * 3) >> (4 - BppShift);
else
wd = pLayout->displayWidth >> (4 - BppShift);
pReg->ExtVga[0] = 0;
pReg->ExtVga[5] = 0;
if (mode->Flags & V_INTERLACE)
{
pReg->ExtVga[0] = 0x80;
pReg->ExtVga[5] = (hs + he - ht) >> 1;
wd <<= 1;
vt &= 0xFFFE;
}
pReg->ExtVga[0] |= (wd & 0x300) >> 4;
pReg->ExtVga[1] = (((ht - 4) & 0x100) >> 8) |
((hd & 0x100) >> 7) |
((hs & 0x100) >> 6) |
(ht & 0x40);
pReg->ExtVga[2] = ((vt & 0xc00) >> 10) |
((vd & 0x400) >> 8) |
((vd & 0xc00) >> 7) |
((vs & 0xc00) >> 5) |
((vd & 0x400) >> 3); /* linecomp */
if (pLayout->bitsPerPixel == 24)
pReg->ExtVga[3] = (((1 << BppShift) * 3) - 1) | 0x80;
else
pReg->ExtVga[3] = ((1 << BppShift) - 1) | 0x80;
pReg->ExtVga[4] = 0;
if (pMga->is_G200WB){
pReg->ExtVga[1] |= 0x88;
}
pVga->CRTC[0] = ht - 4;
pVga->CRTC[1] = hd;
pVga->CRTC[2] = hd;
pVga->CRTC[3] = (ht & 0x1F) | 0x80;
pVga->CRTC[4] = hs;
pVga->CRTC[5] = ((ht & 0x20) << 2) | (he & 0x1F);
pVga->CRTC[6] = vt & 0xFF;
pVga->CRTC[7] = ((vt & 0x100) >> 8 ) |
((vd & 0x100) >> 7 ) |
((vs & 0x100) >> 6 ) |
((vd & 0x100) >> 5 ) |
((vd & 0x100) >> 4 ) | /* linecomp */
((vt & 0x200) >> 4 ) |
((vd & 0x200) >> 3 ) |
((vs & 0x200) >> 2 );
pVga->CRTC[9] = ((vd & 0x200) >> 4) |
((vd & 0x200) >> 3); /* linecomp */
pVga->CRTC[16] = vs & 0xFF;
pVga->CRTC[17] = (ve & 0x0F) | 0x20;
pVga->CRTC[18] = vd & 0xFF;
pVga->CRTC[19] = wd & 0xFF;
pVga->CRTC[21] = vd & 0xFF;
pVga->CRTC[22] = (vt + 1) & 0xFF;
pVga->CRTC[24] = vd & 0xFF; /* linecomp */
MGA_NOT_HAL(pReg->DacRegs[MGA1064_CURSOR_BASE_ADR_LOW] = pMga->FbCursorOffset >> 10);
MGA_NOT_HAL(pReg->DacRegs[MGA1064_CURSOR_BASE_ADR_HI] = pMga->FbCursorOffset >> 18);
if (pMga->SyncOnGreen) {
MGA_NOT_HAL(
pReg->DacRegs[MGA1064_GEN_CTL] &=
~MGA1064_GEN_CTL_SYNC_ON_GREEN_DIS;
);
pReg->ExtVga[3] |= 0x40;
}
/* select external clock */
pVga->MiscOutReg |= 0x0C;
MGA_NOT_HAL(
if (mode->Flags & V_DBLSCAN)
pVga->CRTC[9] |= 0x80;
if(MGAISGx50(pMga)) {
OUTREG(MGAREG_ZORG, 0);
}
MGAGSetPCLK(pScrn, mode->Clock);
); /* MGA_NOT_HAL */
/* This disables the VGA memory aperture */
pVga->MiscOutReg &= ~0x02;
/* Urgh. Why do we define our own xMODEINFO structure instead
* of just passing the blinkin' DisplayModePtr? If we're going to
* just cut'n'paste routines from the HALlib, it would be better
* just to strip the MacroVision stuff out of the HALlib and release
* that, surely?
*/
/********************* Second Crtc programming **************/
/* Writing values to crtc2[] array */
if (pMga->SecondCrtc)
{
MGACRTC2Get(pScrn, &ModeInfo);
MGACRTC2GetPitch(pScrn, &ModeInfo);
MGACRTC2GetDisplayStart(pScrn, &ModeInfo,0,0,0);
}
#if X_BYTE_ORDER == X_BIG_ENDIAN
/* Disable byte-swapping for big-endian architectures - the XFree
driver seems to like a little-endian framebuffer -ReneR */
/* pReg->Option |= 0x80000000; */
pReg->Option &= ~0x80000000;
#endif
return(TRUE);
}
/*
* MGAGLoadPalette
*/
static void
MGAPaletteLoadCallback(ScrnInfoPtr pScrn)
{
MGAPtr pMga = MGAPTR(pScrn);
MGAPaletteInfo *pal = pMga->palinfo;
int i;
while (!(INREG8(0x1FDA) & 0x08));
for(i = 0; i < 256; i++) {
if(pal->update) {
outMGAdreg(MGA1064_WADR_PAL, i);
outMGAdreg(MGA1064_COL_PAL, pal->red);
outMGAdreg(MGA1064_COL_PAL, pal->green);
outMGAdreg(MGA1064_COL_PAL, pal->blue);
pal->update = FALSE;
}
pal++;
}
pMga->PaletteLoadCallback = NULL;
}
void MGAGLoadPalette(
ScrnInfoPtr pScrn,
int numColors,
int *indices,
LOCO *colors,
VisualPtr pVisual
){
MGAPtr pMga = MGAPTR(pScrn);
if(pMga->Chipset == PCI_CHIP_MGAG400 || pMga->Chipset == PCI_CHIP_MGAG550){
/* load them at the retrace in the block handler instead to
work around some problems with static on the screen */
while(numColors--) {
pMga->palinfo[*indices].update = TRUE;
pMga->palinfo[*indices].red = colors[*indices].red;
pMga->palinfo[*indices].green = colors[*indices].green;
pMga->palinfo[*indices].blue = colors[*indices].blue;
indices++;
}
pMga->PaletteLoadCallback = MGAPaletteLoadCallback;
return;
} else {
while(numColors--) {
outMGAdreg(MGA1064_WADR_PAL, *indices);
outMGAdreg(MGA1064_COL_PAL, colors[*indices].red);
outMGAdreg(MGA1064_COL_PAL, colors[*indices].green);
outMGAdreg(MGA1064_COL_PAL, colors[*indices].blue);
indices++;
}
}
}
/*
* MGAGRestorePalette
*/
static void
MGAGRestorePalette(ScrnInfoPtr pScrn, unsigned char* pntr)
{
MGAPtr pMga = MGAPTR(pScrn);
int i = 768;
outMGAdreg(MGA1064_WADR_PAL, 0x00);
while(i--)
outMGAdreg(MGA1064_COL_PAL, *(pntr++));
}
/*
* MGAGSavePalette
*/
static void
MGAGSavePalette(ScrnInfoPtr pScrn, unsigned char* pntr)
{
MGAPtr pMga = MGAPTR(pScrn);
int i = 768;
outMGAdreg(MGA1064_RADR_PAL, 0x00);
while(i--)
*(pntr++) = inMGAdreg(MGA1064_COL_PAL);
}
/*
* MGAGRestore
*
* This function restores a video mode. It basically writes out all of
* the registers that have previously been saved.
*/
static void
MGAGRestore(ScrnInfoPtr pScrn, vgaRegPtr vgaReg, MGARegPtr mgaReg,
Bool restoreFonts)
{
int i;
MGAPtr pMga = MGAPTR(pScrn);
CARD32 optionMask;
MGA_NOT_HAL(
if (pMga->is_G200WB)
{
MGAG200WBPrepareForModeSwitch(pScrn);
}
);
/*
* Pixel Clock needs to be restored regardless if we use
* HALLib or not. HALlib doesn't do a good job restoring
* VESA modes. MATROX: hint, hint.
*/
if (MGAISGx50(pMga) && mgaReg->Clock) {
/*
* With HALlib program only when restoring to console!
* To test this we check for Clock == 0.
*/
MGAG450SetPLLFreq(pScrn, mgaReg->Clock);
mgaReg->PIXPLLCSaved = FALSE;
}
if(!pMga->SecondCrtc) {
/* Do not set the memory config for primary cards as it
should be correct already. Only on little endian architectures
since we need to modify the byteswap bit. -ReneR */
#if X_BYTE_ORDER == X_BIG_ENDIAN
optionMask = OPTION1_MASK;
#else
optionMask = (pMga->Primary) ? OPTION1_MASK_PRIMARY : OPTION1_MASK;
#endif
MGA_NOT_HAL(
/*
* Code is needed to get things back to bank zero.
*/
/* restore DAC registers
* according to the docs we shouldn't write to reserved regs*/
for (i = 0; i < DACREGSIZE; i++) {
if( (i <= 0x03) ||
(i == 0x07) ||
(i == 0x0b) ||
(i == 0x0f) ||
((i >= 0x13) && (i <= 0x17)) ||
(i == 0x1b) ||
(i == 0x1c) ||
((i >= 0x1f) && (i <= 0x29)) ||
((i >= 0x30) && (i <= 0x37)) ||
(MGAISGx50(pMga) && !mgaReg->PIXPLLCSaved &&
((i == 0x2c) || (i == 0x2d) || (i == 0x2e) ||
(i == 0x4c) || (i == 0x4d) || (i == 0x4e))))
continue;
if (pMga->is_G200SE
&& ((i == 0x2C) || (i == 0x2D) || (i == 0x2E)))
continue;
if ( (pMga->is_G200EV || pMga->is_G200WB) &&
(i >= 0x44) && (i <= 0x4E))
continue;
outMGAdac(i, mgaReg->DacRegs[i]);
}
if (!MGAISGx50(pMga)) {
/* restore pci_option register */
#ifdef XSERVER_LIBPCIACCESS
pci_device_cfg_write_bits(pMga->PciInfo, optionMask,
mgaReg->Option, PCI_OPTION_REG);
if (pMga->Chipset != PCI_CHIP_MGA1064) {
pci_device_cfg_write_bits(pMga->PciInfo, OPTION2_MASK,
mgaReg->Option2, PCI_MGA_OPTION2);
if (pMga->Chipset == PCI_CHIP_MGAG400
|| pMga->Chipset == PCI_CHIP_MGAG550) {
pci_device_cfg_write_bits(pMga->PciInfo, OPTION3_MASK,
mgaReg->Option3,
PCI_MGA_OPTION3);
}
}
#else
/* restore pci_option register */
pciSetBitsLong(pMga->PciTag, PCI_OPTION_REG, optionMask,
mgaReg->Option);
if (pMga->Chipset != PCI_CHIP_MGA1064)
pciSetBitsLong(pMga->PciTag, PCI_MGA_OPTION2, OPTION2_MASK,
mgaReg->Option2);
if (pMga->Chipset == PCI_CHIP_MGAG400 || pMga->Chipset == PCI_CHIP_MGAG550)
pciSetBitsLong(pMga->PciTag, PCI_MGA_OPTION3, OPTION3_MASK,
mgaReg->Option3);
#endif
}
if (pMga->is_G200EV) {
MGAG200EVPIXPLLSET(pScrn, mgaReg);
} else if (pMga->is_G200WB) {
MGAG200WBPIXPLLSET(pScrn, mgaReg);
}
); /* MGA_NOT_HAL */
#ifdef USEMGAHAL
/*
* Work around another bug in HALlib: it doesn't restore the
* DAC width register correctly. MATROX: hint, hint.
*/
MGA_HAL(
outMGAdac(MGA1064_MUL_CTL,mgaReg->DacRegs[0]);
outMGAdac(MGA1064_MISC_CTL,mgaReg->DacRegs[1]);
if (!MGAISGx50(pMga)) {
outMGAdac(MGA1064_PIX_PLLC_M,mgaReg->DacRegs[2]);
outMGAdac(MGA1064_PIX_PLLC_N,mgaReg->DacRegs[3]);
outMGAdac(MGA1064_PIX_PLLC_P,mgaReg->DacRegs[4]);
}
);
#endif
/* restore CRTCEXT regs */
for (i = 0; i < 6; i++)
OUTREG16(MGAREG_CRTCEXT_INDEX, (mgaReg->ExtVga[i] << 8) | i);
/* This handles restoring the generic VGA registers. */
if (pMga->is_G200SE) {
MGAG200SERestoreMode(pScrn, vgaReg);
if (restoreFonts)
MGAG200SERestoreFonts(pScrn, vgaReg);
} else {
vgaHWRestore(pScrn, vgaReg,
VGA_SR_MODE | (restoreFonts ? VGA_SR_FONTS : 0));
}
MGAGRestorePalette(pScrn, vgaReg->DAC);
if (pMga->is_G200EV) {
OUTREG16(MGAREG_CRTCEXT_INDEX, 6);
OUTREG16(MGAREG_CRTCEXT_DATA, 0);
}
/*
* this is needed to properly restore start address
*/
OUTREG16(MGAREG_CRTCEXT_INDEX, (mgaReg->ExtVga[0] << 8) | 0);
MGA_NOT_HAL(
if (pMga->is_G200WB)
{
MGAG200WBRestoreFromModeSwitch(pScrn);
}
);
} else {
/* Second Crtc */
xMODEINFO ModeInfo;
MGA_NOT_HAL(
/* Enable Dual Head */
MGACRTC2Set(pScrn, &ModeInfo);
MGAEnableSecondOutPut(pScrn, &ModeInfo);
MGACRTC2SetPitch(pScrn, &ModeInfo);
MGACRTC2SetDisplayStart(pScrn, &ModeInfo,0,0,0);
for (i = 0x80; i <= 0xa0; i ++) {
if (i== 0x8d) {
i = 0x8f;
continue;
}
outMGAdac(i, mgaReg->dac2[ i - 0x80]);
}
); /* MGA_NOT_HAL */
}
#ifdef DEBUG
ErrorF("Setting DAC:");
for (i=0; i<DACREGSIZE; i++) {
#if 1
if(!(i%16)) ErrorF("\n%02X: ",i);
ErrorF("%02X ", mgaReg->DacRegs[i]);
#else
if(!(i%8)) ErrorF("\n%02X: ",i);
ErrorF("0x%02X, ", mgaReg->DacRegs[i]);
#endif
}
ErrorF("\nOPTION = %08lX\n", mgaReg->Option);
ErrorF("OPTION2 = %08lX\n", mgaReg->Option2);
ErrorF("CRTCEXT:");
for (i=0; i<6; i++) ErrorF(" %02X", mgaReg->ExtVga[i]);
ErrorF("\n");
#endif
}
/*
* MGAGSave
*
* This function saves the video state.
*/
static void
MGAGSave(ScrnInfoPtr pScrn, vgaRegPtr vgaReg, MGARegPtr mgaReg,
Bool saveFonts)
{
int i;
MGAPtr pMga = MGAPTR(pScrn);
/*
* Pixel Clock needs to be restored regardless if we use
* HALLib or not. HALlib doesn't do a good job restoring
* VESA modes (s.o.). MATROX: hint, hint.
*/
if (MGAISGx50(pMga)) {
mgaReg->Clock = MGAG450SavePLLFreq(pScrn);
}
if(pMga->SecondCrtc == TRUE) {
for(i = 0x80; i < 0xa0; i++)
mgaReg->dac2[i-0x80] = inMGAdac(i);
return;
}
MGA_NOT_HAL(
/* Allocate the DacRegs space if not done already */
if (mgaReg->DacRegs == NULL) {
mgaReg->DacRegs = xnfcalloc(DACREGSIZE, 1);
}
); /* MGA_NOT_HAL */
/*
* Code is needed to get back to bank zero.
*/
OUTREG16(MGAREG_CRTCEXT_INDEX, 0x0004);
/*
* This function will handle creating the data structure and filling
* in the generic VGA portion.
*/
if (pMga->is_G200SE) {
MGAG200SESaveMode(pScrn, vgaReg);
if (saveFonts)
MGAG200SESaveFonts(pScrn, vgaReg);
} else {
vgaHWSave(pScrn, vgaReg, VGA_SR_MODE |
(saveFonts ? VGA_SR_FONTS : 0));
}
MGAGSavePalette(pScrn, vgaReg->DAC);
/*
* Work around another bug in HALlib: it doesn't restore the
* DAC width register correctly.
*/
#ifdef USEMGAHAL
/*
* Work around another bug in HALlib: it doesn't restore the
* DAC width register correctly (s.o.). MATROX: hint, hint.
*/
MGA_HAL(
if (mgaReg->DacRegs == NULL) {
mgaReg->DacRegs = xnfcalloc(MGAISGx50(pMga) ? 2 : 5, 1);
}
mgaReg->DacRegs[0] = inMGAdac(MGA1064_MUL_CTL);
mgaReg->DacRegs[1] = inMGAdac(MGA1064_MISC_CTL);
if (!MGAISGx50(pMga)) {
mgaReg->DacRegs[2] = inMGAdac(MGA1064_PIX_PLLC_M);
mgaReg->DacRegs[3] = inMGAdac(MGA1064_PIX_PLLC_N);
mgaReg->DacRegs[4] = inMGAdac(MGA1064_PIX_PLLC_P);
}
);
#endif
MGA_NOT_HAL(
/*
* The port I/O code necessary to read in the extended registers.
*/
for (i = 0; i < DACREGSIZE; i++)
mgaReg->DacRegs[i] = inMGAdac(i);
if (pMga->is_G200WB) {
mgaReg->PllM = inMGAdac(MGA1064_WB_PIX_PLLC_M);
mgaReg->PllN = inMGAdac(MGA1064_WB_PIX_PLLC_N);
mgaReg->PllP = inMGAdac(MGA1064_WB_PIX_PLLC_P);
} else if (pMga->is_G200EV) {
mgaReg->PllM = inMGAdac(MGA1064_EV_PIX_PLLC_M);
mgaReg->PllN = inMGAdac(MGA1064_EV_PIX_PLLC_N);
mgaReg->PllP = inMGAdac(MGA1064_EV_PIX_PLLC_P);
}
mgaReg->PIXPLLCSaved = TRUE;
#ifdef XSERVER_LIBPCIACCESS
pci_device_cfg_read_u32(pMga->PciInfo, & mgaReg->Option,
PCI_OPTION_REG);
pci_device_cfg_read_u32(pMga->PciInfo, & mgaReg->Option2,
PCI_MGA_OPTION2);
#else
mgaReg->Option = pciReadLong(pMga->PciTag, PCI_OPTION_REG);
mgaReg->Option2 = pciReadLong(pMga->PciTag, PCI_MGA_OPTION2);
#endif
if (pMga->Chipset == PCI_CHIP_MGAG400 || pMga->Chipset == PCI_CHIP_MGAG550)
#ifdef XSERVER_LIBPCIACCESS
pci_device_cfg_read_u32(pMga->PciInfo, & mgaReg->Option3,
PCI_MGA_OPTION3);
#else
mgaReg->Option3 = pciReadLong(pMga->PciTag, PCI_MGA_OPTION3);
#endif
); /* MGA_NOT_HAL */
for (i = 0; i < 6; i++)
{
OUTREG8(MGAREG_CRTCEXT_INDEX, i);
mgaReg->ExtVga[i] = INREG8(MGAREG_CRTCEXT_DATA);
}
#ifdef DEBUG
ErrorF("Saved values:\nDAC:");
for (i=0; i<DACREGSIZE; i++) {
#if 1
if(!(i%16)) ErrorF("\n%02X: ",i);
ErrorF("%02X ", mgaReg->DacRegs[i]);
#else
if(!(i%8)) ErrorF("\n%02X: ",i);
ErrorF("0x%02X, ", mgaReg->DacRegs[i]);
#endif
}
ErrorF("\nOPTION = %08lX\n:", mgaReg->Option);
ErrorF("OPTION2 = %08lX\nCRTCEXT:", mgaReg->Option2);
for (i=0; i<6; i++) ErrorF(" %02X", mgaReg->ExtVga[i]);
ErrorF("\n");
#endif
}
/****
*** HW Cursor
*/
static void
MGAGLoadCursorImage(ScrnInfoPtr pScrn, unsigned char *src)
{
MGAPtr pMga = MGAPTR(pScrn);
CARD32 *dst = (CARD32*)(pMga->FbBase + pMga->FbCursorOffset);
int i = 128;
/* swap bytes in each line */
while( i-- ) {
*dst++ = (src[4] << 24) | (src[5] << 16) | (src[6] << 8) | src[7];
*dst++ = (src[0] << 24) | (src[1] << 16) | (src[2] << 8) | src[3];
src += 8;
}
}
static void
MGAGShowCursor(ScrnInfoPtr pScrn)
{
MGAPtr pMga = MGAPTR(pScrn);
/* Enable cursor - X-Windows mode */
outMGAdac(MGA1064_CURSOR_CTL, 0x03);
}
static void
MGAGShowCursorG100(ScrnInfoPtr pScrn)
{
MGAPtr pMga = MGAPTR(pScrn);
/* Enable cursor - X-Windows mode */
outMGAdac(MGA1064_CURSOR_CTL, 0x01);
}
static void
MGAGHideCursor(ScrnInfoPtr pScrn)
{
MGAPtr pMga = MGAPTR(pScrn);
/* Disable cursor */
outMGAdac(MGA1064_CURSOR_CTL, 0x00);
}
static void
MGAGSetCursorPosition(ScrnInfoPtr pScrn, int x, int y)
{
MGAPtr pMga = MGAPTR(pScrn);
x += 64;
y += 64;
#ifdef USEMGAHAL
MGA_HAL(
x += pMga->HALGranularityOffX;
y += pMga->HALGranularityOffY;
);
#endif
/* cursor update must never occurs during a retrace period (pp 4-160) */
while( INREG( MGAREG_Status ) & 0x08 );
/* Output position - "only" 12 bits of location documented */
OUTREG8( RAMDAC_OFFSET + MGA1064_CUR_XLOW, (x & 0xFF));
OUTREG8( RAMDAC_OFFSET + MGA1064_CUR_XHI, (x & 0xF00) >> 8);
OUTREG8( RAMDAC_OFFSET + MGA1064_CUR_YLOW, (y & 0xFF));
OUTREG8( RAMDAC_OFFSET + MGA1064_CUR_YHI, (y & 0xF00) >> 8);
}
static void
MGAGSetCursorColors(ScrnInfoPtr pScrn, int bg, int fg)
{
MGAPtr pMga = MGAPTR(pScrn);
/* Background color */
outMGAdac(MGA1064_CURSOR_COL0_RED, (bg & 0x00FF0000) >> 16);
outMGAdac(MGA1064_CURSOR_COL0_GREEN, (bg & 0x0000FF00) >> 8);
outMGAdac(MGA1064_CURSOR_COL0_BLUE, (bg & 0x000000FF));
/* Foreground color */
outMGAdac(MGA1064_CURSOR_COL1_RED, (fg & 0x00FF0000) >> 16);
outMGAdac(MGA1064_CURSOR_COL1_GREEN, (fg & 0x0000FF00) >> 8);
outMGAdac(MGA1064_CURSOR_COL1_BLUE, (fg & 0x000000FF));
}
static void
MGAGSetCursorColorsG100(ScrnInfoPtr pScrn, int bg, int fg)
{
MGAPtr pMga = MGAPTR(pScrn);
/* Background color */
outMGAdac(MGA1064_CURSOR_COL1_RED, (bg & 0x00FF0000) >> 16);
outMGAdac(MGA1064_CURSOR_COL1_GREEN, (bg & 0x0000FF00) >> 8);
outMGAdac(MGA1064_CURSOR_COL1_BLUE, (bg & 0x000000FF));
/* Foreground color */
outMGAdac(MGA1064_CURSOR_COL2_RED, (fg & 0x00FF0000) >> 16);
outMGAdac(MGA1064_CURSOR_COL2_GREEN, (fg & 0x0000FF00) >> 8);
outMGAdac(MGA1064_CURSOR_COL2_BLUE, (fg & 0x000000FF));
}
static Bool
MGAGUseHWCursor(ScreenPtr pScrn, CursorPtr pCurs)
{
MGAPtr pMga = MGAPTR(xf86Screens[pScrn->myNum]);
/* This needs to detect if its on the second dac */
if( XF86SCRNINFO(pScrn)->currentMode->Flags & V_DBLSCAN )
return FALSE;
if( pMga->SecondCrtc == TRUE )
return FALSE;
return TRUE;
}
/*
* According to mga-1064g.pdf pp215-216 (4-179 & 4-180) the low bits of
* XGENIODATA and XGENIOCTL are connected to the 4 DDC pins, but don't say
* which VGA line is connected to each DDC pin, so I've had to guess.
*
* DDC1 support only requires DDC_SDA_MASK,
* DDC2 support requires DDC_SDA_MASK and DDC_SCL_MASK
*
* If we want DDC on second head (P2) then we must use DDC2 protocol (I2C)
*
* Be careful, DDC1 and DDC2 refer to protocols, DDC_P1 and DDC_P2 refer to
* DDC data coming in on which videoport on the card
*/
#define DDC_P1_SDA_MASK (1 << 1)
#define DDC_P1_SCL_MASK (1 << 3)
static const struct mgag_i2c_private {
unsigned sda_mask;
unsigned scl_mask;
} i2c_priv[] = {
{ (1 << 1), (1 << 3) },
{ (1 << 0), (1 << 2) },
{ (1 << 4), (1 << 5) },
{ (1 << 0), (1 << 1) }, /* G200SE, G200EV and G200WB I2C bits */
};
static unsigned int
MGAG_ddc1Read(ScrnInfoPtr pScrn)
{
MGAPtr pMga = MGAPTR(pScrn);
unsigned char val;
int i2c_index;
if (pMga->is_G200SE || pMga->is_G200WB || pMga->is_G200EV)
i2c_index = 3;
else
i2c_index = 0;
const struct mgag_i2c_private *p = & i2c_priv[i2c_index];
/* Define the SDA as an input */
outMGAdacmsk(MGA1064_GEN_IO_CTL, ~(p->scl_mask | p->sda_mask), 0);
/* wait for Vsync */
if (pMga->is_G200SE) {
usleep(4);
} else {
while( INREG( MGAREG_Status ) & 0x08 );
while( ! (INREG( MGAREG_Status ) & 0x08) );
}
/* Get the result */
val = (inMGAdac(MGA1064_GEN_IO_DATA) & p->sda_mask);
return val;
}
static void
MGAG_I2CGetBits(I2CBusPtr b, int *clock, int *data)
{
ScrnInfoPtr pScrn = xf86Screens[b->scrnIndex];
MGAPtr pMga = MGAPTR(pScrn);
const struct mgag_i2c_private *p =
(struct mgag_i2c_private *) b->DriverPrivate.ptr;
unsigned char val;
/* Get the result. */
val = inMGAdac(MGA1064_GEN_IO_DATA);
*clock = (val & p->scl_mask) != 0;
*data = (val & p->sda_mask) != 0;
#ifdef DEBUG
ErrorF("MGAG_I2CGetBits(%p,...) val=0x%x, returns clock %d, data %d\n", b, val, *clock, *data);
#endif
}
/*
* ATTENTION! - the DATA and CLOCK lines need to be tri-stated when
* high. Therefore turn off output driver for the line to set line
* to high. High signal is maintained by a 15k Ohm pull-up resistor.
*/
static void
MGAG_I2CPutBits(I2CBusPtr b, int clock, int data)
{
ScrnInfoPtr pScrn = xf86Screens[b->scrnIndex];
MGAPtr pMga = MGAPTR(pScrn);
const struct mgag_i2c_private *p =
(struct mgag_i2c_private *) b->DriverPrivate.ptr;
unsigned char drv, val;
val = (clock ? p->scl_mask : 0) | (data ? p->sda_mask : 0);
drv = ((!clock) ? p->scl_mask : 0) | ((!data) ? p->sda_mask : 0);
/* Write the values */
outMGAdacmsk(MGA1064_GEN_IO_CTL, ~(p->scl_mask | p->sda_mask) , drv);
outMGAdacmsk(MGA1064_GEN_IO_DATA, ~(p->scl_mask | p->sda_mask) , val);
#ifdef DEBUG
ErrorF("MGAG_I2CPutBits(%p, %d, %d) val=0x%x\n", b, clock, data, val);
#endif
}
static I2CBusPtr
mgag_create_i2c_bus(const char *name, unsigned bus_index, unsigned scrn_index)
{
I2CBusPtr I2CPtr = xf86CreateI2CBusRec();
if (I2CPtr != NULL) {
I2CPtr->BusName = name;
I2CPtr->scrnIndex = scrn_index;
I2CPtr->I2CPutBits = MGAG_I2CPutBits;
I2CPtr->I2CGetBits = MGAG_I2CGetBits;
I2CPtr->AcknTimeout = 5;
I2CPtr->DriverPrivate.ptr = & i2c_priv[bus_index];
if (!xf86I2CBusInit(I2CPtr)) {
xf86DestroyI2CBusRec(I2CPtr, TRUE, TRUE);
I2CPtr = NULL;
}
}
return I2CPtr;
}
Bool
MGAG_i2cInit(ScrnInfoPtr pScrn)
{
MGAPtr pMga = MGAPTR(pScrn);
if (pMga->SecondCrtc == FALSE) {
int i2c_index;
if (pMga->is_G200SE || pMga->is_G200WB || pMga->is_G200EV)
i2c_index = 3;
else
i2c_index = 0;
pMga->DDC_Bus1 = mgag_create_i2c_bus("DDC P1",
i2c_index, pScrn->scrnIndex);
return (pMga->DDC_Bus1 != NULL);
} else {
/* We have a dual head setup on G-series, set up DDC #2. */
pMga->DDC_Bus2 = mgag_create_i2c_bus("DDC P2", 1, pScrn->scrnIndex);
if (pMga->DDC_Bus2 != NULL) {
/* 0xA0 is DDC EEPROM address */
if (!xf86I2CProbeAddress(pMga->DDC_Bus2, 0xA0)) {
xf86DrvMsg(pScrn->scrnIndex, X_INFO, "DDC #2 unavailable -> TV cable connected or no monitor connected!\n");
pMga->Crtc2IsTV = TRUE; /* assume for now. We need to fix HAL interactions. */
}
}
/* Then try to set up MAVEN bus. */
pMga->Maven_Bus = mgag_create_i2c_bus("MAVEN", 2, pScrn->scrnIndex);
if (pMga->Maven_Bus != NULL) {
pMga->Maven = NULL;
pMga->Maven_Version = 0;
/* Try to detect the MAVEN. */
if (xf86I2CProbeAddress(pMga->Maven_Bus, MAVEN_READ)) {
I2CDevPtr dp = xf86CreateI2CDevRec();
if (dp) {
I2CByte maven_ver;
dp->DevName = "MGA-TVO";
dp->SlaveAddr = MAVEN_WRITE;
dp->pI2CBus = pMga->Maven_Bus;
if (!xf86I2CDevInit(dp)) {
xf86DestroyI2CDevRec(dp, TRUE);
} else {
pMga->Maven = dp;
if (MGAMavenRead(pScrn, 0xB2, &maven_ver)) {
/* heuristic stolen from matroxfb */
pMga->Maven_Version = (maven_ver < 0x14)
? 'B' : 'C';
xf86DrvMsg(pScrn->scrnIndex, X_INFO,
"MAVEN revision MGA-TVO-%c detected (0x%x)\n",
pMga->Maven_Version, maven_ver);
} else {
xf86DrvMsg(pScrn->scrnIndex, X_INFO, "Failed to determine MAVEN hardware version!\n");
}
}
}
}
if (pMga->Maven == NULL) {
xf86DrvMsg(pScrn->scrnIndex, X_INFO,
"Failed to register MGA-TVO I2C device!\n");
}
}
}
return TRUE;
}
/*
* MGAGRamdacInit
* Handle broken G100 special.
*/
static void
MGAGRamdacInit(ScrnInfoPtr pScrn)
{
MGAPtr pMga = MGAPTR(pScrn);
MGARamdacPtr MGAdac = &pMga->Dac;
MGAdac->isHwCursor = TRUE;
MGAdac->CursorOffscreenMemSize = 1024;
MGAdac->CursorMaxWidth = 64;
MGAdac->CursorMaxHeight = 64;
MGAdac->SetCursorPosition = MGAGSetCursorPosition;
MGAdac->LoadCursorImage = MGAGLoadCursorImage;
MGAdac->HideCursor = MGAGHideCursor;
if ((pMga->Chipset == PCI_CHIP_MGAG100)
|| (pMga->Chipset == PCI_CHIP_MGAG100)) {
MGAdac->SetCursorColors = MGAGSetCursorColorsG100;
MGAdac->ShowCursor = MGAGShowCursorG100;
} else {
MGAdac->SetCursorColors = MGAGSetCursorColors;
MGAdac->ShowCursor = MGAGShowCursor;
}
MGAdac->UseHWCursor = MGAGUseHWCursor;
MGAdac->CursorFlags =
#if X_BYTE_ORDER == X_LITTLE_ENDIAN
HARDWARE_CURSOR_BIT_ORDER_MSBFIRST |
#endif
HARDWARE_CURSOR_SOURCE_MASK_INTERLEAVE_64 |
HARDWARE_CURSOR_TRUECOLOR_AT_8BPP;
MGAdac->LoadPalette = MGAGLoadPalette;
MGAdac->RestorePalette = MGAGRestorePalette;
MGAdac->maxPixelClock = pMga->bios.pixel.max_freq;
MGAdac->ClockFrom = X_PROBED;
/* Disable interleaving and set the rounding value */
pMga->Interleave = FALSE;
pMga->Roundings[0] = 64;
pMga->Roundings[1] = 32;
pMga->Roundings[2] = 64;
pMga->Roundings[3] = 32;
/* Clear Fast bitblt flag */
pMga->HasFBitBlt = FALSE;
}
void MGAGSetupFuncs(ScrnInfoPtr pScrn)
{
MGAPtr pMga = MGAPTR(pScrn);
pMga->PreInit = MGAGRamdacInit;
pMga->Save = MGAGSave;
pMga->Restore = MGAGRestore;
pMga->ModeInit = MGAGInit;
pMga->ddc1Read = MGAG_ddc1Read;
/* vgaHWddc1SetSpeed will only work if the card is in VGA mode */
pMga->DDC1SetSpeed = vgaHWddc1SetSpeedWeak();
pMga->i2cInit = MGAG_i2cInit;
}
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