/********************************************************************* * G450: This is for Dual Head. * Matrox Graphics * Author : Luugi Marsan **********************************************************************/ #ifdef HAVE_CONFIG_H #include "config.h" #endif /* All drivers should typically include these */ #include "xf86.h" #include "xf86_OSproc.h" /* Drivers that need to access the PCI config space directly need this */ #include "xf86Pci.h" #include "mga_reg.h" #include "mga.h" #define MNP_TABLE_SIZE 64 #define CLKSEL_MGA 0x0c #define PLLLOCK 0x40 /* Misc field*/ #define IOADDSEL 0x01 #define RAMMAPEN 0x02 #define CLKSEL_25175 0x00 #define CLKSEL_28322 0x04 #define CLKSEL_MGA 0x0c #define VIDEODIS 0x10 #define HPGODDEV 0x20 #define HSYNCPOL 0x40 #define VSYNCPOL 0x80 /* XSYNCCTRL field */ #define XSYNCCTRL_DAC1HSPOL_SHIFT 2 #define XSYNCCTRL_DAC1HSPOL_MASK (1 << XSYNCCTRL_DAC1HSPOL_SHIFT) #define XSYNCCTRL_DAC1HSPOL_NEG (1 << XSYNCCTRL_DAC1HSPOL_SHIFT) #define XSYNCCTRL_DAC1HSPOL_POS 0 #define XSYNCCTRL_DAC1VSPOL_SHIFT 3 #define XSYNCCTRL_DAC1VSPOL_MASK (1 << XSYNCCTRL_DAC1VSPOL_SHIFT) #define XSYNCCTRL_DAC1VSPOL_NEG (1 << XSYNCCTRL_DAC1VSPOL_SHIFT) #define XSYNCCTRL_DAC1VSPOL_POS 0 #define XSYNCCTRL_DAC2HSPOL_SHIFT 6 #define XSYNCCTRL_DAC2HSPOL_MASK (1 << XSYNCCTRL_DAC2HSPOL_SHIFT) #define XSYNCCTRL_DAC2HSPOL_NEG (1 << XSYNCCTRL_DAC2HSPOL_SHIFT) #define XSYNCCTRL_DAC2HSPOL_POS 0 #define XSYNCCTRL_DAC2VSPOL_SHIFT 7 #define XSYNCCTRL_DAC2VSPOL_MASK (1 << XSYNCCTRL_DAC2VSPOL_SHIFT) #define XSYNCCTRL_DAC2VSPOL_NEG (1 << XSYNCCTRL_DAC2VSPOL_SHIFT) #define XSYNCCTRL_DAC2VSPOL_POS 0 #define XSYNCCTRL_DAC1HSOFF_SHIFT 0 #define XSYNCCTRL_DAC1HSOFF_MASK (1 << XSYNCCTRL_DAC1HSOFF_SHIFT) #define XSYNCCTRL_DAC1HSOFF_OFF (1 << XSYNCCTRL_DAC1HSOFF_SHIFT) #define XSYNCCTRL_DAC1HSOFF_ON 1 #define XSYNCCTRL_DAC1VSOFF_SHIFT 1 #define XSYNCCTRL_DAC1VSOFF_MASK (1 << XSYNCCTRL_DAC1VSOFF_SHIFT) #define XSYNCCTRL_DAC1VSOFF_OFF (1 << XSYNCCTRL_DAC1VSOFF_SHIFT) #define XSYNCCTRL_DAC1VSOFF_ON 0 #define XSYNCCTRL_DAC2HSOFF_SHIFT 4 #define XSYNCCTRL_DAC2HSOFF_MASK (1 << XSYNCCTRL_DAC2HSOFF_SHIFT) #define XSYNCCTRL_DAC2HSOFF_OFF (1 << XSYNCCTRL_DAC2HSOFF_SHIFT) #define XSYNCCTRL_DAC2HSOFF_ON 0 #define XSYNCCTRL_DAC2VSOFF_SHIFT 5 #define XSYNCCTRL_DAC2VSOFF_MASK (1 << XSYNCCTRL_DAC2VSOFF_SHIFT) #define XSYNCCTRL_DAC2VSOFF_OFF (1 << XSYNCCTRL_DAC2VSOFF_SHIFT) #define XSYNCCTRL_DAC2VSOFF_ON 0 #define POS_HSYNC 0x00000004 #define POS_VSYNC 0x00000008 /* Set CRTC 2*/ /* Uses the mode given by xfree86 to setup the registry */ /* Does not write to the hard yet */ void MGACRTC2Get(ScrnInfoPtr pScrn, xMODEINFO *pModeInfo) { MGAPtr pMga = MGAPTR(pScrn); MGARegPtr pReg = &pMga->ModeReg; xMODEINFO tmpModeInfo; CARD32 ulHTotal; CARD32 ulHDispEnd; CARD32 ulHBlkStr; CARD32 ulHSyncStr; CARD32 ulHSyncEnd; CARD32 ulVTotal; CARD32 ulVDispEnd; CARD32 ulVBlkStr; CARD32 ulVSyncStr; CARD32 ulVSyncEnd; CARD32 ulOffset; CARD32 ulCtl2; CARD32 ulDataCtl2; CARD32 ulDispHeight = pModeInfo->ulDispHeight; #ifdef DEBUG ErrorF("ENTER MGACRTC2Get\n"); #endif tmpModeInfo = *pModeInfo; /* First compute the Values */ ulHTotal = tmpModeInfo.ulDispWidth + tmpModeInfo.ulHFPorch + tmpModeInfo.ulHBPorch + tmpModeInfo.ulHSync; ulHDispEnd = tmpModeInfo.ulDispWidth; ulHBlkStr = ulHDispEnd; ulHSyncStr = ulHBlkStr + tmpModeInfo.ulHFPorch; ulHSyncEnd = ulHSyncStr + tmpModeInfo.ulHSync; ulVTotal = ulDispHeight + tmpModeInfo.ulVFPorch + tmpModeInfo.ulVBPorch + tmpModeInfo.ulVSync; ulVDispEnd = ulDispHeight; ulVBlkStr = ulVDispEnd; ulVSyncStr = ulVBlkStr + tmpModeInfo.ulVFPorch; ulVSyncEnd = ulVSyncStr + tmpModeInfo.ulVSync; ulOffset = tmpModeInfo.ulFBPitch; ulCtl2 = INREG(MGAREG_C2CTL); ulDataCtl2 = INREG(MGAREG_C2DATACTL); ulCtl2 &= 0xFF1FFFFF; ulDataCtl2 &= 0xFFFFFF00; switch (tmpModeInfo.ulBpp) { case 15: ulCtl2 |= 0x00200000; ulOffset <<= 1; break; case 16: ulCtl2 |= 0x00400000; ulOffset <<= 1; break; case 32: ulCtl2 |= 0x00800000; ulOffset <<= 2; break; } pReg->crtc2[ MGAREG2_C2CTL ] = ulCtl2; pReg->crtc2[ MGAREG2_C2DATACTL ] = ulDataCtl2; /* Horizontal Value*/ pReg->crtc2[MGAREG2_C2HPARAM] = (((ulHDispEnd-8) << 16) | (ulHTotal-8)) ; pReg->crtc2[MGAREG2_C2HSYNC] = (((ulHSyncEnd-8) << 16) | (ulHSyncStr-8)) ; /*Vertical Value*/ pReg->crtc2[MGAREG2_C2VPARAM] = (((ulVDispEnd-1) << 16) | (ulVTotal-1)) ; pReg->crtc2[MGAREG2_C2VSYNC] = (((ulVSyncEnd-1) << 16) | (ulVSyncStr-1)) ; /** Offset value*/ pReg->crtc2[MGAREG2_C2OFFSET] = ulOffset; #ifdef DEBUG ErrorF("EXIT MGACRTC2Get\n"); #endif } /* Set CRTC 2*/ /* Writes to the hardware */ void MGACRTC2Set(ScrnInfoPtr pScrn, xMODEINFO *pModeInfo) { MGAPtr pMga = MGAPTR(pScrn); MGARegPtr pReg = &pMga->ModeReg; #ifdef DEBUG ErrorF("ENTER MGACRTC2Set\n"); #endif /* This writes to the registers manually */ OUTREG(MGAREG_C2CTL, pReg->crtc2[MGAREG2_C2CTL]); OUTREG(MGAREG_C2DATACTL,pReg->crtc2[MGAREG2_C2DATACTL]); /* Horizontal Value*/ OUTREG(MGAREG_C2HPARAM, pReg->crtc2[MGAREG2_C2HPARAM]); OUTREG(MGAREG_C2HSYNC, pReg->crtc2[MGAREG2_C2HSYNC]); /*Vertical Value*/ OUTREG(MGAREG_C2VPARAM, pReg->crtc2[MGAREG2_C2VPARAM]); OUTREG(MGAREG_C2VSYNC, pReg->crtc2[MGAREG2_C2VSYNC]); /** Offset value*/ OUTREG(MGAREG_C2OFFSET, pReg->crtc2[MGAREG2_C2OFFSET]); #ifdef DEBUG ErrorF("EXIT MGACRTC2Set\n"); #endif } /* Set CRTC2 on the right output */ void MGAEnableSecondOutPut(ScrnInfoPtr pScrn, xMODEINFO *pModeInfo) { CARD8 ucByte, ucXDispCtrl; CARD32 ulC2CTL; MGAPtr pMga = MGAPTR(pScrn); MGARegPtr pReg; pReg = &pMga->ModeReg; #ifdef DEBUG ErrorF("ENTER MGAEnableSecondOutPut\n"); #endif /* Route Video PLL on second CRTC */ ulC2CTL = INREG( MGAREG_C2CTL); /*--- Disable Pixel clock oscillations On Crtc1 */ OUTREG( MGAREG_C2CTL, ulC2CTL | MGAREG_C2CTL_PIXCLKDIS_MASK); /*--- Have to wait minimum time (2 acces will be ok) */ (void) INREG( MGAREG_Status); (void) INREG( MGAREG_Status); ulC2CTL &= ~MGAREG_C2CTL_PIXCLKSEL_MASK; ulC2CTL &= ~MGAREG_C2CTL_PIXCLKSELH_MASK; ulC2CTL |= MGAREG_C2CTL_PIXCLKSEL_VIDEOPLL; OUTREG( MGAREG_C2CTL, ulC2CTL); /*--- Enable Pixel clock oscillations on CRTC2*/ ulC2CTL &= ~MGAREG_C2CTL_PIXCLKDIS_MASK; OUTREG( MGAREG_C2CTL, ulC2CTL); /* We don't use MISC synch pol, must be 0*/ ucByte = INREG8( MGAREG_MEM_MISC_READ); OUTREG8(MGAREG_MEM_MISC_WRITE, (CARD8)(ucByte & ~(HSYNCPOL| VSYNCPOL) )); /* Set Rset to 0.7 V*/ ucByte = inMGAdac(MGA1064_GEN_IO_CTL); ucByte &= ~0x40; pReg->DacRegs[MGA1064_GEN_IO_CTL] = ucByte; outMGAdac (MGA1064_GEN_IO_CTL, ucByte); ucByte = inMGAdac( MGA1064_GEN_IO_DATA); ucByte &= ~0x40; pReg->DacRegs[MGA1064_GEN_IO_DATA]= ucByte; outMGAdac (MGA1064_GEN_IO_DATA, ucByte); /* Since G550 can swap outputs at BIOS initialisation, we must check which * DAC is 'logically' used as the secondary (don't assume its DAC2 anymore) */ ulC2CTL = INREG(MGAREG_C2CTL); ucXDispCtrl = inMGAdac(MGA1064_DISP_CTL); ucXDispCtrl &= ~MGA1064_DISP_CTL_DAC2OUTSEL_MASK; if (!pMga->SecondOutput) { /* Route Crtc2 on Output1 */ ucXDispCtrl |= MGA1064_DISP_CTL_DAC2OUTSEL_CRTC1; ulC2CTL |= MGAREG_C2CTL_CRTCDACSEL_CRTC2; } else { /* Route Crtc2 on Output2*/ ucXDispCtrl |= MGA1064_DISP_CTL_DAC2OUTSEL_CRTC2; ulC2CTL &= ~MGAREG_C2CTL_CRTCDACSEL_MASK; } /* Enable CRTC2*/ ulC2CTL |= MGAREG_C2CTL_C2_EN; pReg->dac2[ MGA1064_DISP_CTL - 0x80] = ucXDispCtrl; OUTREG( MGAREG_C2CTL, ulC2CTL); /* Set DAC2 Synch polarity*/ ucByte = inMGAdac( MGA1064_SYNC_CTL); ucByte &= ~(XSYNCCTRL_DAC2HSPOL_MASK | XSYNCCTRL_DAC2VSPOL_MASK); if ( !(pModeInfo->flSignalMode & POS_HSYNC) ) { ucByte |= XSYNCCTRL_DAC2HSPOL_NEG; } if ( !(pModeInfo->flSignalMode & POS_VSYNC) ) { ucByte |= XSYNCCTRL_DAC2VSPOL_NEG; } /* Enable synch output*/ ucByte &= ~(XSYNCCTRL_DAC2HSOFF_MASK | XSYNCCTRL_DAC2VSOFF_MASK); pReg->dac2[ MGA1064_SYNC_CTL - 0x80] = ucByte; /* Power up DAC2, Fifo. * The TMDS is powered down here, which is likely wrong. */ pReg->dac2[MGA1064_PWR_CTL - 0x80] = MGA1064_PWR_CTL_DAC2_EN | MGA1064_PWR_CTL_VID_PLL_EN | MGA1064_PWR_CTL_RFIFO_EN | MGA1064_PWR_CTL_CFIFO_EN; #ifdef DEBUG ErrorF("EXIT MGAEnableSecondOutPut\n"); #endif } void MGACRTC2GetPitch (ScrnInfoPtr pScrn, xMODEINFO *pModeInfo) { CARD32 ulOffset; MGAPtr pMga = MGAPTR(pScrn); MGARegPtr pReg; pReg = &pMga->ModeReg; #ifdef DEBUG ErrorF("ENTER MGACRTC2GetPitch\n"); #endif switch(pModeInfo->ulBpp) { case 15: case 16: ulOffset = pModeInfo->ulFBPitch * 2; break; case 32: ulOffset = pModeInfo->ulFBPitch * 4; break; default: /* Muffle compiler */ ulOffset = pModeInfo->ulFBPitch; break; } pReg->crtc2[MGAREG2_C2OFFSET] = ulOffset; #ifdef DEBUG ErrorF("EXIT MGACRTC2GetPitch\n"); #endif } void MGACRTC2SetPitch (ScrnInfoPtr pScrn, xMODEINFO *pModeInfo) { MGAPtr pMga = MGAPTR(pScrn); MGARegPtr pReg; pReg = &pMga->ModeReg; #ifdef DEBUG ErrorF("ENTER CRCT2SetPitch\n"); #endif OUTREG(MGAREG_C2OFFSET, pReg->crtc2[MGAREG2_C2OFFSET]); #ifdef DEBUG ErrorF("EXIT CRCT2SetPitch\n"); #endif } /* Set Display Start*/ /* base in bytes*/ void MGACRTC2GetDisplayStart (ScrnInfoPtr pScrn, xMODEINFO *pModeInfo, CARD32 base, CARD32 ulX, CARD32 ulY) { CARD32 ulAddress; MGAPtr pMga = MGAPTR(pScrn); MGARegPtr pReg; pReg = &pMga->ModeReg; #ifdef DEBUG ErrorF("ENTER MGACRTC2GetDisplayStart\n"); #endif pReg = &pMga->ModeReg; ulAddress = (pModeInfo->ulFBPitch * ulY + ulX); switch(pModeInfo->ulBpp) { case 15: case 16: ulAddress <<= 1; break; case 32: ulAddress <<= 2; break; } pReg->crtc2[MGAREG2_C2STARTADD0] = ulAddress + base; #ifdef DEBUG ErrorF("EXIT MGACRTC2GetDisplayStart\n"); #endif } void MGACRTC2SetDisplayStart (ScrnInfoPtr pScrn, xMODEINFO *pModeInfo, CARD32 base, CARD32 ulX, CARD32 ulY) { MGAPtr pMga = MGAPTR(pScrn); MGARegPtr pReg; pReg = &pMga->ModeReg; #ifdef DEBUG ErrorF("ENTER MGACRTC2SetDisplayStart\n"); #endif OUTREG(MGAREG_C2STARTADD0, pReg->crtc2[MGAREG2_C2STARTADD0]); #ifdef DEBUG ErrorF("EXIT MGACRTC2SetDisplayStart\n"); #endif }