#include "Xv.h" #include "dix.h" #include "dixstruct.h" #include "savage_driver.h" #include "savage_streams.h" #define STREAMS_TRACE 4 static void SavageInitStreamsOld(ScrnInfoPtr pScrn); static void SavageInitStreamsNew(ScrnInfoPtr pScrn); static void OverlayTwisterInit(ScrnInfoPtr pScrn); static void OverlayParamInit(ScrnInfoPtr pScrn); static void InitStreamsForExpansion(ScrnInfoPtr pScrn); static void PatchEnableSPofPanel(ScrnInfoPtr pScrn); static void SavageInitSecondaryStreamOld(ScrnInfoPtr pScrn) { SavagePtr psav = SAVPTR(pScrn); vgaHWPtr hwp; unsigned short vgaIOBase, vgaCRIndex, vgaCRReg; int offset = (psav->FBStart2nd - psav->FBStart); int colorkey = pScrn->colorKey; int pitch = pScrn->displayWidth * DEPTH_BPP(DEPTH_2ND(pScrn))/8; CARD8 cr92; hwp = VGAHWPTR(pScrn); vgaHWGetIOBase(hwp); vgaIOBase = hwp->IOBase; vgaCRIndex = vgaIOBase + 4; vgaCRReg = vgaIOBase + 5; OUTREG(COL_CHROMA_KEY_CONTROL_REG, 0x37000000 | (colorkey & 0xFF)); OUTREG(CHROMA_KEY_UPPER_BOUND_REG, 0x00000000 | (colorkey & 0xFF)); OUTREG(BLEND_CONTROL_REG, 0x05000000 ); OUTREG(SSTREAM_CONTROL_REG, SSTREAMS_MODE(DEPTH_BPP(DEPTH_2ND(pScrn))) << 24 | pScrn->displayWidth ); OUTREG(SSTREAM_STRETCH_REG, 1 << 15); OUTREG(SSTREAM_VSCALE_REG, 1 << 15); OUTREG(SSTREAM_LINES_REG, pScrn->virtualY ); OUTREG(SSTREAM_VINITIAL_REG, 0 ); OUTREG(SSTREAM_FBADDR0_REG, offset & 0x1ffffff & ~BASE_PAD); OUTREG(SSTREAM_FBADDR1_REG, 0 ); OUTREG(SSTREAM_STRIDE_REG, pitch); OUTREG(SSTREAM_WINDOW_START_REG, OS_XY(0,0)); OUTREG(SSTREAM_WINDOW_SIZE_REG, OS_WH(pScrn->displayWidth, pScrn->virtualY)); pitch = (pitch + 7) / 8; VGAOUT8(vgaCRIndex, 0x92); cr92 = VGAIN8(vgaCRReg); VGAOUT8(vgaCRReg, (cr92 & 0x40) | (pitch >> 8) | 0x80); VGAOUT8(vgaCRIndex, 0x93); VGAOUT8(vgaCRReg, pitch); OUTREG(STREAMS_FIFO_REG, 2 | 25 << 5 | 32 << 11); } static void SavageInitSecondaryStreamNew(ScrnInfoPtr pScrn) { SavagePtr psav = SAVPTR(pScrn); vgaHWPtr hwp; unsigned short vgaIOBase, vgaCRIndex, vgaCRReg; int offset = (psav->FBStart2nd - psav->FBStart); int colorkey = pScrn->colorKey; int pitch = pScrn->displayWidth * DEPTH_BPP(DEPTH_2ND(pScrn))/8; CARD8 cr92; hwp = VGAHWPTR(pScrn); vgaHWGetIOBase(hwp); vgaIOBase = hwp->IOBase; vgaCRIndex = vgaIOBase + 4; vgaCRReg = vgaIOBase + 5; OUTREG( SEC_STREAM_CKEY_LOW, 0x47000000 | (colorkey & 0xFF)); OUTREG( SEC_STREAM_CKEY_UPPER, 0x47000000 | (colorkey & 0xFF)); OUTREG( BLEND_CONTROL, SSTREAMS_MODE(DEPTH_BPP(DEPTH_2ND(pScrn))) << 9 | 0x08 ); if( psav->Chipset == S3_SAVAGE2000 ) { OUTREG(SEC_STREAM_HSCALING, 1 << 15); OUTREG(SEC_STREAM_HSCALE_NORMALIZE, 2048 << 16 ); OUTREG(SEC_STREAM_VSCALING, 1 << 15); } else { OUTREG(SEC_STREAM_HSCALING,((pScrn->displayWidth &0xfff)<<20) | 1<<15); /* BUGBUG need to add 00040000 if src stride > 2048 */ OUTREG(SEC_STREAM_VSCALING,((pScrn->virtualY &0xfff)<<20) | 1<<15); } OUTREG(SEC_STREAM_FBUF_ADDR0, offset & (0x7ffffff & ~BASE_PAD)); OUTREG(SEC_STREAM_STRIDE, pitch); OUTREG(SEC_STREAM_WINDOW_START, OS_XY(0,0)); /* ? width may need to be increased by 1 */ OUTREG(SEC_STREAM_WINDOW_SZ, OS_WH(pScrn->displayWidth, pScrn->virtualY)); pitch = (pitch + 7) / 8; VGAOUT8(vgaCRIndex, 0x92); cr92 = VGAIN8(vgaCRReg); VGAOUT8(vgaCRReg, (cr92 & 0x40) | (pitch >> 8) | 0x80); VGAOUT8(vgaCRIndex, 0x93); VGAOUT8(vgaCRReg, pitch); } void SavageInitSecondaryStream(ScrnInfoPtr pScrn) { SavagePtr psav = SAVPTR(pScrn); if( S3_SAVAGE_MOBILE_SERIES(psav->Chipset) || (psav->Chipset == S3_SAVAGE2000) ) SavageInitSecondaryStreamNew(pScrn); else SavageInitSecondaryStreamOld(pScrn); } void SavageInitStreamsOld(ScrnInfoPtr pScrn) { SavagePtr psav = SAVPTR(pScrn); /*unsigned long jDelta;*/ unsigned long format = 0; /* * For the OLD streams engine, several of these registers * cannot be touched unless streams are on. Seems backwards to me; * I'd want to set 'em up, then cut 'em loose. */ xf86ErrorFVerb(STREAMS_TRACE, "SavageInitStreams\n" ); if (psav->FBStart2nd) { unsigned long jDelta = pScrn->displayWidth; format = 0 << 24; OUTREG( PSTREAM_STRIDE_REG, jDelta ); OUTREG( PSTREAM_FBSIZE_REG, jDelta * pScrn->virtualY >> 3 ); OUTREG( PSTREAM_FBADDR0_REG, pScrn->fbOffset ); OUTREG( PSTREAM_FBADDR1_REG, 0 ); } else { /*jDelta = pScrn->displayWidth * (pScrn->bitsPerPixel + 7) / 8;*/ switch( pScrn->depth ) { case 8: format = 0 << 24; break; case 15: format = 3 << 24; break; case 16: format = 5 << 24; break; case 24: format = 7 << 24; break; } OUTREG(PSTREAM_FBSIZE_REG, pScrn->virtualY * pScrn->virtualX * (pScrn->bitsPerPixel >> 3)); } OUTREG( PSTREAM_WINDOW_START_REG, OS_XY(0,0) ); OUTREG( PSTREAM_WINDOW_SIZE_REG, OS_WH(pScrn->displayWidth, pScrn->virtualY) ); /* OUTREG( PSTREAM_FBADDR0_REG, pScrn->fbOffset ); OUTREG( PSTREAM_FBADDR1_REG, 0 ); */ /*OUTREG( PSTREAM_STRIDE_REG, jDelta );*/ OUTREG( PSTREAM_CONTROL_REG, format ); /*OUTREG( PSTREAM_FBSIZE_REG, jDelta * pScrn->virtualY >> 3 );*/ OUTREG( COL_CHROMA_KEY_CONTROL_REG, 0 ); OUTREG( SSTREAM_CONTROL_REG, 0 ); OUTREG( CHROMA_KEY_UPPER_BOUND_REG, 0 ); OUTREG( SSTREAM_STRETCH_REG, 0 ); OUTREG( COLOR_ADJUSTMENT_REG, 0 ); OUTREG( BLEND_CONTROL_REG, 1 << 24 ); OUTREG( DOUBLE_BUFFER_REG, 0 ); OUTREG( SSTREAM_FBADDR0_REG, 0 ); OUTREG( SSTREAM_FBADDR1_REG, 0 ); OUTREG( SSTREAM_FBADDR2_REG, 0 ); OUTREG( SSTREAM_FBSIZE_REG, 0 ); OUTREG( SSTREAM_STRIDE_REG, 0 ); OUTREG( SSTREAM_VSCALE_REG, 0 ); OUTREG( SSTREAM_LINES_REG, 0 ); OUTREG( SSTREAM_VINITIAL_REG, 0 ); OUTREG( SSTREAM_WINDOW_START_REG, OS_XY(0xfffe, 0xfffe) ); OUTREG( SSTREAM_WINDOW_SIZE_REG, OS_WH(10,2) ); if (S3_MOBILE_TWISTER_SERIES(psav->Chipset) && psav->FPExpansion) { OverlayTwisterInit(pScrn); } } static void SavageInitStreamsNew(ScrnInfoPtr pScrn) { SavagePtr psav = SAVPTR(pScrn); /*unsigned long jDelta;*/ xf86ErrorFVerb(STREAMS_TRACE, "SavageInitStreams\n" ); if ( S3_SAVAGE_MOBILE_SERIES(psav->Chipset) && (psav->DisplayType == MT_LCD) && !psav->CrtOnly && !psav->TvOn ) { OverlayParamInit( pScrn ); } if (psav->IsSecondary) { OUTREG(PRI_STREAM2_BUFFERSIZE, pScrn->virtualX * pScrn->virtualY * (pScrn->bitsPerPixel >> 3)); } else if (psav->IsPrimary){ OUTREG(PRI_STREAM_BUFFERSIZE, pScrn->virtualX * pScrn->virtualY * (pScrn->bitsPerPixel >> 3)); } else { OUTREG(PRI_STREAM_BUFFERSIZE, pScrn->virtualX * pScrn->virtualY * (pScrn->bitsPerPixel >> 3)); #if 0 OUTREG(PRI_STREAM2_BUFFERSIZE, pScrn->virtualX * pScrn->virtualY * (pScrn->bitsPerPixel >> 3)); #endif } if (psav->FBStart2nd) { unsigned long jDelta = pScrn->displayWidth; OUTREG( PRI_STREAM_BUFFERSIZE, jDelta * pScrn->virtualY >> 3 ); OUTREG( PRI_STREAM_FBUF_ADDR0, pScrn->fbOffset ); OUTREG( PRI_STREAM_STRIDE, jDelta ); } if (psav->IsSecondary) { OUTREG( SEC_STREAM2_CKEY_LOW, 0 ); OUTREG( SEC_STREAM2_CKEY_UPPER, 0 ); OUTREG( SEC_STREAM2_HSCALING, 0 ); OUTREG( SEC_STREAM2_VSCALING, 0 ); OUTREG( BLEND_CONTROL, 0 ); OUTREG( SEC_STREAM2_FBUF_ADDR0, 0 ); OUTREG( SEC_STREAM2_FBUF_ADDR1, 0 ); OUTREG( SEC_STREAM2_FBUF_ADDR2, 0 ); OUTREG( SEC_STREAM2_WINDOW_START, 0 ); OUTREG( SEC_STREAM2_WINDOW_SZ, 0 ); /* OUTREG( SEC_STREAM2_BUFFERSIZE, 0 ); */ OUTREG( SEC_STREAM2_OPAQUE_OVERLAY, 0 ); OUTREG( SEC_STREAM2_STRIDE_LPB, 0 ); /* These values specify brightness, contrast, saturation and hue. */ OUTREG( SEC_STREAM2_COLOR_CONVERT1, 0x0000C892 ); OUTREG( SEC_STREAM2_COLOR_CONVERT2, 0x00039F9A ); OUTREG( SEC_STREAM2_COLOR_CONVERT3, 0x01F1547E ); } else if (psav->IsPrimary) { OUTREG( SEC_STREAM_CKEY_LOW, 0 ); OUTREG( SEC_STREAM_CKEY_UPPER, 0 ); OUTREG( SEC_STREAM_HSCALING, 0 ); OUTREG( SEC_STREAM_VSCALING, 0 ); OUTREG( BLEND_CONTROL, 0 ); OUTREG( SEC_STREAM_FBUF_ADDR0, 0 ); OUTREG( SEC_STREAM_FBUF_ADDR1, 0 ); OUTREG( SEC_STREAM_FBUF_ADDR2, 0 ); OUTREG( SEC_STREAM_WINDOW_START, 0 ); OUTREG( SEC_STREAM_WINDOW_SZ, 0 ); /* OUTREG( SEC_STREAM_BUFFERSIZE, 0 ); */ OUTREG( SEC_STREAM_TILE_OFF, 0 ); OUTREG( SEC_STREAM_OPAQUE_OVERLAY, 0 ); OUTREG( SEC_STREAM_STRIDE, 0 ); /* These values specify brightness, contrast, saturation and hue. */ OUTREG( SEC_STREAM_COLOR_CONVERT1, 0x0000C892 ); OUTREG( SEC_STREAM_COLOR_CONVERT2, 0x00039F9A ); OUTREG( SEC_STREAM_COLOR_CONVERT3, 0x01F1547E ); } else { OUTREG( SEC_STREAM_CKEY_LOW, 0 ); OUTREG( SEC_STREAM_CKEY_UPPER, 0 ); OUTREG( SEC_STREAM_HSCALING, 0 ); OUTREG( SEC_STREAM_VSCALING, 0 ); OUTREG( BLEND_CONTROL, 0 ); OUTREG( SEC_STREAM_FBUF_ADDR0, 0 ); OUTREG( SEC_STREAM_FBUF_ADDR1, 0 ); OUTREG( SEC_STREAM_FBUF_ADDR2, 0 ); OUTREG( SEC_STREAM_WINDOW_START, 0 ); OUTREG( SEC_STREAM_WINDOW_SZ, 0 ); /* OUTREG( SEC_STREAM_BUFFERSIZE, 0 ); */ OUTREG( SEC_STREAM_TILE_OFF, 0 ); OUTREG( SEC_STREAM_OPAQUE_OVERLAY, 0 ); OUTREG( SEC_STREAM_STRIDE, 0 ); /* These values specify brightness, contrast, saturation and hue. */ OUTREG( SEC_STREAM_COLOR_CONVERT1, 0x0000C892 ); OUTREG( SEC_STREAM_COLOR_CONVERT2, 0x00039F9A ); OUTREG( SEC_STREAM_COLOR_CONVERT3, 0x01F1547E ); #if 0 sleep(1); OUTREG( SEC_STREAM2_CKEY_LOW, 0 ); OUTREG( SEC_STREAM2_CKEY_UPPER, 0 ); OUTREG( SEC_STREAM2_HSCALING, 0 ); OUTREG( SEC_STREAM2_VSCALING, 0 ); OUTREG( BLEND_CONTROL, 0 ); OUTREG( SEC_STREAM2_FBUF_ADDR0, 0 ); OUTREG( SEC_STREAM2_FBUF_ADDR1, 0 ); OUTREG( SEC_STREAM2_FBUF_ADDR2, 0 ); OUTREG( SEC_STREAM2_WINDOW_START, 0 ); OUTREG( SEC_STREAM2_WINDOW_SZ, 0 ); /* OUTREG( SEC_STREAM2_BUFFERSIZE, 0 ); */ OUTREG( SEC_STREAM2_OPAQUE_OVERLAY, 0 ); OUTREG( SEC_STREAM2_STRIDE_LPB, 0 ); /* These values specify brightness, contrast, saturation and hue. */ OUTREG( SEC_STREAM2_COLOR_CONVERT1, 0x0000C892 ); OUTREG( SEC_STREAM2_COLOR_CONVERT2, 0x00039F9A ); OUTREG( SEC_STREAM2_COLOR_CONVERT3, 0x01F1547E ); #endif } } /* * Function to get lcd factor, display offset for overlay use * Input: pScrn; Output: x,yfactor, displayoffset in pScrn */ static void OverlayTwisterInit(ScrnInfoPtr pScrn) { SavagePtr psav = SAVPTR(pScrn); psav->cxScreen = psav->iResX; InitStreamsForExpansion(pScrn); PatchEnableSPofPanel(pScrn); } /* Function to get lcd factor, display offset for overlay use * Input: pScrn; Output: x,yfactor, displayoffset in pScrn */ static void OverlayParamInit(ScrnInfoPtr pScrn) { SavagePtr psav = SAVPTR(pScrn); psav = SAVPTR(pScrn); psav->cxScreen = pScrn->currentMode->HDisplay; InitStreamsForExpansion(pScrn); } static void PatchEnableSPofPanel(ScrnInfoPtr pScrn) { SavagePtr psav = SAVPTR(pScrn); UnLockExtRegs(); if (pScrn->bitsPerPixel == 8) { OUTREG8(CRT_ADDRESS_REG,0x90); OUTREG8(CRT_DATA_REG,INREG8(CRT_DATA_REG)|0x40); } else { OUTREG8(CRT_ADDRESS_REG,0x90); OUTREG8(CRT_DATA_REG,INREG8(CRT_DATA_REG)|0x48); } VerticalRetraceWait(); OUTREG8(CRT_ADDRESS_REG,0x67); OUTREG8(CRT_DATA_REG,(INREG8(CRT_DATA_REG)&0xf3)|0x04); OUTREG8(CRT_ADDRESS_REG,0x65); OUTREG8(CRT_DATA_REG,INREG8(CRT_DATA_REG)|0xC0); if (pScrn->bitsPerPixel == 8) { OUTREG32(PSTREAM_CONTROL_REG,0x00000000); } else { OUTREG32(PSTREAM_CONTROL_REG,0x02000000); } OUTREG32(PSTREAM_WINDOW_SIZE_REG, 0x0); } /* Function to calculate lcd expansion x,y factor and offset for overlay */ static void InitStreamsForExpansion(ScrnInfoPtr pScrn) { SavagePtr psav = SAVPTR(pScrn); int PanelSizeX,PanelSizeY; int ViewPortWidth,ViewPortHeight; int XExpansion, YExpansion; int XFactor, YFactor; int Hstate, Vstate; static CARD32 Xfactors[] = { 0x00010001, 0x00010001, /* 1 */ 0, 0x00090008, /* 3 */ 0x00050004, /* 4 */ 0, 0x00030002, /* 6 */ 0x00020001 /* 7 */ }; static CARD32 Yfactors[] = { 0x00010001, 0x00010001, 0, 0x00060005, 0x00050004, 0x00040003, 0, 0x00030002, 0x00020001, 0x00050002, 0x000C0005, 0x00080003, 0x00090004, 0, 0x00030001, 0x00040001, }; PanelSizeX = psav->PanelX; PanelSizeY = psav->PanelY; ViewPortWidth = pScrn->currentMode->HDisplay; ViewPortHeight = pScrn->currentMode->VDisplay; if( PanelSizeX == 1408 ) PanelSizeX = 1400; XExpansion = 0x00010001; YExpansion = 0x00010001; psav->displayXoffset = 0; psav->displayYoffset = 0; VGAOUT8(0x3C4, HZEXP_COMP_1); Hstate = VGAIN8(0x3C5); VGAOUT8(0x3C4, VTEXP_COMP_1); Vstate = VGAIN8(0x3C5); VGAOUT8(0x3C4, HZEXP_FACTOR_IGA1); XFactor = VGAIN8(0x3C5); VGAOUT8(0x3C4, VTEXP_FACTOR_IGA1); YFactor = VGAIN8(0x3C5); if( Hstate & EC1_EXPAND_ON ) { XExpansion = Xfactors[XFactor>>4]; } if( Vstate & EC1_EXPAND_ON ) { YExpansion = Yfactors[YFactor>>4]; } psav->XExp1 = XExpansion >> 16; psav->XExp2 = XExpansion & 0xFFFF; psav->YExp1 = YExpansion >> 16; psav->YExp2 = YExpansion & 0xFFFF; psav->displayXoffset = ((PanelSizeX - (psav->XExp1 * ViewPortWidth) / psav->XExp2) / 2 + 7) & 0xfff8; psav->displayYoffset = ((PanelSizeY - (psav->YExp1 * ViewPortHeight) / psav->YExp2) / 2); } /* InitStreamsForExpansionPM */ void SavageStreamsOn(ScrnInfoPtr pScrn) { SavagePtr psav = SAVPTR(pScrn); unsigned char jStreamsControl; unsigned short vgaCRIndex = psav->vgaIOBase + 4; unsigned short vgaCRReg = psav->vgaIOBase + 5; xf86ErrorFVerb(STREAMS_TRACE, "SavageStreamsOn\n" ); /* Sequence stolen from streams.c in M7 NT driver */ xf86EnableIO(); /* Unlock extended registers. */ VGAOUT16(vgaCRIndex, 0x4838); VGAOUT16(vgaCRIndex, 0xa039); VGAOUT16(0x3c4, 0x0608); VGAOUT8( vgaCRIndex, EXT_MISC_CTRL2 ); if( S3_SAVAGE_MOBILE_SERIES(psav->Chipset) || (psav->Chipset == S3_SAVAGE2000) ) { SavageInitStreamsNew( pScrn ); jStreamsControl = VGAIN8( vgaCRReg ) | ENABLE_STREAM1; if (psav->IsSecondary) { SelectIGA2(); /* Wait for VBLANK. */ VerticalRetraceWait(); /* Fire up streams! */ VGAOUT16( vgaCRIndex, (jStreamsControl << 8) | EXT_MISC_CTRL2 ); SelectIGA1(); /* These values specify brightness, contrast, saturation and hue. */ OUTREG( SEC_STREAM2_COLOR_CONVERT1, 0x0000C892 ); OUTREG( SEC_STREAM2_COLOR_CONVERT2, 0x00039F9A ); OUTREG( SEC_STREAM2_COLOR_CONVERT3, 0x01F1547E ); } else if (psav->IsPrimary) { /* Wait for VBLANK. */ VerticalRetraceWait(); /* Fire up streams! */ VGAOUT16( vgaCRIndex, (jStreamsControl << 8) | EXT_MISC_CTRL2 ); /* These values specify brightness, contrast, saturation and hue. */ OUTREG( SEC_STREAM_COLOR_CONVERT1, 0x0000C892 ); OUTREG( SEC_STREAM_COLOR_CONVERT2, 0x00039F9A ); OUTREG( SEC_STREAM_COLOR_CONVERT3, 0x01F1547E ); } else { /* Wait for VBLANK. */ VerticalRetraceWait(); /* Fire up streams! */ VGAOUT16( vgaCRIndex, (jStreamsControl << 8) | EXT_MISC_CTRL2 ); #if 0 SelectIGA2(); /* Wait for VBLANK. */ VerticalRetraceWait(); /* Fire up streams! */ VGAOUT16( vgaCRIndex, (jStreamsControl << 8) | EXT_MISC_CTRL2 ); SelectIGA1(); #endif /* These values specify brightness, contrast, saturation and hue. */ OUTREG( SEC_STREAM_COLOR_CONVERT1, 0x0000C892 ); OUTREG( SEC_STREAM_COLOR_CONVERT2, 0x00039F9A ); OUTREG( SEC_STREAM_COLOR_CONVERT3, 0x01F1547E ); #if 0 sleep(1); OUTREG( SEC_STREAM2_COLOR_CONVERT1, 0x0000C892 ); OUTREG( SEC_STREAM2_COLOR_CONVERT2, 0x00039F9A ); OUTREG( SEC_STREAM2_COLOR_CONVERT3, 0x01F1547E ); #endif } } else { jStreamsControl = VGAIN8( vgaCRReg ) | ENABLE_STREAMS_OLD; /* Wait for VBLANK. */ VerticalRetraceWait(); /* Fire up streams! */ VGAOUT16( vgaCRIndex, (jStreamsControl << 8) | EXT_MISC_CTRL2 ); SavageInitStreamsOld( pScrn ); } /* Wait for VBLANK. */ VerticalRetraceWait(); /* Turn on secondary stream TV flicker filter, once we support TV. */ /* SR70 |= 0x10 */ } void SavageStreamsOff(ScrnInfoPtr pScrn) { SavagePtr psav = SAVPTR(pScrn); unsigned char jStreamsControl; unsigned short vgaCRIndex = psav->vgaIOBase + 4; unsigned short vgaCRReg = psav->vgaIOBase + 5; xf86ErrorFVerb(STREAMS_TRACE, "SavageStreamsOff\n" ); xf86EnableIO(); /* Unlock extended registers. */ VGAOUT16(vgaCRIndex, 0x4838); VGAOUT16(vgaCRIndex, 0xa039); VGAOUT16(0x3c4, 0x0608); VGAOUT8( vgaCRIndex, EXT_MISC_CTRL2 ); if( S3_SAVAGE_MOBILE_SERIES(psav->Chipset) || (psav->Chipset == S3_SAVAGE2000) ) jStreamsControl = VGAIN8( vgaCRReg ) & NO_STREAMS; else jStreamsControl = VGAIN8( vgaCRReg ) & NO_STREAMS_OLD; /* Wait for VBLANK. */ VerticalRetraceWait(); /* Kill streams. */ if (psav->IsSecondary) { SelectIGA2(); VGAOUT16( vgaCRIndex, (jStreamsControl << 8) | EXT_MISC_CTRL2 ); SelectIGA1(); } else if (psav->IsPrimary) { VGAOUT16( vgaCRIndex, (jStreamsControl << 8) | EXT_MISC_CTRL2 ); } else { VGAOUT16( vgaCRIndex, (jStreamsControl << 8) | EXT_MISC_CTRL2 ); #if 0 SelectIGA2(); VGAOUT16( vgaCRIndex, (jStreamsControl << 8) | EXT_MISC_CTRL2 ); SelectIGA1(); #endif } VGAOUT16( vgaCRIndex, 0x0093 ); VGAOUT8( vgaCRIndex, 0x92 ); VGAOUT8( vgaCRReg, VGAIN8(vgaCRReg) & 0x40 ); }