/* $XFree86$ */ /* $XdotOrg$ */ /* * SiS driver option evaluation * * Copyright (C) 2001-2005 by Thomas Winischhofer, Vienna, Austria * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1) Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2) Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3) The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * Authors: Thomas Winischhofer * ? */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "sis.h" #include "xf86str.h" #include "xf86Cursor.h" typedef enum { OPTION_SW_CURSOR, OPTION_HW_CURSOR, OPTION_ACCEL, OPTION_ACCELMETHOD, OPTION_TURBOQUEUE, OPTION_FAST_VRAM, OPTION_HOSTBUS, OPTION_RENDER, OPTION_FORCE_CRT1TYPE, OPTION_FORCE_CRT2TYPE, OPTION_YPBPRAR, OPTION_SHADOW_FB, OPTION_DRI, OPTION_AGP_SIZE, OPTION_ROTATE, OPTION_REFLECT, OPTION_XVIDEO, OPTION_VESA, OPTION_MAXXFBMEM, OPTION_FORCECRT1, OPTION_XVONCRT2, OPTION_PDC, OPTION_PDCA, OPTION_EMI, OPTION_TVSTANDARD, OPTION_USEROMDATA, OPTION_INTERNALMODES, OPTION_USEOEM, OPTION_YV12, OPTION_CHTVOVERSCAN, OPTION_CHTVSOVERSCAN, OPTION_CHTVLUMABANDWIDTHCVBS, OPTION_CHTVLUMABANDWIDTHSVIDEO, OPTION_CHTVLUMAFLICKERFILTER, OPTION_CHTVCHROMABANDWIDTH, OPTION_CHTVCHROMAFLICKERFILTER, OPTION_CHTVCVBSCOLOR, OPTION_CHTVTEXTENHANCE, OPTION_CHTVCONTRAST, OPTION_SISTVEDGEENHANCE, OPTION_SISTVANTIFLICKER, OPTION_SISTVSATURATION, OPTION_SISTVCHROMAFILTER, OPTION_SISTVLUMAFILTER, OPTION_SISTVCOLCALIBFINE, OPTION_SISTVCOLCALIBCOARSE, OPTION_TVXPOSOFFSET, OPTION_TVYPOSOFFSET, OPTION_TVXSCALE, OPTION_TVYSCALE, OPTION_SIS6326ANTIFLICKER, OPTION_SIS6326ENABLEYFILTER, OPTION_SIS6326YFILTERSTRONG, OPTION_SIS6326FORCETVPPLUG, OPTION_SIS6326FSCADJUST, OPTION_CHTVTYPE, OPTION_USERGBCURSOR, OPTION_USERGBCURSORBLEND, OPTION_USERGBCURSORBLENDTH, OPTION_RESTOREBYSET, OPTION_DDCFORCRT2, OPTION_FORCECRT2REDETECTION, OPTION_SENSEYPBPR, OPTION_CRT1GAMMA, OPTION_CRT2GAMMA, OPTION_XVGAMMA, OPTION_XVDEFCONTRAST, OPTION_XVDEFBRIGHTNESS, OPTION_XVDEFHUE, OPTION_XVDEFSATURATION, OPTION_XVDEFDISABLEGFX, OPTION_XVDEFDISABLEGFXLR, OPTION_XVMEMCPY, OPTION_XVBENCHCPY, #ifndef SISCHECKOSSSE OPTION_XVSSECOPY, #endif OPTION_XVUSECHROMAKEY, OPTION_XVCHROMAMIN, OPTION_XVCHROMAMAX, OPTION_XVDISABLECOLORKEY, OPTION_XVINSIDECHROMAKEY, OPTION_XVYUVCHROMAKEY, OPTION_XVDEFAULTADAPTOR, OPTION_SCALELCD, OPTION_CENTERLCD, OPTION_SPECIALTIMING, OPTION_LVDSHL, OPTION_PRGB, OPTION_ENABLEHOTKEY, OPTION_MERGEDFB, OPTION_MERGEDFBAUTO, OPTION_CRT2HSYNC, OPTION_CRT2VREFRESH, OPTION_CRT2POS, OPTION_METAMODES, OPTION_SISXINERAMA, OPTION_CRT2ISSCRN0, OPTION_MERGEDDPI, OPTION_MERGEDFBNONRECT, OPTION_MERGEDFBMOUSER, OPTION_ENABLESISCTRL, OPTION_STOREDBRI, OPTION_STOREDBRI2, OPTION_NEWSTOREDBRI, OPTION_NEWSTOREDBRI2, OPTION_NEWSTOREDCON, OPTION_NEWSTOREDCON2, OPTION_CRT1SATGAIN, OPTION_OVERRULERANGES, OPTION_FORCE1ASPECT, OPTION_FORCE2ASPECT, OPTION_TVBLUE, #ifdef SIS_CP SIS_CP_OPT_OPTIONS #endif OPTION_PSEUDO } SISOpts; static const OptionInfoRec SISOptions[] = { { OPTION_ACCEL, "Accel", OPTV_BOOLEAN, {0}, FALSE }, #if defined(SIS_USE_XAA) && defined(SIS_USE_EXA) { OPTION_ACCELMETHOD, "AccelMethod", OPTV_STRING, {0}, FALSE }, #endif { OPTION_TURBOQUEUE, "TurboQueue", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_FAST_VRAM, "FastVram", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_HOSTBUS, "HostBus", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_RENDER, "RenderAcceleration", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_FORCE_CRT1TYPE, "ForceCRT1Type", OPTV_STRING, {0}, FALSE }, { OPTION_FORCE_CRT2TYPE, "ForceCRT2Type", OPTV_STRING, {0}, FALSE }, { OPTION_SHADOW_FB, "ShadowFB", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_DRI, "DRI", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_AGP_SIZE, "AGPSize", OPTV_INTEGER, {0}, FALSE }, { OPTION_AGP_SIZE, "GARTSize", OPTV_INTEGER, {0}, FALSE }, { OPTION_VESA, "Vesa", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_MAXXFBMEM, "MaxXFBMem", OPTV_INTEGER, {0}, FALSE }, { OPTION_ENABLESISCTRL, "EnableSiSCtrl", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_SW_CURSOR, "SWCursor", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_HW_CURSOR, "HWCursor", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_USERGBCURSOR, "UseColorHWCursor", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_ROTATE, "Rotate", OPTV_STRING, {0}, FALSE }, { OPTION_REFLECT, "Reflect", OPTV_STRING, {0}, FALSE }, { OPTION_XVIDEO, "Xvideo", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_INTERNALMODES, "InternalModes", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_OVERRULERANGES, "OverruleFrequencyRanges", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_RESTOREBYSET, "RestoreBySetMode", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_FORCECRT1, "ForceCRT1", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_XVONCRT2, "XvOnCRT2", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_PDC, "PanelDelayCompensation", OPTV_INTEGER, {0}, FALSE }, { OPTION_PDC, "PDC", OPTV_INTEGER, {0}, FALSE }, { OPTION_PDC, "PanelDelayCompensation2", OPTV_INTEGER, {0}, FALSE }, { OPTION_PDC, "PDC2", OPTV_INTEGER, {0}, FALSE }, { OPTION_PDCA, "PanelDelayCompensation1", OPTV_INTEGER, {0}, FALSE }, { OPTION_PDCA, "PDC1", OPTV_INTEGER, {0}, FALSE }, { OPTION_EMI, "EMI", OPTV_INTEGER, {0}, FALSE }, { OPTION_LVDSHL, "LVDSHL", OPTV_INTEGER, {0}, FALSE }, { OPTION_PRGB, "ForcePanelRGB", OPTV_INTEGER, {0}, FALSE }, { OPTION_SPECIALTIMING, "SpecialTiming", OPTV_STRING, {0}, FALSE }, { OPTION_TVSTANDARD, "TVStandard", OPTV_STRING, {0}, FALSE }, { OPTION_USEROMDATA, "UseROMData", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_USEOEM, "UseOEMData", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_YV12, "YV12", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_CHTVTYPE, "CHTVType", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_CHTVOVERSCAN, "CHTVOverscan", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_CHTVSOVERSCAN, "CHTVSuperOverscan", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_CHTVLUMABANDWIDTHCVBS, "CHTVLumaBandwidthCVBS", OPTV_INTEGER, {0}, FALSE }, { OPTION_CHTVLUMABANDWIDTHSVIDEO, "CHTVLumaBandwidthSVIDEO", OPTV_INTEGER, {0}, FALSE }, { OPTION_CHTVLUMAFLICKERFILTER, "CHTVLumaFlickerFilter", OPTV_INTEGER, {0}, FALSE }, { OPTION_CHTVCHROMABANDWIDTH, "CHTVChromaBandwidth", OPTV_INTEGER, {0}, FALSE }, { OPTION_CHTVCHROMAFLICKERFILTER, "CHTVChromaFlickerFilter", OPTV_INTEGER, {0}, FALSE }, { OPTION_CHTVCVBSCOLOR, "CHTVCVBSColor", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_CHTVTEXTENHANCE, "CHTVTextEnhance", OPTV_INTEGER, {0}, FALSE }, { OPTION_CHTVCONTRAST, "CHTVContrast", OPTV_INTEGER, {0}, FALSE }, { OPTION_SISTVEDGEENHANCE, "SISTVEdgeEnhance", OPTV_INTEGER, {0}, FALSE }, { OPTION_SISTVANTIFLICKER, "SISTVAntiFlicker", OPTV_STRING, {0}, FALSE }, { OPTION_SISTVSATURATION, "SISTVSaturation", OPTV_INTEGER, {0}, FALSE }, { OPTION_SISTVCHROMAFILTER, "SISTVCFilter", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_SISTVLUMAFILTER, "SISTVYFilter", OPTV_INTEGER, {0}, FALSE }, { OPTION_SISTVCOLCALIBFINE, "SISTVColorCalibFine", OPTV_INTEGER, {0}, FALSE }, { OPTION_SISTVCOLCALIBCOARSE, "SISTVColorCalibCoarse", OPTV_INTEGER, {0}, FALSE }, { OPTION_TVXSCALE, "SISTVXScale", OPTV_INTEGER, {0}, FALSE }, { OPTION_TVYSCALE, "SISTVYScale", OPTV_INTEGER, {0}, FALSE }, { OPTION_TVXPOSOFFSET, "TVXPosOffset", OPTV_INTEGER, {0}, FALSE }, { OPTION_TVYPOSOFFSET, "TVYPosOffset", OPTV_INTEGER, {0}, FALSE }, { OPTION_SIS6326ANTIFLICKER, "SIS6326TVAntiFlicker", OPTV_STRING, {0}, FALSE }, { OPTION_SIS6326ENABLEYFILTER, "SIS6326TVEnableYFilter", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_SIS6326YFILTERSTRONG, "SIS6326TVYFilterStrong", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_SIS6326FORCETVPPLUG, "SIS6326TVForcePlug", OPTV_STRING, {0}, FALSE }, { OPTION_SIS6326FSCADJUST, "SIS6326FSCAdjust", OPTV_INTEGER, {0}, FALSE }, { OPTION_YPBPRAR, "YPbPrAspectRatio", OPTV_STRING, {0}, FALSE }, { OPTION_TVBLUE, "TVBlueWorkAround", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_USERGBCURSORBLEND, "ColorHWCursorBlending", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_USERGBCURSORBLENDTH, "ColorHWCursorBlendThreshold", OPTV_INTEGER, {0}, FALSE }, { OPTION_DDCFORCRT2, "CRT2Detection", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_FORCECRT2REDETECTION, "ForceCRT2ReDetection", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_SENSEYPBPR, "SenseYPbPr", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_CRT1GAMMA, "CRT1Gamma", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_CRT2GAMMA, "CRT2Gamma", OPTV_ANYSTR, {0}, FALSE }, { OPTION_STOREDBRI, "GammaBrightness", OPTV_STRING, {0}, FALSE }, { OPTION_STOREDBRI2, "GammaBrightnessCRT2", OPTV_STRING, {0}, FALSE }, { OPTION_STOREDBRI2, "CRT2GammaBrightness", OPTV_STRING, {0}, FALSE }, { OPTION_NEWSTOREDBRI, "Brightness", OPTV_STRING, {0}, FALSE }, { OPTION_NEWSTOREDBRI, "NewGammaBrightness", OPTV_STRING, {0}, FALSE }, { OPTION_NEWSTOREDBRI2, "CRT2Brightness", OPTV_STRING, {0}, FALSE }, { OPTION_NEWSTOREDBRI2, "CRT2NewGammaBrightness", OPTV_STRING, {0}, FALSE }, { OPTION_NEWSTOREDCON, "Contrast", OPTV_STRING, {0}, FALSE }, { OPTION_NEWSTOREDCON, "NewGammaContrast", OPTV_STRING, {0}, FALSE }, { OPTION_NEWSTOREDCON2, "CRT2Contrast", OPTV_STRING, {0}, FALSE }, { OPTION_NEWSTOREDCON2, "CRT2NewGammaContrast", OPTV_STRING, {0}, FALSE }, { OPTION_CRT1SATGAIN, "CRT1Saturation", OPTV_INTEGER, {0}, FALSE }, { OPTION_XVGAMMA, "XvGamma", OPTV_ANYSTR, {0}, FALSE }, { OPTION_XVDEFCONTRAST, "XvDefaultContrast", OPTV_INTEGER, {0}, FALSE }, { OPTION_XVDEFBRIGHTNESS, "XvDefaultBrightness", OPTV_INTEGER, {0}, FALSE }, { OPTION_XVDEFHUE, "XvDefaultHue", OPTV_INTEGER, {0}, FALSE }, { OPTION_XVDEFSATURATION, "XvDefaultSaturation", OPTV_INTEGER, {0}, FALSE }, { OPTION_XVDEFDISABLEGFX, "XvDefaultDisableGfx", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_XVDEFDISABLEGFXLR, "XvDefaultDisableGfxLR", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_XVCHROMAMIN, "XvChromaMin", OPTV_INTEGER, {0}, FALSE }, { OPTION_XVCHROMAMAX, "XvChromaMax", OPTV_INTEGER, {0}, FALSE }, { OPTION_XVUSECHROMAKEY, "XvUseChromaKey", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_XVINSIDECHROMAKEY, "XvInsideChromaKey", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_XVYUVCHROMAKEY, "XvYUVChromaKey", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_XVDISABLECOLORKEY, "XvDisableColorKey", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_XVMEMCPY, "XvUseMemcpy", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_XVBENCHCPY, "BenchmarkMemcpy", OPTV_BOOLEAN, {0}, FALSE }, #ifndef SISCHECKOSSSE { OPTION_XVSSECOPY, "UseSSE", OPTV_BOOLEAN, {0}, FALSE }, #endif { OPTION_XVDEFAULTADAPTOR, "XvDefaultAdaptor", OPTV_STRING, {0}, FALSE }, { OPTION_SCALELCD, "ScaleLCD", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_CENTERLCD, "CenterLCD", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_ENABLEHOTKEY, "EnableHotkey", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_FORCE1ASPECT, "ForceCRT1VGAAspect", OPTV_STRING, {0}, FALSE }, { OPTION_FORCE2ASPECT, "ForceCRT2VGAAspect", OPTV_STRING, {0}, FALSE }, #ifdef SISMERGED { OPTION_MERGEDFB, "MergedFB", OPTV_ANYSTR, {0}, FALSE }, { OPTION_MERGEDFB, "TwinView", OPTV_ANYSTR, {0}, FALSE }, /* alias */ { OPTION_MERGEDFBAUTO, "MergedFBAuto", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_CRT2HSYNC, "CRT2HSync", OPTV_STRING, {0}, FALSE }, { OPTION_CRT2HSYNC, "SecondMonitorHorizSync", OPTV_STRING, {0}, FALSE }, /* alias */ { OPTION_CRT2VREFRESH, "CRT2VRefresh", OPTV_STRING, {0}, FALSE }, { OPTION_CRT2VREFRESH, "SecondMonitorVertRefresh", OPTV_STRING, {0}, FALSE }, /* alias */ { OPTION_CRT2POS, "CRT2Position", OPTV_STRING, {0}, FALSE }, { OPTION_CRT2POS, "TwinViewOrientation", OPTV_STRING, {0}, FALSE }, /* alias */ { OPTION_METAMODES, "MetaModes", OPTV_STRING, {0}, FALSE }, { OPTION_MERGEDDPI, "MergedDPI", OPTV_STRING, {0}, FALSE }, #ifdef SISXINERAMA { OPTION_SISXINERAMA, "MergedXinerama", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_SISXINERAMA, "TwinviewXineramaInfo", OPTV_BOOLEAN, {0}, FALSE }, /* alias */ { OPTION_CRT2ISSCRN0, "MergedXineramaCRT2IsScreen0", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_MERGEDFBNONRECT, "MergedNonRectangular", OPTV_BOOLEAN, {0}, FALSE }, { OPTION_MERGEDFBMOUSER, "MergedMouseRestriction", OPTV_BOOLEAN, {0}, FALSE }, #endif #endif #ifdef SIS_CP SIS_CP_OPTION_DETAIL #endif { -1, NULL, OPTV_NONE, {0}, FALSE } }; static int SiS_FIFT(const OptionInfoRec *options, int token) { /* Find index from token */ int i = 0; while(options[i].token >= 0) { if(options[i].token == token) return i; i++; } return 0; /* Should not happen */ } static void SiS_PrintBadOpt(ScrnInfoPtr pScrn, char *strptr, int token) { SISPtr pSiS = SISPTR(pScrn); xf86DrvMsg(pScrn->scrnIndex, X_WARNING, "\"%s\" is is not a valid parameter for option \"%s\"\n", strptr, pSiS->Options[SiS_FIFT(pSiS->Options, token)].name); } static void SiS_PrintIlRange(ScrnInfoPtr pScrn, int token, int min, int max, UChar showhex) { SISPtr pSiS = SISPTR(pScrn); static const char *ilparmd = "Invalid parameter for \"%s\". Valid range is %d - %d\n"; static const char *ilparmh = "Invalid parameter for \"%s\". Valid range is 0x%x - 0x%x\n"; xf86DrvMsg(pScrn->scrnIndex, X_WARNING, showhex ? ilparmh : ilparmd, pSiS->Options[SiS_FIFT(pSiS->Options, token)].name, min, max); } #ifdef SISDUALHEAD static void SiS_PrintOverruleDHM(ScrnInfoPtr pScrn, int token1, int token2) { SISPtr pSiS = SISPTR(pScrn); xf86DrvMsg(pScrn->scrnIndex, X_INFO, "\"%s\" overrules \"%s\" in CRT2 (Master) device section\n", pSiS->Options[SiS_FIFT(pSiS->Options, token1)].name, pSiS->Options[SiS_FIFT(pSiS->Options, token2)].name); } #endif static Bool SiS_StrIsBoolOn(char *strptr) { if( (*strptr == '\0') || (!xf86NameCmp(strptr,"on")) || (!xf86NameCmp(strptr,"true")) || (!xf86NameCmp(strptr,"yes")) || (!xf86NameCmp(strptr,"1")) ) return TRUE; return FALSE; } static Bool SiS_StrIsBoolOff(char *strptr) { if( (!xf86NameCmp(strptr,"off")) || (!xf86NameCmp(strptr,"false")) || (!xf86NameCmp(strptr,"no")) || (!xf86NameCmp(strptr,"0")) ) return TRUE; return FALSE; } static Bool SiS_EvalOneOrThreeFloats(ScrnInfoPtr pScrn, int token, const char *myerror, char *strptr, int *v1, int *v2, int *v3) { SISPtr pSiS = SISPTR(pScrn); float val1 = 0.0, val2 = 0.0, val3 = 0.0; Bool valid = FALSE; int result = sscanf(strptr, "%f %f %f", &val1, &val2, &val3); if(result == 1) { if((val1 >= 0.1) && (val1 <= 10.0)) { valid = TRUE; *v1 = *v2 = *v3 = (int)(val1 * 1000); } } else if(result == 3) { if((val1 >= 0.1) && (val1 <= 10.0) && (val2 >= 0.1) && (val2 <= 10.0) && (val3 >= 0.1) && (val3 <= 10.0)) { valid = TRUE; *v1 = (int)(val1 * 1000); *v2 = (int)(val2 * 1000); *v3 = (int)(val3 * 1000); } } if(!valid) { xf86DrvMsg(pScrn->scrnIndex, X_WARNING, myerror, pSiS->Options[SiS_FIFT(pSiS->Options, token)].name); } return (valid); } static Bool SiS_EvalOneOrThreeFloats2(ScrnInfoPtr pScrn, int token, const char *myerror, char *strptr, float *v1, float *v2, float *v3) { SISPtr pSiS = SISPTR(pScrn); float val1 = 0.0, val2 = 0.0, val3 = 0.0; Bool valid = FALSE; int result = sscanf(strptr, "%f %f %f", &val1, &val2, &val3); if(result == 1) { if((val1 >= -1.0) && (val1 <= 1.0)) { valid = TRUE; *v1 = *v2 = *v3 = val1; } } else if(result == 3) { if((val1 >= -1.0) && (val1 <= 1.0) && (val2 >= -1.0) && (val2 <= 1.0) && (val3 >= -1.0) && (val3 <= 1.0)) { valid = TRUE; *v1 = val1; *v2 = val2; *v3 = val3; } } if(!valid) { xf86DrvMsg(pScrn->scrnIndex, X_WARNING, myerror, pSiS->Options[SiS_FIFT(pSiS->Options, token)].name); } return (valid); } void SiSOptions(ScrnInfoPtr pScrn) { SISPtr pSiS = SISPTR(pScrn); MessageType from; char *strptr; int ival; static const char *baddhm = "Option \"%s\" ignored in Dual Head mode\n"; static const char *validparm = "Valid parameters are"; static const char *disabledstr= "disabled"; static const char *enabledstr = "enabled"; static const char *gammaopt = "%s expects either a boolean, or 1 or 3 real numbers (0.1 - 10.0)\n"; static const char *briopt = "%s expects 1 or 3 real numbers (0.1 - 10.0)\n"; static const char *newbriopt = "%s expects 1 or 3 real numbers (-1.0 - 1.0)\n"; Bool val, IsDHM = FALSE; Bool IsSecondHead = FALSE; /* Collect all of the relevant option flags (fill in pScrn->options) */ xf86CollectOptions(pScrn, NULL); /* Process the options */ if(!(pSiS->Options = xalloc(sizeof(SISOptions)))) return; memcpy(pSiS->Options, SISOptions, sizeof(SISOptions)); xf86ProcessOptions(pScrn->scrnIndex, pScrn->options, pSiS->Options); /* Set defaults */ pSiS->newFastVram = -1; pSiS->HostBus = TRUE; pSiS->TurboQueue = TRUE; #ifdef SISVRAMQ /* TODO: Option (315 series VRAM command queue) */ /* But beware: sisfb does not know about this!!! */ pSiS->cmdQueueSize = 512*1024; if(pSiS->ChipType == XGI_20) { /* Hardware maximum on Z7: 128k */ pSiS->cmdQueueSize = 128*1024; } #endif pSiS->doRender = TRUE; pSiS->HWCursor = TRUE; pSiS->Rotate = 0; pSiS->Reflect = 0; pSiS->NoAccel = FALSE; #if (defined(SIS_USE_EXA) && defined(SIS_USE_XAA)) || !defined(SIS_USE_EXA) pSiS->useEXA = FALSE; #else pSiS->useEXA = TRUE; #endif pSiS->ShadowFB = FALSE; pSiS->loadDRI = FALSE; #ifdef XF86DRI pSiS->agpWantedPages = AGP_PAGES; #endif pSiS->VESA = -1; pSiS->NoXvideo = FALSE; pSiS->maxxfbmem = 0; pSiS->forceCRT1 = -1; pSiS->DSTN = FALSE; pSiS->FSTN = FALSE; pSiS->XvOnCRT2 = FALSE; pSiS->NoYV12 = -1; pSiS->PDC = -1; pSiS->PDCA = -1; pSiS->EMI = -1; pSiS->PRGB = -1; pSiS->OptTVStand = -1; pSiS->OptROMUsage = -1; pSiS->noInternalModes = FALSE; pSiS->OptUseOEM = -1; pSiS->OptTVOver = -1; pSiS->OptTVSOver = -1; pSiS->chtvlumabandwidthcvbs = -1; pSiS->chtvlumabandwidthsvideo = -1; pSiS->chtvlumaflickerfilter = -1; pSiS->chtvchromabandwidth = -1; pSiS->chtvchromaflickerfilter = -1; pSiS->chtvcvbscolor = -1; pSiS->chtvtextenhance = -1; pSiS->chtvcontrast = -1; pSiS->sistvedgeenhance = -1; pSiS->sistvantiflicker = -1; pSiS->sistvsaturation = -1; pSiS->sistvcfilter = -1; pSiS->sistvyfilter = 1; /* 0 = off, 1 = default, 2-8 = filter no */ pSiS->sistvcolcalibc = 0; pSiS->sistvcolcalibf = 0; pSiS->sis6326enableyfilter = -1; pSiS->sis6326yfilterstrong = -1; pSiS->sis6326tvplug = -1; pSiS->sis6326fscadjust = 0; pSiS->tvxpos = 0; pSiS->tvypos = 0; pSiS->tvxscale = 0; pSiS->tvyscale = 0; pSiS->siscrt1satgain = 0; pSiS->crt1satgaingiven = FALSE; pSiS->NonDefaultPAL = pSiS->NonDefaultNTSC = -1; pSiS->chtvtype = -1; pSiS->restorebyset = TRUE; pSiS->nocrt2ddcdetection = FALSE; pSiS->forcecrt2redetection = TRUE; pSiS->SenseYPbPr = TRUE; pSiS->ForceCRT1Type = CRT1_VGA; pSiS->CRT1TypeForced = FALSE; pSiS->ForceCRT2Type = CRT2_DEFAULT; pSiS->ForceYPbPrAR = TV_YPBPR169; pSiS->ForceTVType = -1; pSiS->CRT1gamma = TRUE; pSiS->CRT1gammaGiven = FALSE; pSiS->CRT2gamma = TRUE; pSiS->XvGamma = FALSE; pSiS->XvGammaGiven = FALSE; pSiS->enablesisctrl = FALSE; if((pSiS->VGAEngine == SIS_300_VGA) || (pSiS->VGAEngine == SIS_315_VGA)) { pSiS->XvDefBri = 10; pSiS->XvDefCon = 2; } else { pSiS->XvDefBri = 0; pSiS->XvDefCon = 4; } pSiS->XvDefHue = 0; pSiS->XvDefSat = 0; pSiS->XvDefDisableGfx = FALSE; pSiS->XvDefDisableGfxLR = FALSE; pSiS->XvDefAdaptorBlit = FALSE; pSiS->UsePanelScaler = -1; pSiS->CenterLCD = -1; pSiS->XvUseMemcpy = TRUE; pSiS->XvUseChromaKey = FALSE; pSiS->XvDisableColorKey = FALSE; pSiS->XvInsideChromaKey = FALSE; pSiS->XvYUVChromaKey = FALSE; pSiS->XvChromaMin = 0x000101fe; pSiS->XvChromaMax = 0x000101ff; pSiS->XvGammaRed = pSiS->XvGammaGreen = pSiS->XvGammaBlue = pSiS->XvGammaRedDef = pSiS->XvGammaGreenDef = pSiS->XvGammaBlueDef = 1000; pSiS->GammaBriR = pSiS->GammaBriG = pSiS->GammaBriB = 1000; pSiS->CRT2SepGamma = FALSE; pSiS->GammaR2 = pSiS->GammaG2 = pSiS->GammaB2 = 1.0; pSiS->GammaBriR2 = pSiS->GammaBriG2 = pSiS->GammaBriB2 = 1000; pSiS->NewGammaBriR = pSiS->NewGammaBriG = pSiS->NewGammaBriB = 0.0; pSiS->NewGammaConR = pSiS->NewGammaConG = pSiS->NewGammaConB = 0.0; pSiS->NewGammaBriR2 = pSiS->NewGammaBriG2 = pSiS->NewGammaBriB2 = 0.0; pSiS->NewGammaConR2 = pSiS->NewGammaConG2 = pSiS->NewGammaConB2 = 0.0; pSiS->HideHWCursor = FALSE; pSiS->HWCursorIsVisible = FALSE; pSiS->OverruleRanges = TRUE; pSiS->BenchMemCpy = TRUE; #ifndef SISCHECKOSSSE pSiS->XvSSEMemcpy = FALSE; #endif #ifdef SISMERGED pSiS->MergedFB = pSiS->MergedFBAuto = FALSE; pSiS->CRT2Position = sisRightOf; pSiS->CRT2HSync = NULL; pSiS->CRT2VRefresh = NULL; pSiS->MetaModes = NULL; pSiS->MergedFBXDPI = pSiS->MergedFBYDPI = 0; pSiS->CRT1XOffs = pSiS->CRT1YOffs = pSiS->CRT2XOffs = pSiS->CRT2YOffs = 0; pSiS->NonRect = pSiS->HaveNonRect = pSiS->HaveOffsRegions = FALSE; pSiS->MBXNR1XMAX = pSiS->MBXNR1YMAX = pSiS->MBXNR2XMAX = pSiS->MBXNR2YMAX = 65536; pSiS->MouseRestrictions = TRUE; #ifdef SISXINERAMA pSiS->UseSiSXinerama = TRUE; pSiS->CRT2IsScrn0 = FALSE; #endif #endif #ifdef SIS_CP SIS_CP_OPT_DEFAULT #endif /* Chipset dependent defaults */ if(pSiS->Chipset == PCI_CHIP_SIS530) { /* TQ still broken on 530/620? */ pSiS->TurboQueue = FALSE; } if(pSiS->Chipset == PCI_CHIP_SIS6326) { pSiS->newFastVram = 1; } if(pSiS->ChipType == SIS_315H || pSiS->ChipType == SIS_315) { /* Cursor engine seriously broken */ pSiS->HWCursor = FALSE; } if((pSiS->Chipset == PCI_CHIP_SIS550) || (pSiS->Chipset == PCI_CHIP_XGIXG20)) { /* Alpha blending not supported */ pSiS->doRender = FALSE; } if(pSiS->Chipset == PCI_CHIP_XGIXG20) { /* No video overlay, no video blitter */ pSiS->NoXvideo = TRUE; } /* DRI only supported on 300 series, * so don't load DRI by default on * others. */ if(pSiS->VGAEngine == SIS_300_VGA) { pSiS->loadDRI = TRUE; } #if XF86_VERSION_CURRENT < XF86_VERSION_NUMERIC(4,2,99,0,0) pSiS->OptUseColorCursor = 0; #else if(pSiS->VGAEngine == SIS_300_VGA) { pSiS->OptUseColorCursor = 0; pSiS->OptUseColorCursorBlend = 1; pSiS->OptColorCursorBlendThreshold = 0x37000000; } else if(pSiS->VGAEngine == SIS_315_VGA) { if(pSiS->Chipset == PCI_CHIP_XGIXG20) { /* No color HW cursor on Z7 */ pSiS->OptUseColorCursor = 0; } else { pSiS->OptUseColorCursor = 1; } } #endif if(pSiS->VGAEngine == SIS_300_VGA) { pSiS->AllowHotkey = 0; } else if(pSiS->VGAEngine == SIS_315_VGA) { pSiS->AllowHotkey = 1; } /* Collect the options */ /* FastVRAM (5597/5598, 6326 and 530/620 only) */ if((pSiS->VGAEngine == SIS_OLD_VGA) || (pSiS->VGAEngine == SIS_530_VGA)) { from = X_DEFAULT; if(xf86GetOptValBool(pSiS->Options, OPTION_FAST_VRAM, &pSiS->newFastVram)) { from = X_CONFIG; } xf86DrvMsg(pScrn->scrnIndex, from, "Fast VRAM timing %s\n", (pSiS->newFastVram == -1) ? ((pSiS->oldChipset == OC_SIS620) ? "enabled (for read only)" : "enabled (for write only)") : (pSiS->newFastVram ? "enabled (for read and write)" : disabledstr)); } /* HostBus (5597/5598 only) */ if(pSiS->Chipset == PCI_CHIP_SIS5597) { from = X_DEFAULT; if(xf86GetOptValBool(pSiS->Options, OPTION_HOSTBUS, &pSiS->HostBus)) { from = X_CONFIG; } xf86DrvMsg(pScrn->scrnIndex, from, "SiS5597/5598 VGA-to-CPU host bus %s\n", pSiS->HostBus ? enabledstr : disabledstr); } /* MaxXFBMem * This options limits the amount of video memory X uses for screen * and off-screen buffers. This option should be used if using DRI * is intended. The kernel framebuffer driver required for DRM will * start its memory heap at 12MB if it detects more than 16MB, at 8MB if * between 8 and 16MB are available, otherwise at 4MB. So, if the amount * of memory X uses, a clash between the framebuffer's memory heap * and X is avoided. The amount is to be specified in KB. */ if(xf86GetOptValInteger(pSiS->Options, OPTION_MAXXFBMEM, (int *)&pSiS->maxxfbmem)) { if(pSiS->maxxfbmem >= 2048) { xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "MaxXFBMem: Framebuffer memory shall be limited to %d KB\n", pSiS->maxxfbmem); pSiS->maxxfbmem *= 1024; } else { pSiS->maxxfbmem = 0; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Invalid MaxXFBMem setting; minimum is 2048\n"); } } /* Accel * Turns on/off 2D acceleration */ if(!xf86ReturnOptValBool(pSiS->Options, OPTION_ACCEL, TRUE)) { pSiS->NoAccel = TRUE; #if XF86_VERSION_CURRENT < XF86_VERSION_NUMERIC(4,2,99,0,0) pSiS->NoXvideo = TRUE; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "2D Acceleration and Xv disabled\n"); #else xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "2D Acceleration disabled\n"); #endif } #if defined(SIS_USE_XAA) && defined(SIS_USE_EXA) if(!pSiS->NoAccel) { from = X_DEFAULT; if((strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_ACCELMETHOD))) { if(!xf86NameCmp(strptr,"XAA")) { from = X_CONFIG; pSiS->useEXA = FALSE; } else if(!xf86NameCmp(strptr,"EXA")) { from = X_CONFIG; pSiS->useEXA = TRUE; } } xf86DrvMsg(pScrn->scrnIndex, from, "Using %s acceleration architecture\n", pSiS->useEXA ? "EXA" : "XAA"); } #endif /* RenderAcceleration * En/Disables RENDER acceleration (315/330/340 series only, not 550, not XGI Z7) */ #ifdef SIS_USE_XAA if((pSiS->VGAEngine == SIS_315_VGA) && (pSiS->Chipset != PCI_CHIP_SIS550) && (pSiS->Chipset != PCI_CHIP_XGIXG20) && (!pSiS->NoAccel)) { if(xf86GetOptValBool(pSiS->Options, OPTION_RENDER, &pSiS->doRender)) { if(!pSiS->doRender) { xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "RENDER Acceleration disabled\n"); } } } #else pSiS->doRender = FALSE; #endif /* SWCursor, HWCursor * Chooses whether to use the hardware or software cursor */ from = X_DEFAULT; if(xf86GetOptValBool(pSiS->Options, OPTION_HW_CURSOR, &pSiS->HWCursor)) { from = X_CONFIG; } if(xf86ReturnOptValBool(pSiS->Options, OPTION_SW_CURSOR, FALSE)) { from = X_CONFIG; pSiS->HWCursor = FALSE; pSiS->OptUseColorCursor = 0; } xf86DrvMsg(pScrn->scrnIndex, from, "Using %s cursor\n", pSiS->HWCursor ? "HW" : "SW"); /* * UseColorHWCursor * ColorHWCursorBlending * ColorHWCursorBlendThreshold * * Enable/disable color hardware cursors; * enable/disable color hw cursor emulation for 300 series * select emultation transparency threshold for 300 series * */ #if XF86_VERSION_CURRENT >= XF86_VERSION_NUMERIC(4,2,99,0,0) #ifdef ARGB_CURSOR #ifdef SIS_ARGB_CURSOR if((pSiS->HWCursor) && ((pSiS->VGAEngine == SIS_300_VGA) || (pSiS->VGAEngine == SIS_315_VGA)) && (pSiS->Chipset != PCI_CHIP_XGIXG20)) { from = X_DEFAULT; if(xf86GetOptValBool(pSiS->Options, OPTION_USERGBCURSOR, &pSiS->OptUseColorCursor)) { from = X_CONFIG; } xf86DrvMsg(pScrn->scrnIndex, from, "Color HW cursor is %s\n", pSiS->OptUseColorCursor ? enabledstr : disabledstr); if(pSiS->VGAEngine == SIS_300_VGA) { from = X_DEFAULT; if(xf86GetOptValBool(pSiS->Options, OPTION_USERGBCURSORBLEND, &pSiS->OptUseColorCursorBlend)) { from = X_CONFIG; } if(pSiS->OptUseColorCursor) { xf86DrvMsg(pScrn->scrnIndex, from, "HW cursor color blending emulation is %s\n", (pSiS->OptUseColorCursorBlend) ? enabledstr : disabledstr); } from = X_DEFAULT; if(xf86GetOptValInteger(pSiS->Options, OPTION_USERGBCURSORBLENDTH, &ival)) { if((ival >= 0) && (ival <= 255)) { from = X_CONFIG; pSiS->OptColorCursorBlendThreshold = (ival << 24); } else { ival = pSiS->OptColorCursorBlendThreshold >> 24; SiS_PrintIlRange(pScrn, OPTION_USERGBCURSORBLENDTH, 0, 255, 0); } } else { ival = pSiS->OptColorCursorBlendThreshold >> 24; } if(pSiS->OptUseColorCursor) { if(pSiS->OptUseColorCursorBlend) { xf86DrvMsg(pScrn->scrnIndex, from, "HW cursor color blending emulation threshold is %d\n", ival); } } } } #endif #endif #endif /* OverruleFrequencyRanges * Enable/disable overruling bogus frequency ranges for TV and LCD(A) */ if((pSiS->VGAEngine == SIS_300_VGA) || (pSiS->VGAEngine == SIS_315_VGA)) { if(xf86GetOptValBool(pSiS->Options, OPTION_OVERRULERANGES, &val)) { if(!val) { pSiS->OverruleRanges = FALSE; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Overruling frequency ranges disabled\n"); } } } #ifdef SISDUALHEAD if(pSiS->DualHeadMode) { IsDHM = TRUE; if(pSiS->SecondHead) IsSecondHead = TRUE; } #endif /* MergedFB * Enable/disable and configure merged framebuffer mode */ #ifdef SISMERGED #ifdef SISDUALHEAD if(pSiS->DualHeadMode) { if(xf86IsOptionSet(pSiS->Options, OPTION_MERGEDFB)) { xf86DrvMsg(pScrn->scrnIndex, X_WARNING, baddhm, pSiS->Options[SiS_FIFT(pSiS->Options, OPTION_MERGEDFB)].name); } if(xf86IsOptionSet(pSiS->Options, OPTION_MERGEDFBAUTO)) { xf86DrvMsg(pScrn->scrnIndex, X_WARNING, baddhm, pSiS->Options[SiS_FIFT(pSiS->Options, OPTION_MERGEDFBAUTO)].name); } } else #endif if((pSiS->VGAEngine == SIS_300_VGA) || (pSiS->VGAEngine == SIS_315_VGA)) { if((strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_MERGEDFB))) { if(SiS_StrIsBoolOn(strptr)) { pSiS->MergedFB = TRUE; pSiS->MergedFBAuto = FALSE; } else if(!xf86NameCmp(strptr, "AUTO")) { pSiS->MergedFB = TRUE; pSiS->MergedFBAuto = TRUE; } } if(xf86GetOptValBool(pSiS->Options, OPTION_MERGEDFBAUTO, &val)) { if(!pSiS->MergedFB) { if(val) pSiS->MergedFB = pSiS->MergedFBAuto = TRUE; } else { xf86DrvMsg(pScrn->scrnIndex, X_WARNING, "Option \"MergedFB\" overrules option \"MergedFBAuto\"\n"); } } if(pSiS->MergedFB) { if((strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_CRT2POS))) { int result; Bool valid = FALSE; char *tempstr = xalloc(strlen(strptr) + 1); result = sscanf(strptr, "%s %d", tempstr, &ival); if(result >= 1) { if(!xf86NameCmp(tempstr,"LeftOf")) { pSiS->CRT2Position = sisLeftOf; valid = TRUE; if(result == 2) { if(ival < 0) pSiS->CRT1YOffs = -ival; else pSiS->CRT2YOffs = ival; } #ifdef SISXINERAMA pSiS->CRT2IsScrn0 = TRUE; #endif } else if(!xf86NameCmp(tempstr,"RightOf")) { pSiS->CRT2Position = sisRightOf; valid = TRUE; if(result == 2) { if(ival < 0) pSiS->CRT1YOffs = -ival; else pSiS->CRT2YOffs = ival; } #ifdef SISXINERAMA pSiS->CRT2IsScrn0 = FALSE; #endif } else if(!xf86NameCmp(tempstr,"Above")) { pSiS->CRT2Position = sisAbove; valid = TRUE; if(result == 2) { if(ival < 0) pSiS->CRT1XOffs = -ival; else pSiS->CRT2XOffs = ival; } #ifdef SISXINERAMA pSiS->CRT2IsScrn0 = FALSE; #endif } else if(!xf86NameCmp(tempstr,"Below")) { pSiS->CRT2Position = sisBelow; valid = TRUE; if(result == 2) { if(ival < 0) pSiS->CRT1XOffs = -ival; else pSiS->CRT2XOffs = ival; } #ifdef SISXINERAMA pSiS->CRT2IsScrn0 = TRUE; #endif } else if(!xf86NameCmp(tempstr,"Clone")) { pSiS->CRT2Position = sisClone; if(result == 1) valid = TRUE; #ifdef SISXINERAMA pSiS->CRT2IsScrn0 = TRUE; #endif } } if(!valid) { SiS_PrintBadOpt(pScrn, strptr, OPTION_CRT2POS); xf86DrvMsg(pScrn->scrnIndex, X_INFO, "%s \"RightOf\", \"LeftOf\", \"Above\", \"Below\", or \"Clone\"\n", validparm); xf86DrvMsg(pScrn->scrnIndex, X_INFO, "Except for \"Clone\", the parameter may be followed by an integer.\n"); } xfree(tempstr); } if((strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_METAMODES))) { pSiS->MetaModes = xalloc(strlen(strptr) + 1); if(pSiS->MetaModes) memcpy(pSiS->MetaModes, strptr, strlen(strptr) + 1); } if((strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_CRT2HSYNC))) { pSiS->CRT2HSync = xalloc(strlen(strptr) + 1); if(pSiS->CRT2HSync) memcpy(pSiS->CRT2HSync, strptr, strlen(strptr) + 1); } if((strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_CRT2VREFRESH))) { pSiS->CRT2VRefresh = xalloc(strlen(strptr) + 1); if(pSiS->CRT2VRefresh) memcpy(pSiS->CRT2VRefresh, strptr, strlen(strptr) + 1); } if((strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_MERGEDDPI))) { int val1 = 0, val2 = 0; sscanf(strptr, "%d %d", &val1, &val2); if(val1 && val2) { pSiS->MergedFBXDPI = val1; pSiS->MergedFBYDPI = val2; } else { SiS_PrintBadOpt(pScrn, strptr, OPTION_MERGEDDPI); } } #ifdef SISXINERAMA if(pSiS->MergedFB) { if(xf86GetOptValBool(pSiS->Options, OPTION_SISXINERAMA, &val)) { if(!val) pSiS->UseSiSXinerama = FALSE; } if(pSiS->UseSiSXinerama) { if(xf86GetOptValBool(pSiS->Options, OPTION_CRT2ISSCRN0, &val)) { pSiS->CRT2IsScrn0 = val ? TRUE : FALSE; } if(xf86GetOptValBool(pSiS->Options, OPTION_MERGEDFBNONRECT, &val)) { pSiS->NonRect = val ? TRUE : FALSE; } if(xf86GetOptValBool(pSiS->Options, OPTION_MERGEDFBMOUSER, &val)) { pSiS->MouseRestrictions = val ? TRUE : FALSE; } } } #endif } } #endif /* Some options can only be specified in the Master Head's Device * section. Here we give the user a hint in the log. */ #ifdef SISDUALHEAD if((pSiS->DualHeadMode) && (pSiS->SecondHead)) { static const char *mystring = "Option \"%s\" only accepted in CRT2 (Master) Device section\n"; int i; const short forbiddenopts[] = { OPTION_TURBOQUEUE, OPTION_RESTOREBYSET, OPTION_ENABLEHOTKEY, OPTION_ENABLESISCTRL, OPTION_USEROMDATA, OPTION_USEOEM, OPTION_FORCECRT1, OPTION_DDCFORCRT2, OPTION_FORCECRT2REDETECTION, OPTION_SENSEYPBPR, OPTION_FORCE_CRT1TYPE, OPTION_FORCE_CRT2TYPE, OPTION_YPBPRAR, OPTION_SCALELCD, OPTION_CENTERLCD, OPTION_PDC, OPTION_PDCA, OPTION_EMI, OPTION_SPECIALTIMING, OPTION_LVDSHL, OPTION_TVSTANDARD, OPTION_CHTVTYPE, OPTION_CHTVOVERSCAN, OPTION_CHTVSOVERSCAN, OPTION_CHTVLUMABANDWIDTHCVBS, OPTION_CHTVLUMABANDWIDTHSVIDEO, OPTION_CHTVLUMAFLICKERFILTER, OPTION_CHTVCHROMABANDWIDTH, OPTION_CHTVCHROMAFLICKERFILTER, OPTION_CHTVCVBSCOLOR, OPTION_CHTVTEXTENHANCE, OPTION_CHTVCONTRAST, OPTION_SISTVEDGEENHANCE, OPTION_SISTVANTIFLICKER, OPTION_SISTVSATURATION, OPTION_SISTVCHROMAFILTER, OPTION_SISTVLUMAFILTER, OPTION_SISTVCOLCALIBCOARSE, OPTION_SISTVCOLCALIBFINE, OPTION_TVXPOSOFFSET, OPTION_TVYPOSOFFSET, OPTION_TVXSCALE, OPTION_TVYSCALE, OPTION_TVBLUE, OPTION_CRT2GAMMA, OPTION_XVONCRT2, OPTION_XVDEFAULTADAPTOR, OPTION_XVMEMCPY, OPTION_XVBENCHCPY, OPTION_FORCE2ASPECT, #if defined(SIS_USE_XAA) && defined(SIS_USE_EXA) OPTION_ACCELMETHOD, #endif #ifndef SISCHECKOSSSE OPTION_XVSSECOPY, #endif #ifdef SIS_CP SIS_CP_OPT_DH_WARN #endif -1 }; i = 0; while(forbiddenopts[i] >= 0) { if(xf86IsOptionSet(pSiS->Options, (int)forbiddenopts[i])) { xf86DrvMsg(pScrn->scrnIndex, X_WARNING, mystring, pSiS->Options[SiS_FIFT(pSiS->Options, (int)forbiddenopts[i])].name); } i++; } } else #endif { if(pSiS->VGAEngine == SIS_315_VGA) { #ifdef SISVRAMQ xf86DrvMsg(pScrn->scrnIndex, X_INFO, "Using VRAM command queue, size %dk\n", pSiS->cmdQueueSize / 1024); #else xf86DrvMsg(pScrn->scrnIndex, X_INFO, "Using MMIO command queue, size 512k\n"); #endif } else { /* TurboQueue */ from = X_DEFAULT; if(xf86GetOptValBool(pSiS->Options, OPTION_TURBOQUEUE, &pSiS->TurboQueue)) { from = X_CONFIG; } xf86DrvMsg(pScrn->scrnIndex, from, "TurboQueue %s\n", pSiS->TurboQueue ? enabledstr : disabledstr); } if((pSiS->VGAEngine == SIS_300_VGA) || (pSiS->VGAEngine == SIS_315_VGA)) { /* RestoreBySetMode (300/315/330 series only) * Set this to force the driver to set the old mode instead of restoring * the register contents. This can be used to overcome problems with * LCD panels and video bridges. */ if(xf86GetOptValBool(pSiS->Options, OPTION_RESTOREBYSET, &val)) { pSiS->restorebyset = val ? TRUE : FALSE; } /* EnableHotkey (300/315/330 series and later only) * Enables or disables the BIOS hotkey switch for * switching the output device on laptops. * This key causes a total machine hang on many 300 series * machines, it is therefore by default disabled on such. * In dual head mode, using the hotkey is lethal, so we * forbid it then in any case. * However, although the driver disables the hotkey as * BIOS developers intented to do that, some buggy BIOSes * still cause the machine to freeze. Hence the warning. */ ival = 0; from = X_DEFAULT; #ifdef SISDUALHEAD if(pSiS->DualHeadMode) { pSiS->AllowHotkey = 0; ival = 1; } else #endif if(xf86GetOptValBool(pSiS->Options, OPTION_ENABLEHOTKEY, &val)) { pSiS->AllowHotkey = val ? 1 : 0; from = X_CONFIG; } xf86DrvMsg(pScrn->scrnIndex, from, "Hotkey display switching is %s%s\n", pSiS->AllowHotkey ? enabledstr : disabledstr, ival ? " in dual head mode" : ""); if(pSiS->Chipset == PCI_CHIP_SIS630 || pSiS->Chipset == PCI_CHIP_SIS650 || pSiS->Chipset == PCI_CHIP_SIS660) { xf86DrvMsg(pScrn->scrnIndex, X_INFO, "WARNING: Using the Hotkey might freeze your machine, regardless\n"); xf86DrvMsg(pScrn->scrnIndex, X_INFO, " whether enabled or disabled. This is no driver bug.\n"); } /* UseROMData (300/315/330 series and later only) * This option is enabling/disabling usage of some machine * specific data from the BIOS ROM. This option can - and * should - be used in case the driver makes problems * because SiS changed the location of this data. */ if(xf86GetOptValBool(pSiS->Options, OPTION_USEROMDATA, &val)) { pSiS->OptROMUsage = val ? 1 : 0; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Video ROM data usage shall be %s\n", val ? enabledstr : disabledstr); } /* UseOEMData (300/315/330 series and later only) * The driver contains quite a lot data for OEM LCD panels * and TV connector specifics which override the defaults. * If this data is incorrect, the TV may lose color and * the LCD panel might show some strange effects. Use this * option to disable the usage of this data. */ if(xf86GetOptValBool(pSiS->Options, OPTION_USEOEM, &val)) { pSiS->OptUseOEM = val ? 1 : 0; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Internal CRT2 OEM data usage shall be %s\n", val ? enabledstr : disabledstr); } /* CRT2DDCDetection (315/330 series and later only) * If set to true, this disables CRT2 detection using DDC. This is * to avoid problems with not entirely DDC compiant LCD panels or * VGA monitors connected to the secondary VGA plug. Since LCD and * VGA share the same DDC channel, it might in some cases be impossible * to determine if the device is a CRT monitor or a flat panel. */ if(xf86GetOptValBool(pSiS->Options, OPTION_DDCFORCRT2, &val)) { pSiS->nocrt2ddcdetection = val ? FALSE : TRUE; } /* ForceCRT2ReDetection (315/330 series and later only) * If set to true, it forces re-detection of the LCD panel and * a secondary VGA connection even if the BIOS already had found * about it. This is meant for custom panels (ie such with * non-standard resolutions) which the BIOS will "detect" according * to the established timings, resulting in only a very vague idea * about the panels real resolution. As for secondary VGA, this * enables us to include a Plasma panel's proprietary modes. */ if(xf86GetOptValBool(pSiS->Options, OPTION_FORCECRT2REDETECTION, &val)) { if(val) { pSiS->forcecrt2redetection = TRUE; pSiS->nocrt2ddcdetection = FALSE; } else pSiS->forcecrt2redetection = FALSE; } /* SenseYPbPr (315/330 series and later only) * If set to true, the driver will sense for YPbPr TV. This is * inconvenient for folks connecting SVideo and CVBS at the same * time, because this condition will be detected as YPbPr (since * the TV output pins are shared). "False" will not sense for * YPbPr and detect SVideo or CVBS only. */ if(xf86GetOptValBool(pSiS->Options, OPTION_SENSEYPBPR, &val)) { if(val) pSiS->SenseYPbPr = TRUE; else pSiS->SenseYPbPr = FALSE; } /* ForceCRT1Type (315/330 series and later only) * Used for forcing the driver to initialize CRT1 as * VGA (analog) or LCDA (for simultanious LCD and TV * display) - on M650/651 and 661 or later with 301C/30xLV only! */ if(pSiS->VGAEngine == SIS_315_VGA) { if((strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_FORCE_CRT1TYPE))) { if((!xf86NameCmp(strptr,"VGA")) || (!xf86NameCmp(strptr,"CRT"))) { pSiS->ForceCRT1Type = CRT1_VGA; pSiS->CRT1TypeForced = TRUE; } else if( (!xf86NameCmp(strptr,"LCD")) || (!xf86NameCmp(strptr,"LCDA")) || (!xf86NameCmp(strptr,"DVI-D")) || (!xf86NameCmp(strptr,"DVID")) || (!xf86NameCmp(strptr,"DVI")) || (!xf86NameCmp(strptr,"LCD-A")) ) { pSiS->ForceCRT1Type = CRT1_LCDA; pSiS->CRT1TypeForced = TRUE; } else if((!xf86NameCmp(strptr,"NONE")) || (!xf86NameCmp(strptr,"OFF"))) { pSiS->ForceCRT1Type = CRT1_VGA; pSiS->forceCRT1 = 0; pSiS->CRT1TypeForced = TRUE; } else { SiS_PrintBadOpt(pScrn, strptr, OPTION_FORCE_CRT1TYPE); xf86DrvMsg(pScrn->scrnIndex, X_INFO, "%s \"VGA\" (alias \"CRT\"), \"LCD\" (alias \"DVI-D\") or NONE\n", validparm); } } } /* ForceCRT1 (300/315/330 series and later only) * This option can be used to force CRT1 (VGA) to be switched on/off. Its * intention is mainly for old monitors that can't be detected * automatically. This is only useful on machines with a video bridge. * In normal cases, this option won't be necessary. */ if(pSiS->ForceCRT1Type == CRT1_VGA) { if(xf86GetOptValBool(pSiS->Options, OPTION_FORCECRT1, &val)) { pSiS->forceCRT1 = val ? 1 : 0; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "CRT1 shall be forced %s\n", val ? "ON" : "OFF"); } } /* ForceCRT2Type (300/315/330 series and later only) * Used for forcing the driver to use a given CRT2 device type. * (SVIDEO, COMPOSITE and SCART for overriding detection) */ strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_FORCE_CRT2TYPE); if(strptr != NULL) { if(!xf86NameCmp(strptr,"TV")) pSiS->ForceCRT2Type = CRT2_TV; else if( (!xf86NameCmp(strptr,"SVIDEO")) || (!xf86NameCmp(strptr,"SVHS")) ) { pSiS->ForceCRT2Type = CRT2_TV; pSiS->ForceTVType = TV_SVIDEO; } else if( (!xf86NameCmp(strptr,"COMPOSITE")) || (!xf86NameCmp(strptr,"CVBS")) ) { pSiS->ForceCRT2Type = CRT2_TV; pSiS->ForceTVType = TV_AVIDEO; } else if( (!xf86NameCmp(strptr,"COMPOSITE SVIDEO")) || /* Ugly, but shorter than a parsing function */ (!xf86NameCmp(strptr,"COMPOSITE+SVIDEO")) || (!xf86NameCmp(strptr,"SVIDEO+COMPOSITE")) || (!xf86NameCmp(strptr,"SVIDEO COMPOSITE")) ) { pSiS->ForceCRT2Type = CRT2_TV; pSiS->ForceTVType = (TV_SVIDEO | TV_AVIDEO); } else if(!xf86NameCmp(strptr,"SCART")) { pSiS->ForceCRT2Type = CRT2_TV; pSiS->ForceTVType = TV_SCART; } else if((!xf86NameCmp(strptr,"LCD")) || (!xf86NameCmp(strptr,"DVI-D"))) { if(pSiS->ForceCRT1Type == CRT1_VGA) { pSiS->ForceCRT2Type = CRT2_LCD; } else { pSiS->ForceCRT2Type = 0; xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "Can't set both CRT1 and CRT2 type to LCD; CRT2 disabled\n"); } } else if((!xf86NameCmp(strptr,"VGA")) || (!xf86NameCmp(strptr,"DVI-A")) || (!xf86NameCmp(strptr,"CRT"))) { if(pSiS->ForceCRT1Type == CRT1_VGA) { pSiS->ForceCRT2Type = CRT2_VGA; } else { pSiS->ForceCRT2Type = 0; xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "CRT2 can only be TV or off while CRT1 is LCD; CRT2 disabled\n"); } } else if(!xf86NameCmp(strptr,"NONE")) pSiS->ForceCRT2Type = 0; else if((!xf86NameCmp(strptr,"DSTN")) && (pSiS->Chipset == PCI_CHIP_SIS550)) { if(pSiS->ForceCRT1Type == CRT1_VGA) { pSiS->ForceCRT2Type = CRT2_LCD; pSiS->DSTN = TRUE; } } else if((!xf86NameCmp(strptr,"FSTN")) && (pSiS->Chipset == PCI_CHIP_SIS550)) { if(pSiS->ForceCRT1Type == CRT1_VGA) { pSiS->ForceCRT2Type = CRT2_LCD; pSiS->FSTN = TRUE; } #ifdef ENABLE_YPBPR } else if(!xf86NameCmp(strptr,"HIVISION")) { pSiS->ForceCRT2Type = CRT2_TV; pSiS->ForceTVType = TV_HIVISION; } else if((!xf86NameCmp(strptr,"YPBPR1080I")) && (pSiS->VGAEngine == SIS_315_VGA)) { pSiS->ForceCRT2Type = CRT2_TV; pSiS->ForceTVType = TV_YPBPR; pSiS->ForceYPbPrType = TV_YPBPR1080I; } else if(((!xf86NameCmp(strptr,"YPBPR525I")) || (!xf86NameCmp(strptr,"YPBPR480I"))) && (pSiS->VGAEngine == SIS_315_VGA)) { pSiS->ForceCRT2Type = CRT2_TV; pSiS->ForceTVType = TV_YPBPR; pSiS->ForceYPbPrType = TV_YPBPR525I; } else if(((!xf86NameCmp(strptr,"YPBPR525P")) || (!xf86NameCmp(strptr,"YPBPR480P"))) && (pSiS->VGAEngine == SIS_315_VGA)) { pSiS->ForceCRT2Type = CRT2_TV; pSiS->ForceTVType = TV_YPBPR; pSiS->ForceYPbPrType = TV_YPBPR525P; } else if(((!xf86NameCmp(strptr,"YPBPR625I")) || (!xf86NameCmp(strptr,"YPBPR576I"))) && (pSiS->VGAEngine == SIS_315_VGA)) { pSiS->ForceCRT2Type = CRT2_TV; pSiS->ForceTVType = TV_YPBPR; pSiS->ForceYPbPrType = TV_YPBPR625I; } else if(((!xf86NameCmp(strptr,"YPBPR625P")) || (!xf86NameCmp(strptr,"YPBPR576P"))) && (pSiS->VGAEngine == SIS_315_VGA)) { pSiS->ForceCRT2Type = CRT2_TV; pSiS->ForceTVType = TV_YPBPR; pSiS->ForceYPbPrType = TV_YPBPR625P; } else if(((!xf86NameCmp(strptr,"YPBPR750P")) || (!xf86NameCmp(strptr,"YPBPR720P"))) && (pSiS->VGAEngine == SIS_315_VGA)) { pSiS->ForceCRT2Type = CRT2_TV; pSiS->ForceTVType = TV_YPBPR; pSiS->ForceYPbPrType = TV_YPBPR750P; #endif } else { SiS_PrintBadOpt(pScrn, strptr, OPTION_FORCE_CRT2TYPE); xf86DrvMsg(pScrn->scrnIndex, X_INFO, "%s \"LCD\" (=\"DVI-D\"), \"TV\", \"SVIDEO\", \"COMPOSITE\",\n" "\t\"SVIDEO+COMPOSITE\", \"SCART\", \"VGA\" (=\"DVI-A\") or \"NONE\"; on the SiS550\n" "\talso \"DSTN\" and \"FSTN\"" #ifdef ENABLE_YPBPR "; on SiS 301/301B bridges also \"HIVISION\", and on\n" "\tSiS315/330/340 series with 301C/30xLV bridge also \"YPBPR480I\", \"YPBPR480P\",\n" "\t\"YPBPR576I\", \"YPBPR576P\", \"YPBPR720P\" and \"YPBPR1080I\"" #endif "\n", validparm); } if(pSiS->ForceCRT2Type != CRT2_DEFAULT) xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "CRT2 type shall be %s\n", strptr); } if(pSiS->ForceTVType == TV_YPBPR) { strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_YPBPRAR); if(strptr != NULL) { if(!xf86NameCmp(strptr,"4:3LB")) pSiS->ForceYPbPrAR = TV_YPBPR43LB; else if(!xf86NameCmp(strptr,"4:3")) pSiS->ForceYPbPrAR = TV_YPBPR43; else if(!xf86NameCmp(strptr,"16:9")) pSiS->ForceYPbPrAR = TV_YPBPR169; else { SiS_PrintBadOpt(pScrn, strptr, OPTION_YPBPRAR); xf86DrvMsg(pScrn->scrnIndex, X_INFO, "%s \"4:3LB\", \"4:3\" and \"16:9\"\n", validparm); } } } strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_SPECIALTIMING); if(strptr != NULL) { int i = 0; Bool found = FALSE; if(!xf86NameCmp(strptr,"NONE")) { pSiS->SiS_Pr->SiS_CustomT = CUT_FORCENONE; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Special timing disabled\n"); } else { while(SiS_customttable[i].chipID != 0) { if(!xf86NameCmp(strptr,SiS_customttable[i].optionName)) { pSiS->SiS_Pr->SiS_CustomT = SiS_customttable[i].SpecialID; found = TRUE; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Special timing for %s %s forced\n", SiS_customttable[i].vendorName, SiS_customttable[i].cardName); break; } i++; } if(!found) { SiS_PrintBadOpt(pScrn, strptr, OPTION_SPECIALTIMING); xf86DrvMsg(pScrn->scrnIndex, X_INFO, "%s:\n", validparm); xf86DrvMsg(pScrn->scrnIndex, X_INFO, "\t\"NONE\" (to disable special timings)\n"); i = 0; while(SiS_customttable[i].chipID != 0) { xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "\t\"%s\" (for %s %s)\n", SiS_customttable[i].optionName, SiS_customttable[i].vendorName, SiS_customttable[i].cardName); i++; } } } } /* EnableSiSCtrl */ /* Allow sisctrl tool to change driver settings */ from = X_DEFAULT; if(xf86GetOptValBool(pSiS->Options, OPTION_ENABLESISCTRL, &val)) { if(val) pSiS->enablesisctrl = TRUE; from = X_CONFIG; } xf86DrvMsg(pScrn->scrnIndex, from, "SiSCtrl utility interface is %s\n", pSiS->enablesisctrl ? enabledstr : disabledstr); if((from == X_DEFAULT) && (!pSiS->enablesisctrl)) { xf86DrvMsg(pScrn->scrnIndex, X_INFO, "For information on SiSCtrl, see\n\t\thttp://www.winischhofer.at/linuxsispart1.shtml#sisctrl\n"); } /* ForceCRT1Aspect, ForceCRT2Aspect */ /* Make driver believe that a connected CRT/VGA device is 4:3 ("normal") * or 16:9 ("wide"). Note: This affects only for real VGA (analog) * output devices, not TV or DVI/LCD. */ if(pSiS->VGAEngine == SIS_315_VGA) { strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_FORCE2ASPECT); if(strptr != NULL) { if(!xf86NameCmp(strptr,"WIDE")) { pSiS->SiS_Pr->SiS_UseWideCRT2 = TRUE; } else if(!xf86NameCmp(strptr,"NORMAL")) { pSiS->SiS_Pr->SiS_UseWideCRT2 = FALSE; } else { SiS_PrintBadOpt(pScrn, strptr, OPTION_FORCE2ASPECT); xf86DrvMsg(pScrn->scrnIndex, X_INFO, "%s:\n", validparm); xf86DrvMsg(pScrn->scrnIndex, X_INFO, "\t\"NORMAL\" or \"WIDE\"\n"); } /* Print status later */ } } /* ScaleLCD (300/315/330 series and later only) * Can be used to force the bridge/panel link to [do|not do] the * scaling of modes lower than the panel's native resolution. * Setting this to TRUE will force the bridge/panel link * to scale; FALSE will rely on the panel's capabilities. * Not supported on all machines. */ if(xf86GetOptValBool(pSiS->Options, OPTION_SCALELCD, &val)) { pSiS->UsePanelScaler = val ? 0 : 1; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "LCD scaling is %s\n", pSiS->UsePanelScaler ? disabledstr : enabledstr); } /* CenterLCD (300/315/330/later + SiS video bridge only) * If LCD shall not be scaled, this selects whether 1:1 data * will be sent to the output, or the image shall be centered * on the LCD. For LVDS panels, screen will always be centered, * since these have no built-in scaler. For TMDS, this is * selectable. Non-centered means that the driver will pass * 1:1 data to the output and that the panel will have to * scale by itself (if supported by the panel). */ if(xf86GetOptValBool(pSiS->Options, OPTION_CENTERLCD, &val)) { pSiS->CenterLCD = val ? 1 : 0; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Non-scaled LCD output will %sbe centered\n", pSiS->CenterLCD ? "not " : ""); } /* PanelDelayCompensation (300/315/330 series and later only) * This might be required if the LCD panel shows "small waves" * or wrong colors. * The parameter is an integer, (on 300 series usually either * 4, 32 or 24; on 315 series + LV bridge usually 3 or 51) * Why this option? Simply because SiS did poor BIOS design. * The PDC value depends on the very LCD panel used in a * particular machine. For most panels, the driver is able * to detect the correct value. However, some panels require * a different setting. For 300 series, the value given must * be within the mask 0x3c. For 661 and later, if must be * within the range of 0 to 31. */ ival = -1; xf86GetOptValInteger(pSiS->Options, OPTION_PDC, &ival); if(ival != -1) { pSiS->PDC = ival; if((pSiS->VGAEngine == SIS_300_VGA) && (pSiS->PDC & ~0x3c)) { xf86DrvMsg(pScrn->scrnIndex, X_WARNING, "Invalid PanelDelayCompensation parameter\n"); pSiS->PDC = -1; } else { if(pSiS->VGAEngine == SIS_315_VGA) pSiS->PDC &= 0x1f; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Panel delay compensation shall be %d (for LCD=CRT2)\n", pSiS->PDC); } } /* PanelDelayCompensation1 (315/330 series and later only) * Same as above, but for LCD-via-CRT1 ("LCDA") */ if(pSiS->VGAEngine == SIS_315_VGA) { ival = -1; xf86GetOptValInteger(pSiS->Options, OPTION_PDCA, &ival); if(ival != -1) { pSiS->PDCA = ival; if(pSiS->PDCA > 0x1f) { SiS_PrintIlRange(pScrn, OPTION_PDCA, 0, 31, 0); pSiS->PDCA = -1; } else { xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Panel delay compensation shall be %d (for LCD=CRT1)\n", pSiS->PDCA); } } } /* LVDSHL (300/315/330/later series + 30xLV bridge only) * This might be required if the LCD panel is too dark. * The parameter is an integer from 0 to 3. */ if(xf86GetOptValInteger(pSiS->Options, OPTION_LVDSHL, &pSiS->SiS_Pr->LVDSHL)) { if((pSiS->SiS_Pr->LVDSHL < 0) || (pSiS->SiS_Pr->LVDSHL > 3)) { SiS_PrintIlRange(pScrn, OPTION_LVDSHL, 0, 3, 0); pSiS->SiS_Pr->LVDSHL = -1; } else { xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "LVDSHL will be %d\n", pSiS->SiS_Pr->LVDSHL); } } /* EMI (315/330/later series + 302LV/302ELV bridge only) * This might be required if the LCD panel loses sync on * mode switches. So far, this problem should not show up * due to the auto-detection (from reading the values set * by the BIOS; however, the BIOS values are wrong sometimes * such as in the case of some Compal machines with a * 1400x1050, or some Inventec(Compaq) machines with a * 1280x1024 panel. * The parameter is an integer from 0 to 0x60ffffff. */ if(xf86GetOptValInteger(pSiS->Options, OPTION_EMI, &pSiS->EMI)) { if((pSiS->EMI < 0) || (pSiS->EMI > 0x60ffffff)) { SiS_PrintIlRange(pScrn, OPTION_LVDSHL, 0, 0x60ffffff, 1); pSiS->EMI = -1; } else { pSiS->EMI &= 0x60ffffff; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "EMI will be 0x%04x\n", pSiS->EMI); } } /* TVBlueWorkAround (315/later series only) * TRUE and FALSE are two ways to work around a "blue shade" on * TV output. This work-around is disabled by not setting the * option. 315 series + 301B-DH only. */ if(pSiS->VGAEngine == SIS_315_VGA) { if(xf86GetOptValBool(pSiS->Options, OPTION_TVBLUE, &val)) { pSiS->SiS_Pr->SiS_TVBlue = val ? 1 : 0; } } /* ForcePanelRGB (300/315/330 series and later only) * Can be used to force the bridge/panel link to assume a * specified LCD color capability of 18 or 24 bit in cases * where the BIOS carries incorrect information (such as in * the case of the MSI m250). */ if(xf86GetOptValInteger(pSiS->Options, OPTION_PRGB, &pSiS->PRGB)) { if((pSiS->PRGB != 18 && pSiS->PRGB != 24)) { pSiS->PRGB = -1; SiS_PrintBadOpt(pScrn, strptr, OPTION_PRGB); } else { xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "LCD panel color depth is %d\n", pSiS->PRGB); } } } /* TVStandard (300/315/330/later series and 6326 w/ TV only) * This option is for overriding the autodetection of * the BIOS/Jumper option for PAL / NTSC */ if((pSiS->VGAEngine == SIS_300_VGA) || (pSiS->VGAEngine == SIS_315_VGA) || ((pSiS->Chipset == PCI_CHIP_SIS6326) && (pSiS->SiS6326Flags & SIS6326_HASTV))) { strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_TVSTANDARD); if(strptr != NULL) { if(!xf86NameCmp(strptr,"PAL")) pSiS->OptTVStand = 1; else if((!xf86NameCmp(strptr,"PALM")) || (!xf86NameCmp(strptr,"PAL-M"))) { pSiS->OptTVStand = 1; pSiS->NonDefaultPAL = 1; } else if((!xf86NameCmp(strptr,"PALN")) || (!xf86NameCmp(strptr,"PAL-N"))) { pSiS->OptTVStand = 1; pSiS->NonDefaultPAL = 0; } else if((!xf86NameCmp(strptr,"NTSCJ")) || (!xf86NameCmp(strptr,"NTSC-J"))) { pSiS->OptTVStand = 0; pSiS->NonDefaultNTSC = 1; } else if(!xf86NameCmp(strptr,"NTSC")) pSiS->OptTVStand = 0; else { SiS_PrintBadOpt(pScrn, strptr, OPTION_TVSTANDARD); xf86DrvMsg(pScrn->scrnIndex, X_INFO, "%s \"PAL\", \"PALM\", \"PALN\", \"NTSC\", \"NTSCJ\"\n", validparm); } if(pSiS->OptTVStand != -1) { static const char *tvstdstr = "TV standard shall be %s\n"; if(pSiS->Chipset == PCI_CHIP_SIS6326) { pSiS->NonDefaultPAL = -1; pSiS->NonDefaultNTSC = -1; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, tvstdstr, pSiS->OptTVStand ? "PAL" : "NTSC"); } else { xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, tvstdstr, (pSiS->OptTVStand ? ( (pSiS->NonDefaultPAL == -1) ? "PAL" : ((pSiS->NonDefaultPAL) ? "PALM" : "PALN") ) : (pSiS->NonDefaultNTSC == -1) ? "NTSC" : "NTSCJ")); } } } } /* CHTVType (315/330/later series + Chrontel only) * Used for telling the driver if the TV output shall * be 525i YPbPr or SCART. */ if(pSiS->VGAEngine == SIS_315_VGA) { strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_CHTVTYPE); if(strptr != NULL) { if(!xf86NameCmp(strptr,"SCART")) pSiS->chtvtype = 1; else if(!xf86NameCmp(strptr,"YPBPR525I")) pSiS->chtvtype = 0; else { SiS_PrintBadOpt(pScrn, strptr, OPTION_CHTVTYPE); xf86DrvMsg(pScrn->scrnIndex, X_INFO, "%s \"SCART\" or \"YPBPR525I\"\n", validparm); } if(pSiS->chtvtype != -1) xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Chrontel: TV type shall be %s\n", strptr); } } /* CHTVOverscan (300/315/330 series and later only) * CHTVSuperOverscan (300/315/330 series and later only) * These options are for overriding the BIOS option for * TV Overscan. Some BIOSes don't even have such an option. * SuperOverscan is only supported with PAL. * Both options are only effective on machines with a * CHRONTEL TV encoder. SuperOverscan is only available * on the 700x. */ if((pSiS->VGAEngine == SIS_300_VGA) || (pSiS->VGAEngine == SIS_315_VGA)) { if(xf86GetOptValBool(pSiS->Options, OPTION_CHTVOVERSCAN, &val)) { pSiS->OptTVOver = val ? 1 : 0; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Chrontel: TV overscan shall be %s\n", val ? enabledstr : disabledstr); } if(xf86GetOptValBool(pSiS->Options, OPTION_CHTVSOVERSCAN, &pSiS->OptTVSOver)) { xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Chrontel: TV super overscan shall be %s\n", pSiS->OptTVSOver ? enabledstr : disabledstr); } } /* Various parameters for TV output via SiS bridge, Chrontel or SiS6326 */ if((pSiS->VGAEngine == SIS_300_VGA) || (pSiS->VGAEngine == SIS_315_VGA)) { int tmp = 0; xf86GetOptValInteger(pSiS->Options, OPTION_CHTVLUMABANDWIDTHCVBS, &pSiS->chtvlumabandwidthcvbs); xf86GetOptValInteger(pSiS->Options, OPTION_CHTVLUMABANDWIDTHSVIDEO, &pSiS->chtvlumabandwidthsvideo); xf86GetOptValInteger(pSiS->Options, OPTION_CHTVLUMAFLICKERFILTER, &pSiS->chtvlumaflickerfilter); xf86GetOptValInteger(pSiS->Options, OPTION_CHTVCHROMABANDWIDTH, &pSiS->chtvchromabandwidth); xf86GetOptValInteger(pSiS->Options, OPTION_CHTVCHROMAFLICKERFILTER, &pSiS->chtvchromaflickerfilter); xf86GetOptValBool(pSiS->Options, OPTION_CHTVCVBSCOLOR, &pSiS->chtvcvbscolor); xf86GetOptValInteger(pSiS->Options, OPTION_CHTVTEXTENHANCE, &pSiS->chtvtextenhance); xf86GetOptValInteger(pSiS->Options, OPTION_CHTVCONTRAST, &pSiS->chtvcontrast); xf86GetOptValInteger(pSiS->Options, OPTION_SISTVEDGEENHANCE, &pSiS->sistvedgeenhance); xf86GetOptValInteger(pSiS->Options, OPTION_SISTVSATURATION, &pSiS->sistvsaturation); xf86GetOptValInteger(pSiS->Options, OPTION_SISTVLUMAFILTER, &pSiS->sistvyfilter); if((pSiS->sistvyfilter < 0) || (pSiS->sistvyfilter > 8)) { xf86DrvMsg(pScrn->scrnIndex, X_WARNING, "Illegal Y Filter number; valid is 0 (off), 1 (default), 2-8 (filter number 1-7)\n"); pSiS->sistvyfilter = 1; } xf86GetOptValBool(pSiS->Options, OPTION_SISTVCHROMAFILTER, &pSiS->sistvcfilter); xf86GetOptValInteger(pSiS->Options, OPTION_SISTVCOLCALIBCOARSE, &pSiS->sistvcolcalibc); xf86GetOptValInteger(pSiS->Options, OPTION_SISTVCOLCALIBFINE, &pSiS->sistvcolcalibf); if((pSiS->sistvcolcalibf > 127) || (pSiS->sistvcolcalibf < -128) || (pSiS->sistvcolcalibc > 120) || (pSiS->sistvcolcalibc < -120)) { pSiS->sistvcolcalibf = pSiS->sistvcolcalibc = 0; xf86DrvMsg(pScrn->scrnIndex, X_WARNING, "Illegal Color Calibration. Range is -128 to 127 (fine), -120 to 120 (coarse)\n"); } xf86GetOptValInteger(pSiS->Options, OPTION_TVXPOSOFFSET, &pSiS->tvxpos); xf86GetOptValInteger(pSiS->Options, OPTION_TVYPOSOFFSET, &pSiS->tvypos); if(pSiS->tvxpos > 32) { pSiS->tvxpos = 32; tmp = 1; } if(pSiS->tvxpos < -32) { pSiS->tvxpos = -32; tmp = 1; } if(pSiS->tvypos > 32) { pSiS->tvypos = 32; tmp = 1; } if(pSiS->tvypos < -32) { pSiS->tvypos = -32; tmp = 1; } if(tmp) xf86DrvMsg(pScrn->scrnIndex, X_WARNING, "Illegal TV x or y offset. Range is from -32 to 32\n"); tmp = 0; xf86GetOptValInteger(pSiS->Options, OPTION_TVXSCALE, &pSiS->tvxscale); xf86GetOptValInteger(pSiS->Options, OPTION_TVYSCALE, &pSiS->tvyscale); if(pSiS->tvxscale > 16) { pSiS->tvxscale = 16; tmp = 1; } if(pSiS->tvxscale < -16) { pSiS->tvxscale = -16; tmp = 1; } if(pSiS->tvyscale > 3) { pSiS->tvyscale = 3; tmp = 1; } if(pSiS->tvyscale < -4) { pSiS->tvyscale = -4; tmp = 1; } if(tmp) xf86DrvMsg(pScrn->scrnIndex, X_WARNING, "Illegal TV x or y scaling parameter. Range is from -16 to 16 (X), -4 to 3 (Y)\n"); } if((pSiS->Chipset == PCI_CHIP_SIS6326) && (pSiS->SiS6326Flags & SIS6326_HASTV)) { int tmp = 0; strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_SIS6326FORCETVPPLUG); if(strptr) { if(!xf86NameCmp(strptr,"COMPOSITE")) pSiS->sis6326tvplug = 1; else if(!xf86NameCmp(strptr,"SVIDEO")) pSiS->sis6326tvplug = 0; else { SiS_PrintBadOpt(pScrn, strptr, OPTION_SIS6326FORCETVPPLUG); xf86DrvMsg(pScrn->scrnIndex, X_INFO, "%s \"COMPOSITE\" or \"SVIDEO\"\n", validparm); } } xf86GetOptValBool(pSiS->Options, OPTION_SIS6326ENABLEYFILTER, &pSiS->sis6326enableyfilter); xf86GetOptValBool(pSiS->Options, OPTION_SIS6326YFILTERSTRONG, &pSiS->sis6326yfilterstrong); xf86GetOptValInteger(pSiS->Options, OPTION_TVXPOSOFFSET, &pSiS->tvxpos); xf86GetOptValInteger(pSiS->Options, OPTION_TVYPOSOFFSET, &pSiS->tvypos); if(pSiS->tvxpos > 16) { pSiS->tvxpos = 16; tmp = 1; } if(pSiS->tvxpos < -16) { pSiS->tvxpos = -16; tmp = 1; } if(pSiS->tvypos > 16) { pSiS->tvypos = 16; tmp = 1; } if(pSiS->tvypos < -16) { pSiS->tvypos = -16; tmp = 1; } if(tmp) xf86DrvMsg(pScrn->scrnIndex, X_WARNING, "Illegal TV x or y offset. Range is from -16 to 16\n"); xf86GetOptValInteger(pSiS->Options, OPTION_SIS6326FSCADJUST, &pSiS->sis6326fscadjust); if(pSiS->sis6326fscadjust) { xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Adjusting the default FSC by %d\n", pSiS->sis6326fscadjust); } } if((pSiS->VGAEngine == SIS_300_VGA) || (pSiS->VGAEngine == SIS_315_VGA) || ((pSiS->Chipset == PCI_CHIP_SIS6326) && (pSiS->SiS6326Flags & SIS6326_HASTV))) { Bool Is6326 = FALSE; strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_SISTVANTIFLICKER); if(!strptr) { strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_SIS6326ANTIFLICKER); Is6326 = TRUE; } if(strptr) { if(!xf86NameCmp(strptr,"OFF")) pSiS->sistvantiflicker = 0; else if(!xf86NameCmp(strptr,"LOW")) pSiS->sistvantiflicker = 1; else if(!xf86NameCmp(strptr,"MED")) pSiS->sistvantiflicker = 2; else if(!xf86NameCmp(strptr,"HIGH")) pSiS->sistvantiflicker = 3; else if(!xf86NameCmp(strptr,"ADAPTIVE")) pSiS->sistvantiflicker = 4; else { pSiS->sistvantiflicker = -1; SiS_PrintBadOpt(pScrn, strptr, Is6326 ? OPTION_SIS6326FORCETVPPLUG : OPTION_SISTVANTIFLICKER); xf86DrvMsg(pScrn->scrnIndex, X_INFO, "%s \"OFF\", \"LOW\", \"MED\", \"HIGH\" or \"ADAPTIVE\"\n", validparm); } } } /* CRT2Gamma - enable/disable/set gamma correction for CRT2 * Since 2004/11/26, this option is a boolean and string option * simulaniously. "TRUE" (or other valid bool values) have the * same effect as before: The driver uses the (global) Gamma * for both CRT1 and CRT2. Otherwise, this option takes one or * three floats between 0.1 and 10.0 which define a separate * gamma correction for CRT2. (SiS video bridges only.) */ if((pSiS->VGAEngine == SIS_300_VGA) || (pSiS->VGAEngine == SIS_315_VGA)) { if((strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_CRT2GAMMA))) { if(SiS_StrIsBoolOn(strptr)) { pSiS->CRT2gamma = TRUE; pSiS->CRT2SepGamma = FALSE; } else if(SiS_StrIsBoolOff(strptr)) { pSiS->CRT2gamma = pSiS->CRT2SepGamma = FALSE; } else { if(SiS_EvalOneOrThreeFloats(pScrn, OPTION_CRT2GAMMA, gammaopt, strptr, &pSiS->GammaR2i, &pSiS->GammaG2i, &pSiS->GammaB2i)) { pSiS->GammaR2 = (float)pSiS->GammaR2i / 1000.0; pSiS->GammaG2 = (float)pSiS->GammaG2i / 1000.0; pSiS->GammaB2 = (float)pSiS->GammaB2i / 1000.0; pSiS->CRT2gamma = TRUE; if(!IsDHM) pSiS->CRT2SepGamma = TRUE; else { #ifdef SISDUALHEAD pSiS->CRT2SepGamma = FALSE; xf86DrvMsg(pScrn->scrnIndex, X_INFO, "CRT2Gamma values overrule default and Monitor Gamma\n"); if(pScrn->monitor) { pScrn->monitor->gamma.red = pSiS->GammaR2; pScrn->monitor->gamma.green = pSiS->GammaG2; pScrn->monitor->gamma.blue = pSiS->GammaB2; } #endif } } } } } /* Default adaptor: Overlay (default) or blitter */ if(pSiS->VGAEngine == SIS_315_VGA) { if((strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_XVDEFAULTADAPTOR))) { if(!xf86NameCmp(strptr, "OVERLAY")) { pSiS->XvDefAdaptorBlit = FALSE; } else if(!xf86NameCmp(strptr, "BLITTER")) { pSiS->XvDefAdaptorBlit = TRUE; } else { SiS_PrintBadOpt(pScrn, strptr, OPTION_XVDEFAULTADAPTOR); xf86DrvMsg(pScrn->scrnIndex, X_INFO, "%s \"OVERLAY\" or \"BLITTER\"\n", validparm); } } } if(xf86GetOptValBool(pSiS->Options, OPTION_XVMEMCPY, &val)) { pSiS->XvUseMemcpy = val ? TRUE : FALSE; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Xv will %suse memcpy()\n", val ? "" : "not "); } #if defined(__i386__) || defined(__AMD64__) || defined(__amd64__) || defined(__x86_64__) if(xf86GetOptValBool(pSiS->Options, OPTION_XVBENCHCPY, &val)) { pSiS->BenchMemCpy = val ? TRUE : FALSE; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Will %sbenchmark methods for system RAM to video RAM transfers\n", val ? "" : "not "); } #ifndef SISCHECKOSSSE if(xf86GetOptValBool(pSiS->Options, OPTION_XVSSECOPY, &val)) { pSiS->XvSSEMemcpy = val ? TRUE : FALSE; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Will %s use SSE CPU instructions\n", val ? "eventually" : "not"); } #endif #endif /* __i386__ || __AMD64__ || __amd64__ */ #ifdef SIS_CP SIS_CP_OPT_DOOPT #endif } /* DualHead */ /* CRT1Gamma - enable/disable gamma correction for CRT1 */ if(xf86GetOptValBool(pSiS->Options, OPTION_CRT1GAMMA, &val)) { pSiS->CRT1gamma = val; pSiS->CRT1gammaGiven = TRUE; } /* ForceCRT1Aspect, ForceCRT2Aspect */ /* Make driver believe that a connected CRT/VGA device is 4:3 ("normal") * or 16:9 ("wide"). Note: This affects only for real VGA (analog) * output devices, not TV or DVI/LCD. */ if(pSiS->VGAEngine == SIS_315_VGA) { strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_FORCE1ASPECT); if(strptr != NULL) { if(!xf86NameCmp(strptr,"WIDE")) { pSiS->SiS_Pr->SiS_UseWide = 1; } else if(!xf86NameCmp(strptr,"NORMAL")) { pSiS->SiS_Pr->SiS_UseWide = 0; } else { SiS_PrintBadOpt(pScrn, strptr, OPTION_FORCE1ASPECT); xf86DrvMsg(pScrn->scrnIndex, X_INFO, "%s:\n", validparm); xf86DrvMsg(pScrn->scrnIndex, X_INFO, "\t\"NORMAL\" or \"WIDE\"\n"); } if(pSiS->SiS_Pr->SiS_UseWide != -1) { xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "CRT1 (VGA) aspect ratio will be assumed %s\n", pSiS->SiS_Pr->SiS_UseWide ? "wide" : "normal"); } } if(pSiS->SiS_Pr->SiS_UseWideCRT2 != -1) { xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "CRT2 (VGA) aspect ratio will be assumed %s\n", pSiS->SiS_Pr->SiS_UseWideCRT2 ? "wide" : "normal"); } } /* VESA - DEPRECATED * This option is for forcing the driver to use * the VESA BIOS extension for mode switching. */ if(xf86GetOptValBool(pSiS->Options, OPTION_VESA, &val)) { if(IsDHM) { xf86DrvMsg(pScrn->scrnIndex, X_WARNING, baddhm, pSiS->Options[SiS_FIFT(pSiS->Options, OPTION_VESA)].name); } else { pSiS->VESA = val ? 1 : 0; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "VESA: VESA usage shall be %s\n", val ? enabledstr : disabledstr); xf86DrvMsg(pScrn->scrnIndex, X_WARNING, "*** Option \"VESA\" is deprecated. *** \n"); if(pSiS->VESA) pSiS->ForceCRT1Type = CRT1_VGA; } } if((pSiS->VGAEngine == SIS_300_VGA) || (pSiS->VGAEngine == SIS_315_VGA)) { /* InternalModes (300/315/330 series only) * The default behavior is to replace X's default modes with * a mode list generated out of the known and supported modes. Use * this option to disable this. NOT RECOMMENDED. */ if(xf86GetOptValBool(pSiS->Options, OPTION_INTERNALMODES, &val)) { pSiS->noInternalModes = val ? FALSE : TRUE; if(pSiS->noInternalModes) { xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Usage of built-in modes is %s\n", disabledstr); } } } /* ShadowFB */ from = X_DEFAULT; if(xf86GetOptValBool(pSiS->Options, OPTION_SHADOW_FB, &pSiS->ShadowFB)) { #ifdef SISMERGED if(pSiS->MergedFB) { pSiS->ShadowFB = FALSE; xf86DrvMsg(pScrn->scrnIndex, X_WARNING, "Shadow Framebuffer not supported in MergedFB mode\n"); } else #endif from = X_CONFIG; } if(pSiS->ShadowFB) { pSiS->NoAccel = TRUE; #if XF86_VERSION_CURRENT < XF86_VERSION_NUMERIC(4,2,99,0,0) pSiS->NoXvideo = TRUE; xf86DrvMsg(pScrn->scrnIndex, from, "Using \"Shadow Framebuffer\" - 2D acceleration and Xv disabled\n"); #else xf86DrvMsg(pScrn->scrnIndex, from, "Using \"Shadow Framebuffer\" - 2D acceleration disabled\n"); #endif } /* Rotate */ if((strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_ROTATE))) { #ifdef SISMERGED if(pSiS->MergedFB) { xf86DrvMsg(pScrn->scrnIndex, X_WARNING, "Screen rotation not supported in MergedFB mode\n"); } else #endif if(IsDHM) { xf86DrvMsg(pScrn->scrnIndex, X_WARNING, baddhm, pSiS->Options[SiS_FIFT(pSiS->Options, OPTION_ROTATE)].name); } else if(!xf86NameCmp(strptr, "CW")) { pSiS->Rotate = 1; } else if(!xf86NameCmp(strptr, "CCW")) { pSiS->Rotate = -1; } else { SiS_PrintBadOpt(pScrn, strptr, OPTION_ROTATE); xf86DrvMsg(pScrn->scrnIndex, X_INFO, "%s \"CW\" or \"CCW\"\n", validparm); } if(pSiS->Rotate) { pSiS->ShadowFB = TRUE; pSiS->NoAccel = TRUE; pSiS->HWCursor = FALSE; pSiS->NoXvideo = TRUE; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Rotating screen %sclockwise (2D acceleration and Xv disabled)\n", (pSiS->Rotate == -1) ? "counter " : ""); } } /* Reflect */ if((strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_REFLECT))) { #ifdef SISMERGED if(pSiS->MergedFB) { xf86DrvMsg(pScrn->scrnIndex, X_WARNING, "Screen reflection not supported in MergedFB mode\n"); } else #endif if(IsDHM) { xf86DrvMsg(pScrn->scrnIndex, X_WARNING, baddhm, pSiS->Options[SiS_FIFT(pSiS->Options, OPTION_REFLECT)].name); } else if(pSiS->Rotate) { xf86DrvMsg(pScrn->scrnIndex, X_WARNING, "Screen rotation and reflection are mutually exclusive\n"); } else if(!xf86NameCmp(strptr, "X")) { pSiS->Reflect = 1; } else if(!xf86NameCmp(strptr, "Y")) { pSiS->Reflect = 2; } else if((!xf86NameCmp(strptr, "XY")) || (!xf86NameCmp(strptr, "YX"))) { pSiS->Reflect = 3; } else { SiS_PrintBadOpt(pScrn, strptr, OPTION_REFLECT); xf86DrvMsg(pScrn->scrnIndex, X_INFO, "%s \"X\", \"Y\" or \"XY\"\n", validparm); } if(pSiS->Reflect) { pSiS->ShadowFB = TRUE; pSiS->NoAccel = TRUE; pSiS->HWCursor = FALSE; pSiS->NoXvideo = TRUE; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Reflecting screen (2D acceleration and Xv disabled)\n"); } } #ifdef XF86DRI /* DRI */ from = X_DEFAULT; if(xf86GetOptValBool(pSiS->Options, OPTION_DRI, &pSiS->loadDRI)) { from = X_CONFIG; } xf86DrvMsg(pScrn->scrnIndex, from, "DRI %s\n", pSiS->loadDRI ? enabledstr : disabledstr); /* AGPSize = GARTSize */ if(xf86GetOptValInteger(pSiS->Options, OPTION_AGP_SIZE, &ival)) { if((ival >= 8) && (ival <= 512)) { pSiS->agpWantedPages = (ival * 1024 * 1024) / AGP_PAGE_SIZE; } else { SiS_PrintIlRange(pScrn, OPTION_AGP_SIZE, 8, 512, 0); } } #endif /* XVideo * Set enables/disables Xv hardware video acceleration */ #if XF86_VERSION_CURRENT < XF86_VERSION_NUMERIC(4,2,99,0,0) if((!pSiS->NoAccel) && (!pSiS->NoXvideo)) { #else if(!pSiS->NoXvideo) { #endif if(!xf86ReturnOptValBool(pSiS->Options, OPTION_XVIDEO, TRUE)) { pSiS->NoXvideo = TRUE; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "XVideo extension (Xv) disabled\n"); } if(!pSiS->NoXvideo) { if((pSiS->VGAEngine == SIS_300_VGA) || (pSiS->VGAEngine == SIS_315_VGA)) { /* XvOnCRT2 * On chipsets with only one overlay (315, 650, 740, 330), the user can * choose to display the overlay on CRT1 or CRT2. By setting this * option to TRUE, the overlay will be displayed on CRT2. The * default is: CRT1 if only CRT1 available, CRT2 if only CRT2 * available, and CRT1 if both is available and detected. * Since implementation of the XV_SWITCHCRT Xv property this only * selects the default CRT. */ if(xf86GetOptValBool(pSiS->Options, OPTION_XVONCRT2, &val)) { pSiS->XvOnCRT2 = val ? TRUE : FALSE; } } if((pSiS->VGAEngine == SIS_OLD_VGA) || (pSiS->VGAEngine == SIS_530_VGA)) { /* NoYV12 (for 5597/5598, 6326 and 530/620 only) * YV12 has problems with videos larger than 384x288. So * allow the user to disable YV12 support to force the * application to use YUV2 instead. */ if(xf86GetOptValBool(pSiS->Options, OPTION_YV12, &val)) { pSiS->NoYV12 = val ? 0 : 1; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Xv YV12/I420 support is %s\n", pSiS->NoYV12 ? disabledstr : enabledstr); } } /* Some Xv properties' defaults can be set by options */ if(xf86GetOptValInteger(pSiS->Options, OPTION_XVDEFCONTRAST, &ival)) { if((ival >= 0) && (ival <= 7)) pSiS->XvDefCon = ival; else SiS_PrintIlRange(pScrn, OPTION_XVDEFCONTRAST, 0, 7, 0); } if(xf86GetOptValInteger(pSiS->Options, OPTION_XVDEFBRIGHTNESS, &ival)) { if((ival >= -128) && (ival <= 127)) pSiS->XvDefBri = ival; else SiS_PrintIlRange(pScrn, OPTION_XVDEFBRIGHTNESS, -128, 127, 0); } if(pSiS->VGAEngine == SIS_315_VGA) { if(xf86GetOptValInteger(pSiS->Options, OPTION_XVDEFHUE, &ival)) { if((ival >= -8) && (ival <= 7)) pSiS->XvDefHue = ival; else SiS_PrintIlRange(pScrn, OPTION_XVDEFHUE, -8, 7, 0); } if(xf86GetOptValInteger(pSiS->Options, OPTION_XVDEFSATURATION, &ival)) { if((ival >= -7) && (ival <= 7)) pSiS->XvDefSat = ival; else SiS_PrintIlRange(pScrn, OPTION_XVDEFSATURATION, -7, 7, 0); } } if(xf86GetOptValBool(pSiS->Options, OPTION_XVDEFDISABLEGFX, &val)) { if(val) pSiS->XvDefDisableGfx = TRUE; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Graphics display will be %s during Xv usage\n", val ? disabledstr : enabledstr); } if((pSiS->VGAEngine == SIS_300_VGA) || (pSiS->VGAEngine == SIS_315_VGA)) { if(xf86GetOptValBool(pSiS->Options, OPTION_XVDEFDISABLEGFXLR, &val)) { if(val) pSiS->XvDefDisableGfxLR = TRUE; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Graphics display left/right of overlay will be %s during Xv usage\n", val ? disabledstr : enabledstr); } if(xf86GetOptValBool(pSiS->Options, OPTION_XVDISABLECOLORKEY, &val)) { if(val) pSiS->XvDisableColorKey = TRUE; xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Xv Color key is %s\n", val ? disabledstr : enabledstr); } if(xf86GetOptValBool(pSiS->Options, OPTION_XVUSECHROMAKEY, &val)) { xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Xv Chroma-keying is %s\n", val ? enabledstr : disabledstr); if(val) pSiS->XvUseChromaKey = TRUE; } if(xf86GetOptValBool(pSiS->Options, OPTION_XVINSIDECHROMAKEY, &val)) { xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Xv: Video is transparent if %s chroma key range\n", val ? "inside" : "outside"); if(val) pSiS->XvInsideChromaKey = TRUE; } if(pSiS->VGAEngine == SIS_300_VGA) { if(xf86GetOptValBool(pSiS->Options, OPTION_XVYUVCHROMAKEY, &val)) { xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Xv: Chroma key is in %s format\n", val ? "YUV" : "RGB"); if(val) pSiS->XvYUVChromaKey = TRUE; } } else { if(xf86GetOptValBool(pSiS->Options, OPTION_XVYUVCHROMAKEY, &val)) { xf86DrvMsgVerb(pScrn->scrnIndex, X_INFO, 4, "Xv: Chroma key is of same format as video source\n"); } } if(xf86GetOptValInteger(pSiS->Options, OPTION_XVCHROMAMIN, &ival)) { if((ival >= 0) && (ival <= 0xffffff)) pSiS->XvChromaMin = ival; else SiS_PrintIlRange(pScrn, OPTION_XVCHROMAMIN, 0, 0xffffff, 1); } if(xf86GetOptValInteger(pSiS->Options, OPTION_XVCHROMAMAX, &ival)) { if((ival >= 0) && (ival <= 0xffffff)) pSiS->XvChromaMax = ival; else SiS_PrintIlRange(pScrn, OPTION_XVCHROMAMAX, 0, 0xffffff, 1); } } if(pSiS->VGAEngine == SIS_315_VGA) { /* XvGamma - enable/disable gamma correction for Xv * Supported for CRT1 only */ if((strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_XVGAMMA))) { if(SiS_StrIsBoolOn(strptr)) { pSiS->XvGamma = pSiS->XvGammaGiven = TRUE; } else if(SiS_StrIsBoolOff(strptr)) { pSiS->XvGamma = FALSE; pSiS->XvGammaGiven = TRUE; } else { if(SiS_EvalOneOrThreeFloats(pScrn, OPTION_XVGAMMA, gammaopt, strptr, &pSiS->XvGammaRed, &pSiS->XvGammaGreen, &pSiS->XvGammaBlue)) { pSiS->XvGamma = pSiS->XvGammaGiven = TRUE; pSiS->XvGammaRedDef = pSiS->XvGammaRed; pSiS->XvGammaGreenDef = pSiS->XvGammaGreen; pSiS->XvGammaBlue = pSiS->XvGammaBlue; } } } } } } if((pSiS->VGAEngine == SIS_300_VGA) || (pSiS->VGAEngine == SIS_315_VGA)) { Bool GotNewBri = FALSE, GotOldBri = FALSE, GotCon = FALSE; if((strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_NEWSTOREDCON))) { SiS_EvalOneOrThreeFloats2(pScrn, OPTION_NEWSTOREDCON, newbriopt, strptr, &pSiS->NewGammaConR, &pSiS->NewGammaConG, &pSiS->NewGammaConB); GotCon = TRUE; } if((strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_NEWSTOREDBRI))) { SiS_EvalOneOrThreeFloats2(pScrn, OPTION_NEWSTOREDBRI, newbriopt, strptr, &pSiS->NewGammaBriR, &pSiS->NewGammaBriG, &pSiS->NewGammaBriB); GotNewBri = TRUE; } if(!GotCon && !GotNewBri) { if((strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_STOREDBRI))) { SiS_EvalOneOrThreeFloats(pScrn, OPTION_STOREDBRI, briopt, strptr, &pSiS->GammaBriR, &pSiS->GammaBriG, &pSiS->GammaBriB); GotOldBri = TRUE; pSiS->SiS_SD3_Flags |= SiS_SD3_OLDGAMMAINUSE; } } if((!IsDHM) || (IsDHM && !IsSecondHead)) { Bool GotCon2 = FALSE, GotNewBri2 = FALSE; if(!GotOldBri) { if((strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_NEWSTOREDCON2))) { SiS_EvalOneOrThreeFloats2(pScrn, OPTION_NEWSTOREDCON2, newbriopt, strptr, &pSiS->NewGammaConR2, &pSiS->NewGammaConG2, &pSiS->NewGammaConB2); GotCon2 = TRUE; } if((strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_NEWSTOREDBRI2))) { if(SiS_EvalOneOrThreeFloats2(pScrn, OPTION_NEWSTOREDBRI2, newbriopt, strptr, &pSiS->NewGammaBriR2, &pSiS->NewGammaBriG2, &pSiS->NewGammaBriB2)) { if(IsDHM) { #ifdef SISDUALHEAD if(GotNewBri) SiS_PrintOverruleDHM(pScrn, OPTION_NEWSTOREDBRI2, OPTION_NEWSTOREDBRI); pSiS->NewGammaBriR = pSiS->NewGammaBriR2; pSiS->NewGammaBriG = pSiS->NewGammaBriG2; pSiS->NewGammaBriB = pSiS->NewGammaBriB2; #endif } else pSiS->CRT2SepGamma = TRUE; } GotNewBri2 = TRUE; } } if(!GotCon2 && !GotNewBri2 && !GotNewBri && !GotCon) { if((strptr = (char *)xf86GetOptValString(pSiS->Options, OPTION_STOREDBRI2))) { pSiS->SiS_SD3_Flags |= SiS_SD3_OLDGAMMAINUSE; if(SiS_EvalOneOrThreeFloats(pScrn, OPTION_STOREDBRI2, briopt, strptr, &pSiS->GammaBriR2, &pSiS->GammaBriG2, &pSiS->GammaBriB2)) { if(IsDHM) { #ifdef SISDUALHEAD if(GotOldBri) SiS_PrintOverruleDHM(pScrn, OPTION_STOREDBRI2, OPTION_STOREDBRI); pSiS->GammaBriR = pSiS->GammaBriR2; pSiS->GammaBriG = pSiS->GammaBriG2; pSiS->GammaBriB = pSiS->GammaBriB2; #endif } else pSiS->CRT2SepGamma = TRUE; } } } } } if(pSiS->SiS_SD3_Flags & SiS_SD3_CRT1SATGAIN) { if(xf86GetOptValInteger(pSiS->Options, OPTION_CRT1SATGAIN, &ival)) { if((ival >= 0) && (ival <= 7)) { pSiS->siscrt1satgain = ival; pSiS->crt1satgaingiven = TRUE; } else SiS_PrintIlRange(pScrn, OPTION_CRT1SATGAIN, 0, 7, 0); } } } const OptionInfoRec * SISAvailableOptions(int chipid, int busid) { return SISOptions; }