/* * Copyright 2000 through 2004 by Marc Aurele La France (TSI @ UQV), tsi@xfree86.org * * Permission to use, copy, modify, distribute, and sell this software and its * documentation for any purpose is hereby granted without fee, provided that * the above copyright notice appear in all copies and that both that copyright * notice and this permission notice appear in supporting documentation, and * that the name of Marc Aurele La France not be used in advertising or * publicity pertaining to distribution of the software without specific, * written prior permission. Marc Aurele La France makes no representations * about the suitability of this software for any purpose. It is provided * "as-is" without express or implied warranty. * * MARC AURELE LA FRANCE DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO * EVENT SHALL MARC AURELE LA FRANCE BE LIABLE FOR ANY SPECIAL, INDIRECT OR * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, * DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. * * DRI support by: * Leif Delgass */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include "ati.h" #include "atiadapter.h" #include "atichip.h" #include "aticonfig.h" #include "aticursor.h" #include "atioption.h" #include "atistruct.h" #include "mach64_common.h" /* * Non-publicised XF86Config options. */ typedef enum { ATI_OPTION_BIOS_DISPLAY, /* Allow BIOS interference */ ATI_OPTION_CRT_SCREEN, /* Legacy negation of "PanelDisplay" */ ATI_OPTION_DEVEL, /* Intentionally undocumented */ ATI_OPTION_BLEND, /* Force horizontal blending of small modes */ ATI_OPTION_LCDSYNC /* Use XF86Config panel mode porches */ } ATIPrivateOptionType; /* * ATIProcessOptions -- * * This function extracts options from what was parsed out of the XF86Config * file. */ void ATIProcessOptions ( ScrnInfoPtr pScreenInfo, ATIPtr pATI ) { OptionInfoPtr PublicOption = xnfalloc(ATIPublicOptionSize); OptionInfoRec PrivateOption[] = { { /* ON: Let BIOS change display(s) */ ATI_OPTION_BIOS_DISPLAY, /* OFF: Don't */ "biosdisplay", OPTV_BOOLEAN, {0, }, FALSE }, { /* Negation of "PanelDisplay" public option */ ATI_OPTION_CRT_SCREEN, "crtscreen", OPTV_BOOLEAN, {0, }, FALSE }, { /* ON: Ease exploration of loose ends */ ATI_OPTION_DEVEL, /* OFF: Fit for public consumption */ "tsi", OPTV_BOOLEAN, {0, }, FALSE }, { /* ON: Horizontally blend most modes */ ATI_OPTION_BLEND, /* OFF: Use pixel replication more often */ "lcdblend", OPTV_BOOLEAN, {0, }, FALSE }, { /* ON: Use XF86Config porch timings */ ATI_OPTION_LCDSYNC, /* OFF: Use porches from mode on entry */ "lcdsync", OPTV_BOOLEAN, {0, }, FALSE }, { -1, NULL, OPTV_NONE, {0, }, FALSE } }; (void)memcpy(PublicOption, ATIPublicOptions, ATIPublicOptionSize); # define Accel PublicOption[ATI_OPTION_ACCEL].value.bool # define BIOSDisplay PrivateOption[ATI_OPTION_BIOS_DISPLAY].value.bool # define Blend PrivateOption[ATI_OPTION_BLEND].value.bool # define CRTDisplay PublicOption[ATI_OPTION_CRT_DISPLAY].value.bool # define CRTScreen PrivateOption[ATI_OPTION_CRT_SCREEN].value.bool # define CSync PublicOption[ATI_OPTION_CSYNC].value.bool # define Devel PrivateOption[ATI_OPTION_DEVEL].value.bool # define HWCursor PublicOption[ATI_OPTION_HWCURSOR].value.bool #ifndef AVOID_CPIO # define Linear PublicOption[ATI_OPTION_LINEAR].value.bool #endif /* AVOID_CPIO */ #ifdef XF86DRI_DEVEL # define IsPCI PublicOption[ATI_OPTION_IS_PCI].value.bool # define DMAMode PublicOption[ATI_OPTION_DMA_MODE].value.str # define AGPMode PublicOption[ATI_OPTION_AGP_MODE].value.num # define AGPSize PublicOption[ATI_OPTION_AGP_SIZE].value.num # define LocalTex PublicOption[ATI_OPTION_LOCAL_TEXTURES].value.bool # define BufferSize PublicOption[ATI_OPTION_BUFFER_SIZE].value.num #endif /* XF86DRI_DEVEL */ #ifdef TV_OUT # define TvOut PublicOption[ATI_OPTION_TV_OUT].value.bool # define TvStd PublicOption[ATI_OPTION_TV_STD].value.str #endif /* TV_OUT */ # define CacheMMIO PublicOption[ATI_OPTION_MMIO_CACHE].value.bool # define TestCacheMMIO PublicOption[ATI_OPTION_TEST_MMIO_CACHE].value.bool # define PanelDisplay PublicOption[ATI_OPTION_PANEL_DISPLAY].value.bool # define ProbeClocks PublicOption[ATI_OPTION_PROBE_CLOCKS].value.bool # define ShadowFB PublicOption[ATI_OPTION_SHADOW_FB].value.bool # define SWCursor PublicOption[ATI_OPTION_SWCURSOR].value.bool # define AccelMethod PublicOption[ATI_OPTION_ACCELMETHOD].value.str # define RenderAccel PublicOption[ATI_OPTION_RENDER_ACCEL].value.bool # define LCDSync PrivateOption[ATI_OPTION_LCDSYNC].value.bool # define ReferenceClock \ PublicOption[ATI_OPTION_REFERENCE_CLOCK].value.freq.freq /* Pick up XF86Config options */ xf86CollectOptions(pScreenInfo, NULL); /* Set non-zero defaults */ #ifndef AVOID_CPIO if (pATI->Adapter >= ATI_ADAPTER_MACH64) #endif /* AVOID_CPIO */ { Accel = CacheMMIO = HWCursor = TRUE; #ifndef AVOID_CPIO Linear = TRUE; #endif /* AVOID_CPIO */ #ifdef TV_OUT TvStd = "None"; /* No tv standard change requested */ #endif } ReferenceClock = ((double)157500000.0) / ((double)11.0); #ifndef AVOID_CPIO if (pATI->PCIInfo) #endif /* AVOID_CPIO */ { ShadowFB = TRUE; } Blend = PanelDisplay = TRUE; #ifdef XF86DRI_DEVEL DMAMode = "async"; #endif xf86ProcessOptions(pScreenInfo->scrnIndex, pScreenInfo->options, PublicOption); xf86ProcessOptions(pScreenInfo->scrnIndex, pScreenInfo->options, PrivateOption); #ifndef AVOID_CPIO /* Disable linear apertures if the OS doesn't support them */ if (!xf86LinearVidMem() && Linear) { if (PublicOption[ATI_OPTION_LINEAR].found) xf86DrvMsg(pScreenInfo->scrnIndex, X_WARNING, "OS does not support linear apertures.\n"); Linear = FALSE; } #endif /* AVOID_CPIO */ /* Move option values into driver private structure */ pATI->OptionAccel = Accel; pATI->OptionBIOSDisplay = BIOSDisplay; pATI->OptionBlend = Blend; pATI->OptionCRTDisplay = CRTDisplay; pATI->OptionCSync = CSync; pATI->OptionDevel = Devel; #ifndef AVOID_CPIO pATI->OptionLinear = Linear; #endif /* AVOID_CPIO */ #ifdef TV_OUT if (TvOut && pATI->Chip < ATI_CHIP_264GT) { /* Only allow this for 3D Rage (I) or greater chip ID * AFAIK, no chips before this supported TV-Out * mach64VT has support for TV tuner, but no TV-Out */ xf86DrvMsg(pScreenInfo->scrnIndex, X_WARNING, "TV Out not supported for this chip.\n"); } else { ATITVStandard std; pATI->OptionTvOut = TvOut; pATI->OptionTvStd = ATI_TV_STD_INVALID; for (std = 0; std < ATI_TV_STDS_MAX_VALID; std++) { if (std != ATI_TV_STD_RESERVED1 && std != ATI_TV_STD_RESERVED2) { if (strncasecmp(TvStd, ATITVStandardNames[std], ATI_TV_STDS_NAME_MAXLEN)==0) { pATI->OptionTvStd = std; break; } } } } #endif /* TV_OUT */ pATI->OptionMMIOCache = CacheMMIO; pATI->OptionTestMMIOCache = TestCacheMMIO; pATI->OptionProbeClocks = ProbeClocks; pATI->OptionShadowFB = ShadowFB; pATI->OptionLCDSync = LCDSync; /* "CRTScreen" is now "NoPanelDisplay" */ if ((PanelDisplay != CRTScreen) || PublicOption[ATI_OPTION_PANEL_DISPLAY].found) pATI->OptionPanelDisplay = PanelDisplay; else pATI->OptionPanelDisplay = !CRTScreen; #ifdef XF86DRI_DEVEL pATI->OptionIsPCI = IsPCI; pATI->OptionAGPMode = AGPMode; pATI->OptionAGPSize = AGPSize; pATI->OptionLocalTextures = LocalTex; pATI->OptionBufferSize = BufferSize; if (strcasecmp(DMAMode, "async")==0) pATI->OptionDMAMode = MACH64_MODE_DMA_ASYNC; else if (strcasecmp(DMAMode, "sync")==0) pATI->OptionDMAMode = MACH64_MODE_DMA_SYNC; else if (strcasecmp(DMAMode, "mmio")==0 ) pATI->OptionDMAMode = MACH64_MODE_MMIO; else { xf86DrvMsg(pScreenInfo->scrnIndex, X_WARNING, "Unkown dma_mode: '%s'\n", DMAMode); xf86DrvMsg(pScreenInfo->scrnIndex, X_WARNING, "Valid dma_mode options are: 'async','sync','mmio'\n"); xf86DrvMsg(pScreenInfo->scrnIndex, X_WARNING, "Defaulting to async DMA mode\n"); pATI->OptionDMAMode = MACH64_MODE_DMA_ASYNC; } #endif /* XF86DRI_DEVEL */ /* Validate and set cursor options */ pATI->Cursor = ATI_CURSOR_SOFTWARE; if (SWCursor || !HWCursor) { if (HWCursor && PublicOption[ATI_OPTION_HWCURSOR].found) xf86DrvMsg(pScreenInfo->scrnIndex, X_WARNING, "Option \"sw_cursor\" overrides Option \"hw_cursor\".\n"); } else if (pATI->Chip < ATI_CHIP_264CT) { if (HWCursor && PublicOption[ATI_OPTION_HWCURSOR].found) xf86DrvMsg(pScreenInfo->scrnIndex, X_WARNING, "Option \"hw_cursor\" not supported in this configuration.\n"); } else { pATI->Cursor = ATI_CURSOR_HARDWARE; } /* Only set the reference clock if it hasn't already been determined */ if (!pATI->ReferenceNumerator || !pATI->ReferenceDenominator) { switch ((int)(ReferenceClock / ((double)100000.0))) { case 143: pATI->ReferenceNumerator = 157500; pATI->ReferenceDenominator = 11; break; case 286: pATI->ReferenceNumerator = 315000; pATI->ReferenceDenominator = 11; break; default: pATI->ReferenceNumerator = (int)(ReferenceClock / ((double)1000.0)); pATI->ReferenceDenominator = 1; break; } } pATI->useEXA = FALSE; if (pATI->OptionAccel) { MessageType from = X_DEFAULT; #if defined(USE_EXA) #if defined(USE_XAA) if (AccelMethod != NULL) { from = X_CONFIG; if (xf86NameCmp(AccelMethod, "EXA") == 0) pATI->useEXA = TRUE; } #else /* USE_XAA */ pATI->useEXA = TRUE; #endif /* !USE_XAA */ #endif /* USE_EXA */ xf86DrvMsg(pScreenInfo->scrnIndex, from, "Using %s acceleration architecture\n", pATI->useEXA ? "EXA" : "XAA"); #if defined(USE_EXA) pATI->RenderAccelEnabled = FALSE; if (pATI->useEXA && RenderAccel) pATI->RenderAccelEnabled = TRUE; #endif } xfree(PublicOption); }