dist/src/smi_driver.c

09885543Smrg/* Header:   //Mercury/Projects/archives/XFree86/4.0/smi_driver.c-arc   1.42   03 Jan 2001 13:52:16   Frido  $ */
09885543Smrg
09885543Smrg/*
09885543SmrgCopyright (C) 1994-1999 The XFree86 Project, Inc.  All Rights Reserved.
09885543SmrgCopyright (C) 2000 Silicon Motion, Inc.  All Rights Reserved.
09885543Smrg
09885543SmrgPermission is hereby granted, free of charge, to any person obtaining a copy of
09885543Smrgthis software and associated documentation files (the "Software"), to deal in
09885543Smrgthe Software without restriction, including without limitation the rights to
09885543Smrguse, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
09885543Smrgof the Software, and to permit persons to whom the Software is furnished to do
09885543Smrgso, subject to the following conditions:
09885543Smrg
09885543SmrgThe above copyright notice and this permission notice shall be included in all
09885543Smrgcopies or substantial portions of the Software.
09885543Smrg
09885543SmrgTHE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
09885543SmrgIMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FIT-
09885543SmrgNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL THE
09885543SmrgXFREE86 PROJECT BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN
09885543SmrgAN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
09885543SmrgWITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
09885543Smrg
09885543SmrgExcept as contained in this notice, the names of The XFree86 Project and
09885543SmrgSilicon Motion shall not be used in advertising or otherwise to promote the
09885543Smrgsale, use or other dealings in this Software without prior written
09885543Smrgauthorization from The XFree86 Project or Silicon Motion.
09885543Smrg*/
09885543Smrg
09885543Smrg#ifdef HAVE_CONFIG_H
09885543Smrg#include "config.h"
09885543Smrg#endif
09885543Smrg
b698ba48Smrg#include "xf86.h"
09885543Smrg#include "xf86DDC.h"
09885543Smrg#include "xf86int10.h"
09885543Smrg#include "vbe.h"
09885543Smrg
b698ba48Smrg#if GET_ABI_MAJOR(ABI_VIDEODRV_VERSION) < 6
b698ba48Smrg#include "xf86Resources.h"
b698ba48Smrg#include "xf86RAC.h"
b698ba48Smrg#endif
b698ba48Smrg
09885543Smrg#include "smi.h"
7104f784Smrg#include "smi_501.h"
7104f784Smrg#include "smilynx.h"
7104f784Smrg#include "smi_crtc.h"
09885543Smrg
09885543Smrg#include "globals.h"
b698ba48Smrg#ifdef HAVE_XEXTPROTO_71
b698ba48Smrg#include <X11/extensions/dpmsconst.h>
b698ba48Smrg#else
09885543Smrg#define DPMS_SERVER
09885543Smrg#include <X11/extensions/dpms.h>
b698ba48Smrg#endif
b698ba48Smrg
5788ca14Smrg
09885543Smrg/*
09885543Smrg * Internals
09885543Smrg */
7104f784Smrgstatic Bool SMI_MapMmio(ScrnInfoPtr pScrn);
7104f784Smrgstatic Bool SMI_DetectMem(ScrnInfoPtr pScrn);
09885543Smrgstatic void SMI_EnableMmio(ScrnInfoPtr pScrn);
09885543Smrgstatic void SMI_DisableMmio(ScrnInfoPtr pScrn);
7104f784Smrgstatic Bool SMI_HWInit(ScrnInfoPtr pScrn);
09885543Smrg
09885543Smrg/*
09885543Smrg * Forward definitions for the functions that make up the driver.
09885543Smrg */
09885543Smrg
09885543Smrgstatic const OptionInfoRec * SMI_AvailableOptions(int chipid, int busid);
09885543Smrgstatic void SMI_Identify(int flags);
09885543Smrgstatic Bool SMI_Probe(DriverPtr drv, int flags);
09885543Smrgstatic Bool SMI_PreInit(ScrnInfoPtr pScrn, int flags);
5788ca14Smrgstatic Bool SMI_EnterVT(VT_FUNC_ARGS_DECL);
5788ca14Smrgstatic void SMI_LeaveVT(VT_FUNC_ARGS_DECL);
5788ca14Smrgstatic Bool SMI_ScreenInit(SCREEN_INIT_ARGS_DECL);
09885543Smrgstatic void SMI_DisableVideo(ScrnInfoPtr pScrn);
09885543Smrgstatic void SMI_EnableVideo(ScrnInfoPtr pScrn);
5788ca14Smrgstatic Bool SMI_CloseScreen(CLOSE_SCREEN_ARGS_DECL);
09885543Smrgstatic Bool SMI_SaveScreen(ScreenPtr pScreen, int mode);
5788ca14Smrgstatic void SMI_FreeScreen(FREE_SCREEN_ARGS_DECL);
09885543Smrgstatic void SMI_ProbeDDC(ScrnInfoPtr pScrn, int index);
09885543Smrgstatic void SMI_DetectPanelSize(ScrnInfoPtr pScrn);
7104f784Smrgstatic void SMI_DetectMCLK(ScrnInfoPtr pScrn);
09885543Smrg
7104f784Smrg/*
7104f784Smrg * xf86VDrvMsgVerb prints up to 14 characters prefix, where prefix has the
7104f784Smrg * format "%s(%d): " so, use name "SMI" instead of "Silicon Motion"
7104f784Smrg */
7104f784Smrg#define SILICONMOTION_NAME          "SMI"
09885543Smrg#define SILICONMOTION_DRIVER_NAME   "siliconmotion"
7104f784Smrg#define SILICONMOTION_VERSION_NAME  PACKAGE_VERSION
7104f784Smrg#define SILICONMOTION_VERSION_MAJOR PACKAGE_VERSION_MAJOR
7104f784Smrg#define SILICONMOTION_VERSION_MINOR PACKAGE_VERSION_MINOR
7104f784Smrg#define SILICONMOTION_PATCHLEVEL    PACKAGE_VERSION_PATCHLEVEL
09885543Smrg#define SILICONMOTION_DRIVER_VERSION ((SILICONMOTION_VERSION_MAJOR << 24) | \
09885543Smrg                                      (SILICONMOTION_VERSION_MINOR << 16) | \
09885543Smrg                                      (SILICONMOTION_PATCHLEVEL))
09885543Smrg
7104f784Smrg#if SMI_DEBUG
7104f784Smrgint smi_indent = 1;
7104f784Smrg#endif
7104f784Smrg
7104f784Smrg/* for dualhead */
7104f784Smrgint gSMIEntityIndex = -1;
7104f784Smrg
09885543Smrg/*
09885543Smrg * This contains the functions needed by the server after loading the
09885543Smrg * driver module.  It must be supplied, and gets added the driver list by
09885543Smrg * the Module Setup funtion in the dynamic case.  In the static case a
09885543Smrg * reference to this is compiled in, and this requires that the name of
09885543Smrg * this DriverRec be an upper-case version of the driver name.
09885543Smrg */
09885543Smrg
09885543Smrg_X_EXPORT DriverRec SILICONMOTION =
09885543Smrg{
09885543Smrg    SILICONMOTION_DRIVER_VERSION,
09885543Smrg    SILICONMOTION_DRIVER_NAME,
09885543Smrg    SMI_Identify,
09885543Smrg    SMI_Probe,
09885543Smrg    SMI_AvailableOptions,
09885543Smrg    NULL,
09885543Smrg    0
09885543Smrg};
09885543Smrg
09885543Smrg/* Supported chipsets */
09885543Smrgstatic SymTabRec SMIChipsets[] =
09885543Smrg{
09885543Smrg    { PCI_CHIP_SMI910, "Lynx"    },
09885543Smrg    { PCI_CHIP_SMI810, "LynxE"   },
09885543Smrg    { PCI_CHIP_SMI820, "Lynx3D"  },
09885543Smrg    { PCI_CHIP_SMI710, "LynxEM"  },
09885543Smrg    { PCI_CHIP_SMI712, "LynxEM+" },
09885543Smrg    { PCI_CHIP_SMI720, "Lynx3DM" },
09885543Smrg    { PCI_CHIP_SMI731, "Cougar3DR" },
7104f784Smrg    { PCI_CHIP_SMI501, "MSOC"	 },
09885543Smrg    { -1,             NULL      }
09885543Smrg};
09885543Smrg
09885543Smrgstatic PciChipsets SMIPciChipsets[] =
09885543Smrg{
7104f784Smrg    /* numChipset,	PciID,			Resource */
09885543Smrg    { PCI_CHIP_SMI910,	PCI_CHIP_SMI910,	RES_SHARED_VGA },
09885543Smrg    { PCI_CHIP_SMI810,	PCI_CHIP_SMI810,	RES_SHARED_VGA },
09885543Smrg    { PCI_CHIP_SMI820,	PCI_CHIP_SMI820,	RES_SHARED_VGA },
09885543Smrg    { PCI_CHIP_SMI710,	PCI_CHIP_SMI710,	RES_SHARED_VGA },
09885543Smrg    { PCI_CHIP_SMI712,	PCI_CHIP_SMI712,	RES_SHARED_VGA },
09885543Smrg    { PCI_CHIP_SMI720,	PCI_CHIP_SMI720,	RES_SHARED_VGA },
09885543Smrg    { PCI_CHIP_SMI731,	PCI_CHIP_SMI731,	RES_SHARED_VGA },
7104f784Smrg    { PCI_CHIP_SMI501,	PCI_CHIP_SMI501,	RES_UNDEFINED  },
7104f784Smrg    { -1,		-1,			RES_UNDEFINED  }
09885543Smrg};
09885543Smrg
09885543Smrgtypedef enum
09885543Smrg{
09885543Smrg    OPTION_PCI_BURST,
09885543Smrg    OPTION_PCI_RETRY,
09885543Smrg    OPTION_NOACCEL,
09885543Smrg    OPTION_MCLK,
7104f784Smrg    OPTION_MXCLK,
09885543Smrg    OPTION_SWCURSOR,
09885543Smrg    OPTION_HWCURSOR,
09885543Smrg    OPTION_VIDEOKEY,
09885543Smrg    OPTION_BYTESWAP,
09885543Smrg    /* CZ 26.10.2001: interlaced video */
09885543Smrg    OPTION_INTERLACED,
09885543Smrg    /* end CZ */
09885543Smrg    OPTION_USEBIOS,
09885543Smrg    OPTION_DUALHEAD,
09885543Smrg    OPTION_ACCELMETHOD,
7104f784Smrg    OPTION_PANEL_SIZE,
7104f784Smrg    OPTION_USE_FBDEV,
7104f784Smrg    OPTION_CSCVIDEO,
09885543Smrg    NUMBER_OF_OPTIONS
09885543Smrg} SMIOpts;
09885543Smrg
09885543Smrgstatic const OptionInfoRec SMIOptions[] =
09885543Smrg{
7104f784Smrg    { OPTION_PCI_BURST,	     "pci_burst",	  OPTV_BOOLEAN, {0}, TRUE },
7104f784Smrg    { OPTION_PCI_RETRY,	     "pci_retry",	  OPTV_BOOLEAN, {0}, TRUE },
09885543Smrg    { OPTION_NOACCEL,	     "NoAccel",		  OPTV_BOOLEAN, {0}, FALSE },
7104f784Smrg    { OPTION_MCLK,	     "MCLK",		  OPTV_FREQ,	{0}, FALSE },
7104f784Smrg    { OPTION_MXCLK,	     "MXCLK",		  OPTV_FREQ,	{0}, FALSE },
7104f784Smrg    { OPTION_HWCURSOR,	     "HWCursor",	  OPTV_BOOLEAN, {0}, TRUE },
09885543Smrg    { OPTION_SWCURSOR,	     "SWCursor",	  OPTV_BOOLEAN, {0}, FALSE },
09885543Smrg    { OPTION_VIDEOKEY,	     "VideoKey",	  OPTV_INTEGER, {0}, FALSE },
09885543Smrg    { OPTION_BYTESWAP,	     "ByteSwap",	  OPTV_BOOLEAN, {0}, FALSE },
09885543Smrg    /* CZ 26.10.2001: interlaced video */
7104f784Smrg    { OPTION_INTERLACED,     "Interlaced",        OPTV_BOOLEAN, {0}, FALSE },
09885543Smrg    /* end CZ */
09885543Smrg    { OPTION_USEBIOS,	     "UseBIOS",		  OPTV_BOOLEAN,	{0}, FALSE },
7104f784Smrg    { OPTION_DUALHEAD,	     "Dualhead",	  OPTV_BOOLEAN,	{0}, TRUE },
09885543Smrg    { OPTION_ACCELMETHOD,    "AccelMethod",       OPTV_STRING,  {0}, FALSE },
7104f784Smrg    { OPTION_PANEL_SIZE,     "PanelSize",	  OPTV_ANYSTR,	{0}, FALSE },
7104f784Smrg    { OPTION_USE_FBDEV,	     "UseFBDev",	  OPTV_BOOLEAN,	{0}, FALSE },
7104f784Smrg    { OPTION_CSCVIDEO,	     "CSCVideo",	  OPTV_BOOLEAN, {0}, TRUE },
09885543Smrg    { -1,		     NULL,		  OPTV_NONE,	{0}, FALSE }
09885543Smrg};
09885543Smrg
09885543Smrg#ifdef XFree86LOADER
09885543Smrg
09885543Smrgstatic MODULESETUPPROTO(siliconmotionSetup);
09885543Smrg
09885543Smrgstatic XF86ModuleVersionInfo SMIVersRec =
09885543Smrg{
09885543Smrg    "siliconmotion",
09885543Smrg    MODULEVENDORSTRING,
09885543Smrg    MODINFOSTRING1,
09885543Smrg    MODINFOSTRING2,
09885543Smrg    XORG_VERSION_CURRENT,
09885543Smrg    SILICONMOTION_VERSION_MAJOR,
09885543Smrg    SILICONMOTION_VERSION_MINOR,
09885543Smrg    SILICONMOTION_PATCHLEVEL,
09885543Smrg    ABI_CLASS_VIDEODRV,
09885543Smrg    ABI_VIDEODRV_VERSION,
09885543Smrg    MOD_CLASS_VIDEODRV,
09885543Smrg    {0, 0, 0, 0}
09885543Smrg};
09885543Smrg
09885543Smrg/*
09885543Smrg * This is the module init data for XFree86 modules.
09885543Smrg *
09885543Smrg * Its name has to be the driver name followed by ModuleData.
09885543Smrg */
09885543Smrg_X_EXPORT XF86ModuleData siliconmotionModuleData =
09885543Smrg{
09885543Smrg    &SMIVersRec,
09885543Smrg    siliconmotionSetup,
09885543Smrg    NULL
09885543Smrg};
09885543Smrg
09885543Smrgstatic pointer
09885543SmrgsiliconmotionSetup(pointer module, pointer opts, int *errmaj, int *errmin)
09885543Smrg{
09885543Smrg    static Bool setupDone = FALSE;
09885543Smrg
09885543Smrg    if (!setupDone) {
09885543Smrg	setupDone = TRUE;
09885543Smrg	xf86AddDriver(&SILICONMOTION, module, 0);
09885543Smrg
09885543Smrg	/*
09885543Smrg	 * The return value must be non-NULL on success even though there
09885543Smrg	 * is no TearDownProc.
09885543Smrg	 */
09885543Smrg	return (pointer) 1;
09885543Smrg
09885543Smrg    } else {
09885543Smrg	if (errmaj) {
09885543Smrg	    *errmaj = LDR_ONCEONLY;
09885543Smrg	}
09885543Smrg	return NULL;
09885543Smrg    }
09885543Smrg}
09885543Smrg
09885543Smrg#endif /* XFree86LOADER */
09885543Smrg
09885543Smrgstatic Bool
09885543SmrgSMI_GetRec(ScrnInfoPtr pScrn)
09885543Smrg{
7104f784Smrg    ENTER();
09885543Smrg
09885543Smrg    /*
09885543Smrg     * Allocate an 'Chip'Rec, and hook it into pScrn->driverPrivate.
09885543Smrg     * pScrn->driverPrivate is initialised to NULL, so we can check if
09885543Smrg     * the allocation has already been done.
09885543Smrg     */
09885543Smrg    if (pScrn->driverPrivate == NULL) {
09885543Smrg	pScrn->driverPrivate = xnfcalloc(sizeof(SMIRec), 1);
09885543Smrg    }
09885543Smrg
7104f784Smrg    LEAVE(TRUE);
09885543Smrg}
09885543Smrg
09885543Smrgstatic void
09885543SmrgSMI_FreeRec(ScrnInfoPtr pScrn)
09885543Smrg{
7104f784Smrg    SMIPtr	pSmi = SMIPTR(pScrn);
09885543Smrg
7104f784Smrg    ENTER();
7104f784Smrg
7104f784Smrg    if (pSmi) {
7b58d2e0Smrg	free(pSmi->save);
7b58d2e0Smrg	free(pSmi->mode);
7b58d2e0Smrg	free(pScrn->driverPrivate);
09885543Smrg	pScrn->driverPrivate = NULL;
09885543Smrg    }
09885543Smrg
7104f784Smrg    LEAVE();
09885543Smrg}
09885543Smrg
09885543Smrgstatic const OptionInfoRec *
09885543SmrgSMI_AvailableOptions(int chipid, int busid)
09885543Smrg{
7104f784Smrg    ENTER();
7104f784Smrg
7104f784Smrg    LEAVE(SMIOptions);
09885543Smrg}
09885543Smrg
09885543Smrgstatic void
09885543SmrgSMI_Identify(int flags)
09885543Smrg{
7104f784Smrg    ENTER();
09885543Smrg
09885543Smrg    xf86PrintChipsets(SILICONMOTION_NAME, "driver (version "
09885543Smrg		SILICONMOTION_VERSION_NAME ") for Silicon Motion Lynx chipsets",
09885543Smrg		SMIChipsets);
09885543Smrg
7104f784Smrg    LEAVE();
09885543Smrg}
09885543Smrg
09885543Smrgstatic Bool
09885543SmrgSMI_Probe(DriverPtr drv, int flags)
09885543Smrg{
09885543Smrg    int i;
09885543Smrg    GDevPtr *devSections;
09885543Smrg    int *usedChips;
09885543Smrg    int numDevSections;
09885543Smrg    int numUsed;
09885543Smrg    Bool foundScreen = FALSE;
09885543Smrg
7104f784Smrg    ENTER();
09885543Smrg
09885543Smrg    numDevSections = xf86MatchDevice(SILICONMOTION_DRIVER_NAME, &devSections);
09885543Smrg
7104f784Smrg    if (numDevSections <= 0)
09885543Smrg	/* There's no matching device section in the config file, so quit now. */
7104f784Smrg	LEAVE(FALSE);
09885543Smrg
7104f784Smrg#ifndef XSERVER_LIBPCIACCESS
7104f784Smrg    if (xf86GetPciVideoInfo() == NULL)
7104f784Smrg	LEAVE(FALSE);
7104f784Smrg#endif
09885543Smrg
09885543Smrg    numUsed = xf86MatchPciInstances(SILICONMOTION_NAME, PCI_SMI_VENDOR_ID,
09885543Smrg				    SMIChipsets, SMIPciChipsets, devSections,
09885543Smrg				    numDevSections, drv, &usedChips);
09885543Smrg
09885543Smrg    /* Free it since we don't need that list after this */
7b58d2e0Smrg    free(devSections);
7104f784Smrg    if (numUsed <= 0)
7104f784Smrg	LEAVE(FALSE);
7104f784Smrg
7104f784Smrg    if (flags & PROBE_DETECT)
7104f784Smrg	foundScreen = TRUE;
7104f784Smrg    else {
7104f784Smrg	ScrnInfoPtr	pScrn;
7104f784Smrg	EntityInfoPtr	pEnt;
09885543Smrg
09885543Smrg	for (i = 0; i < numUsed; i++) {
7104f784Smrg	    if ((pScrn = xf86ConfigPciEntity(NULL, 0, usedChips[i],
7104f784Smrg					     SMIPciChipsets, NULL,
7104f784Smrg					     NULL, NULL, NULL, NULL))) {
7104f784Smrg		pScrn->driverVersion = SILICONMOTION_DRIVER_VERSION;
7104f784Smrg		pScrn->driverName    = SILICONMOTION_DRIVER_NAME;
7104f784Smrg		pScrn->name	     = SILICONMOTION_NAME;
7104f784Smrg		pScrn->Probe	     = SMI_Probe;
7104f784Smrg		pScrn->PreInit	     = SMI_PreInit;
7104f784Smrg		pScrn->ScreenInit    = SMI_ScreenInit;
7104f784Smrg		pScrn->SwitchMode    = SMI_SwitchMode;
7104f784Smrg		pScrn->AdjustFrame   = SMI_AdjustFrame;
7104f784Smrg
7104f784Smrg		if ((pEnt = xf86GetEntityInfo(usedChips[i]))) {
7104f784Smrg			pScrn->EnterVT   = SMI_EnterVT;
7104f784Smrg			pScrn->LeaveVT   = SMI_LeaveVT;
7b58d2e0Smrg		    free(pEnt);
7104f784Smrg		}
7104f784Smrg		pScrn->FreeScreen    = SMI_FreeScreen;
7104f784Smrg		foundScreen	     = TRUE;
7104f784Smrg	    }
09885543Smrg	}
09885543Smrg    }
7b58d2e0Smrg    free(usedChips);
09885543Smrg
7104f784Smrg    LEAVE(foundScreen);
09885543Smrg}
09885543Smrg
09885543Smrgstatic Bool
09885543SmrgSMI_PreInit(ScrnInfoPtr pScrn, int flags)
09885543Smrg{
09885543Smrg    EntityInfoPtr pEnt;
09885543Smrg    SMIPtr pSmi;
09885543Smrg    MessageType from;
09885543Smrg    vgaHWPtr hwp;
09885543Smrg
7104f784Smrg    ENTER();
09885543Smrg
09885543Smrg    /* Ignoring the Type list for now.  It might be needed when multiple cards
09885543Smrg     * are supported.
09885543Smrg     */
7104f784Smrg    if (pScrn->numEntities > 1)
7104f784Smrg	LEAVE(FALSE);
09885543Smrg
7104f784Smrg    /* Allocate the SMIRec driverPrivate */
7104f784Smrg    if (!SMI_GetRec(pScrn))
7104f784Smrg	LEAVE(FALSE);
7104f784Smrg    pSmi = SMIPTR(pScrn);
09885543Smrg
7104f784Smrg    /* Find the PCI slot for this screen */
7104f784Smrg    pEnt = xf86GetEntityInfo(pScrn->entityList[0]);
09885543Smrg
7104f784Smrg    pSmi->PciInfo = xf86GetPciInfoForEntity(pEnt->index);
7104f784Smrg    pSmi->Chipset = PCI_DEV_DEVICE_ID(pSmi->PciInfo);
7104f784Smrg
7104f784Smrg    if (IS_MSOC(pSmi)) {
7104f784Smrg	pSmi->Save = SMI501_Save;
7104f784Smrg	pSmi->save = xnfcalloc(sizeof(MSOCRegRec), 1);
7104f784Smrg	pSmi->mode = xnfcalloc(sizeof(MSOCRegRec), 1);
7104f784Smrg    }
7104f784Smrg    else {
7104f784Smrg	pSmi->Save = SMILynx_Save;
7104f784Smrg	pSmi->save = xnfcalloc(sizeof(SMIRegRec), 1);
7104f784Smrg	pSmi->mode = xnfcalloc(sizeof(SMIRegRec), 1);
09885543Smrg    }
09885543Smrg
7104f784Smrg    if (flags & PROBE_DETECT) {
7104f784Smrg	if (!IS_MSOC(pSmi))
7104f784Smrg	    SMI_ProbeDDC(pScrn, xf86GetEntityInfo(pScrn->entityList[0])->index);
7104f784Smrg	LEAVE(TRUE);
09885543Smrg    }
7104f784Smrg
b698ba48Smrg    if (pEnt->location.type != BUS_PCI) {
7b58d2e0Smrg	free(pEnt);
7104f784Smrg	SMI_FreeRec(pScrn);
7104f784Smrg	LEAVE(FALSE);
7104f784Smrg    }
7104f784Smrg    pSmi->PciInfo = xf86GetPciInfoForEntity(pEnt->index);
09885543Smrg
09885543Smrg    /* Set pScrn->monitor */
09885543Smrg    pScrn->monitor = pScrn->confScreen->monitor;
09885543Smrg
7104f784Smrg    if (!IS_MSOC(pSmi)) {
7104f784Smrg	/* The vgahw module should be loaded here when needed */
7104f784Smrg	if (!xf86LoadSubModule(pScrn, "vgahw"))
7104f784Smrg	    LEAVE(FALSE);
7104f784Smrg
7104f784Smrg	/*
7104f784Smrg	 * Allocate a vgaHWRec
7104f784Smrg	 */
7104f784Smrg	if (!vgaHWGetHWRec(pScrn))
7104f784Smrg	    LEAVE(FALSE);
7104f784Smrg
7104f784Smrg	hwp = VGAHWPTR(pScrn);
5788ca14Smrg	vgaHWSetStdFuncs(hwp);
5788ca14Smrg#if GET_ABI_MAJOR(ABI_VIDEODRV_VERSION) < 12
7104f784Smrg	pSmi->PIOBase = hwp->PIOOffset;
5788ca14Smrg#else
5788ca14Smrg	pSmi->PIOBase = 0;
5788ca14Smrg#endif
7104f784Smrg
7104f784Smrg	xf86ErrorFVerb(VERBLEV, "\tSMI_PreInit vgaCRIndex=%x, vgaIOBase=%x, "
7104f784Smrg		       "MMIOBase=%p\n", hwp->IOBase + VGA_CRTC_INDEX_OFFSET,
7104f784Smrg		       hwp->IOBase, hwp->MMIOBase);
7104f784Smrg    }
7104f784Smrg
09885543Smrg    /*
09885543Smrg     * The first thing we should figure out is the depth, bpp, etc.
09885543Smrg     */
7104f784Smrg    if (!xf86SetDepthBpp(pScrn, 0, 0, 0, Support32bppFb))
7104f784Smrg	LEAVE(FALSE);
09885543Smrg
09885543Smrg    /* Check that the returned depth is one we support */
7104f784Smrg    if (pScrn->depth != 8 && pScrn->depth != 16 && pScrn->depth != 24) {
09885543Smrg	xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
09885543Smrg		   "Given depth (%d) is not supported by this driver\n",
09885543Smrg		   pScrn->depth);
7104f784Smrg	LEAVE(FALSE);
7104f784Smrg    }
7104f784Smrg
7104f784Smrg
7104f784Smrg    if(pScrn->bitsPerPixel != 8 && pScrn->bitsPerPixel != 16 &&
7104f784Smrg       pScrn->bitsPerPixel != 24 && pScrn->bitsPerPixel != 32){
7104f784Smrg	xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
7104f784Smrg		   "Given bpp (%d) is not supported by this driver\n",
7104f784Smrg		   pScrn->bitsPerPixel);
7104f784Smrg	LEAVE(FALSE);
09885543Smrg    }
09885543Smrg
09885543Smrg    xf86PrintDepthBpp(pScrn);
09885543Smrg
2ec8c4b4Smrg    pSmi->Bpp = pScrn->bitsPerPixel >> 3;
2ec8c4b4Smrg
09885543Smrg    /*
09885543Smrg     * This must happen after pScrn->display has been set because
09885543Smrg     * xf86SetWeight references it.
09885543Smrg     */
09885543Smrg    if (pScrn->depth > 8) {
09885543Smrg	/* The defaults are OK for us */
09885543Smrg	rgb zeros = {0, 0, 0};
7104f784Smrg#if __BYTE_ORDER == __BIG_ENDIAN
7104f784Smrg	rgb masks = {0xff00,0xff0000,0xff000000};
7104f784Smrg#else
7104f784Smrg	rgb masks = {0, 0, 0};
7104f784Smrg#endif
09885543Smrg
7104f784Smrg	if (!xf86SetWeight(pScrn, zeros, masks))
7104f784Smrg	    LEAVE(FALSE);
09885543Smrg    }
09885543Smrg
7104f784Smrg    if (!xf86SetDefaultVisual(pScrn, -1))
7104f784Smrg	LEAVE(FALSE);
09885543Smrg
09885543Smrg    /* We don't currently support DirectColor at > 8bpp */
7104f784Smrg    if (pScrn->depth > 8 && pScrn->defaultVisual != TrueColor) {
09885543Smrg	xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "Given default visual (%s) "
09885543Smrg		   "is not supported at depth %d\n",
09885543Smrg		   xf86GetVisualName(pScrn->defaultVisual), pScrn->depth);
7104f784Smrg	LEAVE(FALSE);
09885543Smrg    }
09885543Smrg
09885543Smrg    /* We use a programmable clock */
09885543Smrg    pScrn->progClock = TRUE;
09885543Smrg
09885543Smrg    /* Collect all of the relevant option flags (fill in pScrn->options) */
09885543Smrg    xf86CollectOptions(pScrn, NULL);
09885543Smrg
09885543Smrg    /* Set the bits per RGB for 8bpp mode */
7104f784Smrg    if (pScrn->depth == 8){
7104f784Smrg	pScrn->rgbBits = IS_MSOC(pSmi) ? 8 : 6;
7104f784Smrg    }else if(pScrn->depth == 16){
7104f784Smrg	/* Use 8 bit LUT for gamma correction*/
7104f784Smrg	pScrn->rgbBits = 8;
09885543Smrg    }
09885543Smrg
09885543Smrg    /* Process the options */
7b58d2e0Smrg    if (!(pSmi->Options = malloc(sizeof(SMIOptions))))
7104f784Smrg	LEAVE(FALSE);
7104f784Smrg
09885543Smrg    memcpy(pSmi->Options, SMIOptions, sizeof(SMIOptions));
09885543Smrg    xf86ProcessOptions(pScrn->scrnIndex, pScrn->options, pSmi->Options);
09885543Smrg
7104f784Smrg    /* Enable pci burst by default */
7104f784Smrg    from = X_DEFAULT;
7104f784Smrg    pSmi->PCIBurst = TRUE;
7104f784Smrg    if (xf86GetOptValBool(pSmi->Options, OPTION_PCI_BURST, &pSmi->PCIBurst))
7104f784Smrg	from = X_CONFIG;
7104f784Smrg    xf86DrvMsg(pScrn->scrnIndex, from, "PCI Burst %sabled\n",
7104f784Smrg	       pSmi->PCIBurst ? "en" : "dis");
09885543Smrg
7104f784Smrg    /* Pci retry enabled by default if pci burst also enabled */
7104f784Smrg    from = X_DEFAULT;
7104f784Smrg    pSmi->PCIRetry = pSmi->PCIBurst ? TRUE : FALSE;
7104f784Smrg    if (xf86GetOptValBool(pSmi->Options, OPTION_PCI_RETRY, &pSmi->PCIRetry)) {
7104f784Smrg	from = X_CONFIG;
7104f784Smrg	if (pSmi->PCIRetry && !pSmi->PCIBurst) {
7104f784Smrg	    xf86DrvMsg(pScrn->scrnIndex, X_WARNING,
7104f784Smrg		       "\"pci_retry\" option requires \"pci_burst\".\n");
7104f784Smrg	    pSmi->PCIRetry = FALSE;
09885543Smrg	}
09885543Smrg    }
7104f784Smrg    xf86DrvMsg(pScrn->scrnIndex, from, "PCI Retry %sabled\n",
7104f784Smrg	       pSmi->PCIRetry ? "en" : "dis");
09885543Smrg
09885543Smrg    if (xf86ReturnOptValBool(pSmi->Options, OPTION_NOACCEL, FALSE)) {
09885543Smrg	pSmi->NoAccel = TRUE;
09885543Smrg	xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Option: NoAccel - Acceleration "
09885543Smrg		   "disabled\n");
09885543Smrg    } else {
09885543Smrg	pSmi->NoAccel = FALSE;
09885543Smrg    }
09885543Smrg
7104f784Smrg    if (IS_MSOC(pSmi)) {
7104f784Smrg	from = X_DEFAULT;
7104f784Smrg	if (xf86GetOptValBool(pSmi->Options, OPTION_USE_FBDEV, &pSmi->UseFBDev))
7104f784Smrg	    from = X_CONFIG;
7104f784Smrg	xf86DrvMsg(pScrn->scrnIndex, from, "UseFBDev %s.\n",
7104f784Smrg		   pSmi->UseFBDev ? "enabled" : "disabled");
7104f784Smrg    }
7104f784Smrg
7104f784Smrg    from = X_CONFIG;
7104f784Smrg    pSmi->HwCursor = TRUE;
7104f784Smrg    /* SWCursor overrides HWCusor if both specified */
7104f784Smrg    if (xf86ReturnOptValBool(pSmi->Options, OPTION_SWCURSOR, FALSE))
7104f784Smrg	pSmi->HwCursor = FALSE;
7104f784Smrg    else if (!xf86GetOptValBool(pSmi->Options, OPTION_HWCURSOR, &pSmi->HwCursor))
7104f784Smrg	from = X_DEFAULT;
09885543Smrg
7104f784Smrg    xf86DrvMsg(pScrn->scrnIndex, from, "Using %sware Cursor\n",
7104f784Smrg	       pSmi->HwCursor ? "Hard" : "Soft");
09885543Smrg
09885543Smrg    if (xf86GetOptValInteger(pSmi->Options, OPTION_VIDEOKEY, &pSmi->videoKey)) {
09885543Smrg	xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Option: Video key set to "
09885543Smrg		   "0x%08X\n", pSmi->videoKey);
09885543Smrg    } else {
09885543Smrg	pSmi->videoKey = (1 << pScrn->offset.red) |
09885543Smrg			 (1 << pScrn->offset.green) |
09885543Smrg			 (((pScrn->mask.blue >> pScrn->offset.blue) - 1)
09885543Smrg			 << pScrn->offset.blue);
09885543Smrg    }
09885543Smrg
09885543Smrg    if (xf86ReturnOptValBool(pSmi->Options, OPTION_BYTESWAP, FALSE)) {
09885543Smrg	pSmi->ByteSwap = TRUE;
09885543Smrg	xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Option: ByteSwap enabled.\n");
09885543Smrg    } else {
09885543Smrg	pSmi->ByteSwap = FALSE;
09885543Smrg    }
09885543Smrg
09885543Smrg    /* CZ 26.10.2001: interlaced video */
09885543Smrg    if (xf86ReturnOptValBool(pSmi->Options, OPTION_INTERLACED, FALSE)) {
09885543Smrg	pSmi->interlaced = TRUE;
09885543Smrg	xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Option: Interlaced enabled.\n");
09885543Smrg    } else {
09885543Smrg	pSmi->interlaced = FALSE;
09885543Smrg    }
09885543Smrg    /* end CZ */
09885543Smrg
7104f784Smrg    if (IS_MSOC(pSmi))
7104f784Smrg	pSmi->useBIOS = FALSE;
7104f784Smrg    else if (xf86GetOptValBool(pSmi->Options, OPTION_USEBIOS, &pSmi->useBIOS)) {
09885543Smrg	xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "Option: UseBIOS %s.\n",
09885543Smrg		   pSmi->useBIOS ? "enabled" : "disabled");
7104f784Smrg    }
7104f784Smrg    else if(pSmi->Chipset == SMI_LYNX3DM){
7104f784Smrg	/* Default to UseBIOS disabled. */
7104f784Smrg	pSmi->useBIOS = FALSE;
7104f784Smrg    }
7104f784Smrg    else {
09885543Smrg	/* Default to UseBIOS enabled. */
09885543Smrg	pSmi->useBIOS = TRUE;
09885543Smrg    }
09885543Smrg
7104f784Smrg    if (pSmi->useBIOS) {
7104f784Smrg	if (xf86LoadSubModule(pScrn,"int10")) {
7104f784Smrg	    pSmi->pInt10 = xf86InitInt10(pEnt->index);
7104f784Smrg	}
09885543Smrg
7104f784Smrg	if (pSmi->pInt10 && xf86LoadSubModule(pScrn, "vbe")) {
7104f784Smrg	    pSmi->pVbe = VBEInit(pSmi->pInt10, pEnt->index);
7104f784Smrg	}
09885543Smrg
7104f784Smrg	if(!pSmi->pVbe){
7104f784Smrg	    xf86DrvMsg(pScrn->scrnIndex, X_WARNING, "VBE initialization failed: falling back to UseBIOS disabled.\n");
7104f784Smrg	    pSmi->useBIOS = FALSE;
7104f784Smrg	}
09885543Smrg    }
09885543Smrg
b698ba48Smrg#ifndef XSERVER_LIBPCIACCESS
09885543Smrg    xf86RegisterResources(pEnt->index, NULL, ResExclusive);
b698ba48Smrg#endif
09885543Smrg    /*
09885543Smrg     * Set the Chipset and ChipRev, allowing config file entries to
09885543Smrg     * override.
09885543Smrg     */
09885543Smrg    if (pEnt->device->chipset && *pEnt->device->chipset) {
09885543Smrg	pScrn->chipset = pEnt->device->chipset;
09885543Smrg	pSmi->Chipset = xf86StringToToken(SMIChipsets, pScrn->chipset);
09885543Smrg	from = X_CONFIG;
7104f784Smrg    }
7104f784Smrg    else if (pEnt->device->chipID >= 0) {
09885543Smrg	pSmi->Chipset = pEnt->device->chipID;
09885543Smrg	pScrn->chipset = (char *) xf86TokenToString(SMIChipsets, pSmi->Chipset);
09885543Smrg	from = X_CONFIG;
09885543Smrg	xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "ChipID override: 0x%04X\n",
09885543Smrg		   pSmi->Chipset);
7104f784Smrg    }
7104f784Smrg    else {
09885543Smrg	from = X_PROBED;
7104f784Smrg	pSmi->Chipset = PCI_DEV_DEVICE_ID(pSmi->PciInfo);
09885543Smrg	pScrn->chipset = (char *) xf86TokenToString(SMIChipsets, pSmi->Chipset);
09885543Smrg    }
09885543Smrg
09885543Smrg    if (pEnt->device->chipRev >= 0) {
09885543Smrg	pSmi->ChipRev = pEnt->device->chipRev;
09885543Smrg	xf86DrvMsg(pScrn->scrnIndex, X_CONFIG, "ChipRev override: %d\n",
09885543Smrg		   pSmi->ChipRev);
09885543Smrg    }
7104f784Smrg    else
7104f784Smrg        pSmi->ChipRev = PCI_DEV_REVISION(pSmi->PciInfo);
7b58d2e0Smrg    free(pEnt);
09885543Smrg
09885543Smrg    /*
09885543Smrg     * This shouldn't happen because such problems should be caught in
09885543Smrg     * SMI_Probe(), but check it just in case.
09885543Smrg     */
09885543Smrg    if (pScrn->chipset == NULL) {
09885543Smrg	xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "ChipID 0x%04X is not "
09885543Smrg				"recognised\n", pSmi->Chipset);
7104f784Smrg	LEAVE(FALSE);
09885543Smrg    }
09885543Smrg
09885543Smrg    if (pSmi->Chipset < 0) {
09885543Smrg	xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "Chipset \"%s\" is not "
09885543Smrg		   "recognised\n", pScrn->chipset);
7104f784Smrg	LEAVE(FALSE);
09885543Smrg    }
09885543Smrg
09885543Smrg    xf86DrvMsg(pScrn->scrnIndex, from, "Chipset: \"%s\"\n", pScrn->chipset);
09885543Smrg
7104f784Smrg#ifndef XSERVER_LIBPCIACCESS
09885543Smrg    pSmi->PciTag = pciTag(pSmi->PciInfo->bus, pSmi->PciInfo->device,
09885543Smrg		   	  pSmi->PciInfo->func);
7104f784Smrg#endif
09885543Smrg
7104f784Smrg    from = X_DEFAULT;
7104f784Smrg    if(pSmi->Chipset == SMI_LYNX3DM &&
7104f784Smrg       pScrn->bitsPerPixel == 16)
09885543Smrg	pSmi->Dualhead = TRUE;
7104f784Smrg    else
7104f784Smrg	pSmi->Dualhead = FALSE;
7104f784Smrg
7104f784Smrg    if (xf86GetOptValBool(pSmi->Options, OPTION_DUALHEAD, &pSmi->Dualhead))
7104f784Smrg	from = X_CONFIG;
7104f784Smrg
7104f784Smrg    if (IS_MSOC(pSmi)) {
7104f784Smrg	pSmi->lcd = TRUE;
7104f784Smrg	if (pSmi->Dualhead && pSmi->UseFBDev) {
7104f784Smrg	    xf86DrvMsg(pScrn->scrnIndex, X_INFO,
7104f784Smrg		       "Dual head disabled in fbdev mode\n");
7104f784Smrg	    pSmi->Dualhead = FALSE;
7104f784Smrg	}
7104f784Smrg	/* FIXME Randr cursor code only works properly when argb cursors
7104f784Smrg	 * are also supported.
7104f784Smrg	 * FIXME This probably is a randr cursor bug, and since access to
7104f784Smrg	 * hw/xfree86/ramdac/xf86CursorPriv.h:xf86CursorScreenRec.SWCursor
7104f784Smrg	 * field is not available, one cannot easily workaround the problem,
7104f784Smrg	 * so, just disable it...
7104f784Smrg	 * TODO Check with a X Server newer then 1.4.0.90 (that is being
7104f784Smrg	 * used in the 502 OEM image).
7104f784Smrg	 * */
7104f784Smrg	if (pSmi->Dualhead && pSmi->HwCursor) {
7104f784Smrg	    xf86DrvMsg(pScrn->scrnIndex, X_INFO,
7104f784Smrg		       "HW Cursor disabled in dual head mode\n");
7104f784Smrg	    pSmi->HwCursor = FALSE;
7104f784Smrg	}
7104f784Smrg    }
7104f784Smrg    else if (SMI_LYNXM_SERIES(pSmi->Chipset)) {
7104f784Smrg	/* tweak options for dualhead */
7104f784Smrg	if (pSmi->Dualhead) {
7104f784Smrg	    pSmi->useBIOS = FALSE;
7104f784Smrg	    xf86DrvMsg(pScrn->scrnIndex, X_INFO, "UseBIOS disabled in dualhead mode\n");
7104f784Smrg	    pSmi->HwCursor = FALSE;
7104f784Smrg	    xf86DrvMsg(pScrn->scrnIndex, X_INFO, "No hardware cursor in dualhead mode\n");
7104f784Smrg	    if (pScrn->bitsPerPixel != 16) {
7104f784Smrg		xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "Dualhead only supported at "
7104f784Smrg			   "depth 16\n");
7104f784Smrg		LEAVE(FALSE);
7104f784Smrg	    }
7104f784Smrg	}
09885543Smrg    }
7104f784Smrg    xf86DrvMsg(pScrn->scrnIndex, from, "Dual head %sabled\n",
7104f784Smrg	       pSmi->Dualhead ? "en" : "dis");
09885543Smrg
7104f784Smrg    if (!pSmi->NoAccel) {
7104f784Smrg	char *strptr;
7104f784Smrg
7104f784Smrg	from = X_DEFAULT;
7104f784Smrg	if ((strptr = (char *)xf86GetOptValString(pSmi->Options,
7104f784Smrg						  OPTION_ACCELMETHOD))) {
7104f784Smrg	    if (!xf86NameCmp(strptr,"XAA")) {
7104f784Smrg		from = X_CONFIG;
7104f784Smrg		pSmi->useEXA = FALSE;
7104f784Smrg	    } else if(!xf86NameCmp(strptr,"EXA")) {
7104f784Smrg		from = X_CONFIG;
7104f784Smrg		pSmi->useEXA = TRUE;
7104f784Smrg	    }
09885543Smrg	}
7104f784Smrg
7104f784Smrg	xf86DrvMsg(pScrn->scrnIndex, from, "Using %s acceleration architecture\n",
7104f784Smrg		pSmi->useEXA ? "EXA" : "XAA");
09885543Smrg    }
09885543Smrg
7104f784Smrg    if (IS_MSOC(pSmi)) {
7104f784Smrg	pSmi->CSCVideo = !pSmi->useEXA || !pSmi->Dualhead;
7104f784Smrg	from = X_DEFAULT;
7104f784Smrg	if (xf86GetOptValBool(pSmi->Options, OPTION_CSCVIDEO, &pSmi->CSCVideo)) {
7104f784Smrg	    from = X_CONFIG;
7104f784Smrg
7104f784Smrg	    /* FIXME */
7104f784Smrg	    if (pSmi->CSCVideo && pSmi->useEXA && pSmi->Dualhead) {
7104f784Smrg		xf86DrvMsg(pScrn->scrnIndex, X_WARNING,
7104f784Smrg			   "CSCVideo requires XAA or EXA in single head mode.\n");
7104f784Smrg		pSmi->CSCVideo = FALSE;
7104f784Smrg	    }
7104f784Smrg	}
09885543Smrg
7104f784Smrg	xf86DrvMsg(pScrn->scrnIndex, from, "CSC Video %sabled\n",
7104f784Smrg		   pSmi->CSCVideo ? "en" : "dis");
7104f784Smrg    }
09885543Smrg
7104f784Smrg    SMI_MapMmio(pScrn);
7104f784Smrg    SMI_DetectMem(pScrn);
7104f784Smrg    SMI_MapMem(pScrn);
7104f784Smrg    SMI_DisableVideo(pScrn);
09885543Smrg
09885543Smrg    /* detect the panel size */
09885543Smrg    SMI_DetectPanelSize(pScrn);
09885543Smrg
7104f784Smrg    if(!IS_MSOC(pSmi)){
7104f784Smrg	if (xf86LoadSubModule(pScrn, "i2c")) {
7104f784Smrg	    SMI_I2CInit(pScrn);
7104f784Smrg	}
2ec8c4b4Smrg	xf86LoadSubModule(pScrn, "ddc");
09885543Smrg    }
09885543Smrg
09885543Smrg    /*
09885543Smrg     * If the driver can do gamma correction, it should call xf86SetGamma()
09885543Smrg     */
09885543Smrg    {
09885543Smrg	Gamma zeros = { 0.0, 0.0, 0.0 };
09885543Smrg
09885543Smrg	if (!xf86SetGamma(pScrn, zeros)) {
09885543Smrg	    SMI_EnableVideo(pScrn);
09885543Smrg	    SMI_UnmapMem(pScrn);
7104f784Smrg	    LEAVE(FALSE);
09885543Smrg	}
09885543Smrg    }
09885543Smrg
7104f784Smrg    SMI_DetectMCLK(pScrn);
09885543Smrg
09885543Smrg    /*
09885543Smrg     * Setup the ClockRanges, which describe what clock ranges are available,
09885543Smrg     * and what sort of modes they can be used for.
09885543Smrg     */
7104f784Smrg    pSmi->clockRange.next = NULL;
7104f784Smrg    pSmi->clockRange.minClock = 20000;
09885543Smrg
7104f784Smrg    if (SMI_LYNXM_SERIES(pSmi->Chipset) ||
7104f784Smrg	IS_MSOC(pSmi))
7104f784Smrg	pSmi->clockRange.maxClock = 200000;
09885543Smrg    else
7104f784Smrg        pSmi->clockRange.maxClock = 135000;
09885543Smrg
7104f784Smrg    pSmi->clockRange.clockIndex = -1;
7104f784Smrg    pSmi->clockRange.interlaceAllowed = FALSE;
7104f784Smrg    pSmi->clockRange.doubleScanAllowed = FALSE;
09885543Smrg
7104f784Smrg    if(!SMI_CrtcPreInit(pScrn))
7104f784Smrg	LEAVE(FALSE);
7104f784Smrg
7104f784Smrg    if(!SMI_OutputPreInit(pScrn))
7104f784Smrg	LEAVE(FALSE);
7104f784Smrg
7104f784Smrg    /* Only allow growing the screen dimensions if EXA is being used */
7104f784Smrg    if (!xf86InitialConfiguration (pScrn, !pSmi->NoAccel && pSmi->useEXA)){
09885543Smrg	xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "No valid modes found\n");
2ec8c4b4Smrg
2ec8c4b4Smrg	SMI_EnableVideo(pScrn);
2ec8c4b4Smrg	SMI_UnmapMem(pScrn);
7104f784Smrg	LEAVE(FALSE);
09885543Smrg    }
09885543Smrg
2ec8c4b4Smrg    /* Ensure that the framebuffer size just set fits in video memory. */
2ec8c4b4Smrg    {
2ec8c4b4Smrg	int aligned_pitch = (pScrn->virtualX*pSmi->Bpp + 15) & ~15;
2ec8c4b4Smrg
2ec8c4b4Smrg	if(aligned_pitch * pScrn->virtualY > pSmi->FBReserved){
2ec8c4b4Smrg	    xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "Not enough video memory "
2ec8c4b4Smrg		       "for the configured screen size (%dx%d) and color depth.\n",
2ec8c4b4Smrg                       pScrn->virtualX, pScrn->virtualY);
2ec8c4b4Smrg
2ec8c4b4Smrg	    SMI_EnableVideo(pScrn);
2ec8c4b4Smrg	    SMI_UnmapMem(pScrn);
2ec8c4b4Smrg	    LEAVE(FALSE);
2ec8c4b4Smrg	}
2ec8c4b4Smrg    }
2ec8c4b4Smrg
09885543Smrg
7104f784Smrg    SMI_EnableVideo(pScrn);
7104f784Smrg    SMI_UnmapMem(pScrn);
7104f784Smrg
7104f784Smrg    if(pSmi->pVbe){
7104f784Smrg       vbeFree(pSmi->pVbe);
7104f784Smrg       pSmi->pVbe = NULL;
7104f784Smrg    }
7104f784Smrg    if(pSmi->pInt10){
7104f784Smrg       xf86FreeInt10(pSmi->pInt10);
7104f784Smrg       pSmi->pInt10 = NULL;
7104f784Smrg    }
09885543Smrg
09885543Smrg    /* Set display resolution */
09885543Smrg    xf86SetDpi(pScrn, 0, 0);
09885543Smrg
7104f784Smrg    if (xf86LoadSubModule(pScrn, "fb") == NULL) {
09885543Smrg	SMI_FreeRec(pScrn);
7104f784Smrg	LEAVE(FALSE);
09885543Smrg    }
09885543Smrg
09885543Smrg    /* Load XAA or EXA if needed */
09885543Smrg    if (!pSmi->NoAccel) {
09885543Smrg	if (!pSmi->useEXA) {
09885543Smrg	    if (!xf86LoadSubModule(pScrn, "xaa")) {
5788ca14Smrg		xf86DrvMsg(pScrn->scrnIndex, X_WARNING, "No acceleration\n");
5788ca14Smrg		pSmi->NoAccel = 1;
09885543Smrg	    }
09885543Smrg	} else {
09885543Smrg	    XF86ModReqInfo req;
09885543Smrg	    int errmaj, errmin;
09885543Smrg
09885543Smrg	    memset(&req, 0, sizeof(XF86ModReqInfo));
09885543Smrg	    req.majorversion = 2;
7104f784Smrg	    req.minorversion = 1;
09885543Smrg
09885543Smrg	    if (!LoadSubModule(pScrn->module, "exa", NULL, NULL, NULL,
09885543Smrg				&req, &errmaj, &errmin)) {
09885543Smrg		LoaderErrorMsg(NULL, "exa", errmaj, errmin);
09885543Smrg		SMI_FreeRec(pScrn);
7104f784Smrg		LEAVE(FALSE);
09885543Smrg	    }
09885543Smrg	}
09885543Smrg    }
09885543Smrg
09885543Smrg    /* Load ramdac if needed */
7104f784Smrg    if (pSmi->HwCursor) {
09885543Smrg	if (!xf86LoadSubModule(pScrn, "ramdac")) {
09885543Smrg	    SMI_FreeRec(pScrn);
7104f784Smrg	    LEAVE(FALSE);
09885543Smrg	}
09885543Smrg    }
09885543Smrg
7104f784Smrg    LEAVE(TRUE);
09885543Smrg}
09885543Smrg
09885543Smrg/*
09885543Smrg * This is called when VT switching back to the X server.  Its job is to
09885543Smrg * reinitialise the video mode. We may wish to unmap video/MMIO memory too.
09885543Smrg */
09885543Smrg
09885543Smrgstatic Bool
5788ca14SmrgSMI_EnterVT(VT_FUNC_ARGS_DECL)
09885543Smrg{
5788ca14Smrg    SCRN_INFO_PTR(arg);
09885543Smrg    SMIPtr pSmi = SMIPTR(pScrn);
09885543Smrg
7104f784Smrg    ENTER();
09885543Smrg
09885543Smrg    /* Enable MMIO and map memory */
09885543Smrg    SMI_MapMem(pScrn);
09885543Smrg
7104f784Smrg    pSmi->Save(pScrn);
09885543Smrg
7104f784Smrg    /* FBBase may have changed after remapping the memory */
7104f784Smrg    pScrn->pScreen->ModifyPixmapHeader(pScrn->pScreen->GetScreenPixmap(pScrn->pScreen),
7104f784Smrg				       -1,-1,-1,-1,-1, pSmi->FBBase + pSmi->FBOffset);
7b58d2e0Smrg#if (XORG_VERSION_CURRENT < XORG_VERSION_NUMERIC(1, 9, 99, 1, 0))
7104f784Smrg    pScrn->pixmapPrivate.ptr=pSmi->FBBase + pSmi->FBOffset;
7b58d2e0Smrg#endif
09885543Smrg
7104f784Smrg    if(pSmi->useEXA)
7104f784Smrg       pSmi->EXADriverPtr->memoryBase=pSmi->FBBase;
09885543Smrg
7104f784Smrg    /* Do the CRTC independent initialization */
7104f784Smrg    if(!SMI_HWInit(pScrn))
7104f784Smrg	LEAVE(FALSE);
09885543Smrg
7104f784Smrg    /* Initialize the chosen modes */
7104f784Smrg    if (!xf86SetDesiredModes(pScrn))
7104f784Smrg	LEAVE(FALSE);
09885543Smrg
7104f784Smrg    xf86DrvMsgVerb(pScrn->scrnIndex, X_INFO, VERBLEV,
7104f784Smrg		   "Done writing mode.  Register dump:\n");
7104f784Smrg    SMI_PrintRegs(pScrn);
09885543Smrg
09885543Smrg    /* Reset the grapics engine */
09885543Smrg    if (!pSmi->NoAccel)
09885543Smrg	SMI_EngineReset(pScrn);
09885543Smrg
7104f784Smrg    LEAVE(TRUE);
09885543Smrg}
09885543Smrg
09885543Smrg/*
09885543Smrg * This is called when VT switching away from the X server.  Its job is to
09885543Smrg * restore the previous (text) mode. We may wish to remap video/MMIO memory
09885543Smrg * too.
09885543Smrg */
09885543Smrg
09885543Smrgstatic void
5788ca14SmrgSMI_LeaveVT(VT_FUNC_ARGS_DECL)
09885543Smrg{
5788ca14Smrg    SCRN_INFO_PTR(arg);
7104f784Smrg    SMIPtr	pSmi = SMIPTR(pScrn);
09885543Smrg
7104f784Smrg    ENTER();
09885543Smrg
7104f784Smrg    SMI_AccelSync(pScrn);
09885543Smrg
7104f784Smrg    /* Ensure that the rotation BlockHandler is unwrapped, and the shadow
7104f784Smrg       pixmaps are deallocated, as the video memory is going to be
7104f784Smrg       unmapped.  */
7104f784Smrg    xf86RotateCloseScreen(pScrn->pScreen);
09885543Smrg
7104f784Smrg    /* Pixmaps that by chance get allocated near the former aperture
7104f784Smrg       address shouldn't be considered offscreen. */
7104f784Smrg    if(pSmi->useEXA)
7104f784Smrg       pSmi->EXADriverPtr->memoryBase=NULL;
09885543Smrg
7104f784Smrg    /* Clear frame buffer */
7104f784Smrg    memset(pSmi->FBBase, 0, pSmi->videoRAMBytes);
7104f784Smrg
7104f784Smrg    if (!IS_MSOC(pSmi)) {
7104f784Smrg	vgaHWPtr	hwp = VGAHWPTR(pScrn);
7104f784Smrg
7104f784Smrg	SMILynx_WriteMode(pScrn, &hwp->SavedReg, pSmi->save);
09885543Smrg    }
7104f784Smrg    else
7104f784Smrg	SMI501_WriteMode(pScrn, pSmi->save);
09885543Smrg
09885543Smrg    SMI_UnmapMem(pScrn);
09885543Smrg
7104f784Smrg    LEAVE();
09885543Smrg}
09885543Smrg
09885543Smrgstatic void
7104f784SmrgSMI_DetectPanelSize(ScrnInfoPtr pScrn)
09885543Smrg{
621ff18cSmrg    const char	*s;
7104f784Smrg    int		 width, height;
7104f784Smrg    SMIPtr	 pSmi = SMIPTR(pScrn);
09885543Smrg
7104f784Smrg    pSmi->lcdWidth  = 0;
7104f784Smrg    pSmi->lcdHeight = 0;
7104f784Smrg    if ((s = xf86GetOptValString(pSmi->Options, OPTION_PANEL_SIZE)) != NULL) {
7104f784Smrg	if (sscanf(s, "%dx%d", &width, &height) != 2)
7104f784Smrg	    xf86DrvMsg(pScrn->scrnIndex, X_WARNING,
7104f784Smrg		       "Invalid PanelSize option: %s\n", s);
7104f784Smrg	else {
7104f784Smrg	    pSmi->lcdWidth  = width;
7104f784Smrg	    pSmi->lcdHeight = height;
09885543Smrg	}
09885543Smrg    }
09885543Smrg
7104f784Smrg    if (pSmi->lcdWidth == 0 || pSmi->lcdHeight == 0) {
7104f784Smrg	/* panel size detection ... requires BIOS call on 730 hardware */
eb3dced6Smacallan#ifdef USE_INT10
7104f784Smrg	if (pSmi->Chipset == SMI_COUGAR3DR) {
7104f784Smrg	    if (pSmi->pInt10 != NULL) {
7104f784Smrg		pSmi->pInt10->num = 0x10;
7104f784Smrg		pSmi->pInt10->ax  = 0x5F00;
7104f784Smrg		pSmi->pInt10->bx  = 0;
7104f784Smrg		pSmi->pInt10->cx  = 0;
7104f784Smrg		pSmi->pInt10->dx  = 0;
7104f784Smrg		xf86ExecX86int10(pSmi->pInt10);
7104f784Smrg		if (pSmi->pInt10->ax == 0x005F) {
7104f784Smrg		    switch (pSmi->pInt10->cx & 0x0F) {
7104f784Smrg			case PANEL_640x480:
7104f784Smrg			    pSmi->lcdWidth  = 640;
7104f784Smrg			    pSmi->lcdHeight = 480;
7104f784Smrg			    break;
7104f784Smrg			case PANEL_800x600:
7104f784Smrg			    pSmi->lcdWidth  = 800;
7104f784Smrg			    pSmi->lcdHeight = 600;
7104f784Smrg			    break;
7104f784Smrg			case PANEL_1024x768:
7104f784Smrg			    pSmi->lcdWidth  = 1024;
7104f784Smrg			    pSmi->lcdHeight = 768;
7104f784Smrg			    break;
7104f784Smrg			case PANEL_1280x1024:
7104f784Smrg			    pSmi->lcdWidth  = 1280;
7104f784Smrg			    pSmi->lcdHeight = 1024;
7104f784Smrg			    break;
7104f784Smrg			case PANEL_1600x1200:
7104f784Smrg			    pSmi->lcdWidth  = 1600;
7104f784Smrg			    pSmi->lcdHeight = 1200;
7104f784Smrg			    break;
7104f784Smrg			case PANEL_1400x1050:
7104f784Smrg			    pSmi->lcdWidth  = 1400;
7104f784Smrg			    pSmi->lcdHeight = 1050;
7104f784Smrg			    break;
7104f784Smrg		    }
09885543Smrg
7104f784Smrg		    xf86DrvMsg(pScrn->scrnIndex, X_INFO,
7104f784Smrg			       "Detected panel size via BIOS: %d x %d\n",
7104f784Smrg			       pSmi->lcdWidth, pSmi->lcdHeight);
09885543Smrg		}
7104f784Smrg		else
7104f784Smrg		    xf86DrvMsg(pScrn->scrnIndex, X_INFO,
7104f784Smrg			       "BIOS error during 730 panel detection!\n");
09885543Smrg	    }
7104f784Smrg	    else  {
7104f784Smrg		/* int10 support isn't setup on the second call to this function,
7104f784Smrg		  o if this is the second call, don't do detection again */
7104f784Smrg		if (pSmi->lcd == 0)
7104f784Smrg		    /* If we get here, int10 support is not loaded or not working */
7104f784Smrg		    xf86DrvMsg(pScrn->scrnIndex, X_INFO,
7104f784Smrg			       "No BIOS support for 730 panel detection!\n");
09885543Smrg	    }
09885543Smrg
7104f784Smrg	    /* Set this to indicate that we've done the detection */
7104f784Smrg	    pSmi->lcd = 1;
09885543Smrg	}
eb3dced6Smacallan	else
eb3dced6Smacallan#endif /* USE_INT10 */
eb3dced6Smacallan	if (IS_MSOC(pSmi)) {
7104f784Smrg	    pSmi->lcdWidth  = (READ_SCR(pSmi, PANEL_WWIDTH)  >> 16) & 2047;
7104f784Smrg	    pSmi->lcdHeight = (READ_SCR(pSmi, PANEL_WHEIGHT) >> 16) & 2047;
09885543Smrg	}
7104f784Smrg	else {
7104f784Smrg	    /* panel size detection for hardware other than 730 */
7104f784Smrg	    pSmi->lcd = VGAIN8_INDEX(pSmi, VGA_SEQ_INDEX, VGA_SEQ_DATA,
7104f784Smrg				     0x31) & 0x01;
09885543Smrg
7104f784Smrg	    if (VGAIN8_INDEX(pSmi, VGA_SEQ_INDEX, VGA_SEQ_DATA,
7104f784Smrg			     0x30) & 0x01) {
7104f784Smrg		pSmi->lcd <<= 1;
7104f784Smrg	    }
7104f784Smrg	    switch (VGAIN8_INDEX(pSmi, VGA_SEQ_INDEX, VGA_SEQ_DATA,
7104f784Smrg				 0x30) & 0x0C) {
7104f784Smrg		case 0x00:
09885543Smrg		    pSmi->lcdWidth  = 640;
09885543Smrg		    pSmi->lcdHeight = 480;
09885543Smrg		    break;
7104f784Smrg		case 0x04:
09885543Smrg		    pSmi->lcdWidth  = 800;
09885543Smrg		    pSmi->lcdHeight = 600;
09885543Smrg		    break;
7104f784Smrg		case 0x08:
7104f784Smrg		    if (VGAIN8_INDEX(pSmi, VGA_SEQ_INDEX, VGA_SEQ_DATA,
7104f784Smrg				     0x74) & 0x02) {
7104f784Smrg			pSmi->lcdWidth  = 1024;
7104f784Smrg			pSmi->lcdHeight = 600;
7104f784Smrg		    }
7104f784Smrg		    else {
7104f784Smrg			pSmi->lcdWidth  = 1024;
7104f784Smrg			pSmi->lcdHeight = 768;
7104f784Smrg		    }
09885543Smrg		    break;
7104f784Smrg		case 0x0C:
09885543Smrg		    pSmi->lcdWidth  = 1280;
09885543Smrg		    pSmi->lcdHeight = 1024;
09885543Smrg		    break;
09885543Smrg	    }
09885543Smrg	}
09885543Smrg    }
09885543Smrg
7104f784Smrg    if (!pSmi->lcdWidth && (pSmi->lcdWidth = pScrn->virtualX) == 0)
7104f784Smrg	pSmi->lcdWidth = 1024;
7104f784Smrg    if (!pSmi->lcdHeight && (pSmi->lcdHeight = pScrn->virtualY) == 0)
7104f784Smrg	pSmi->lcdHeight = 768;
7104f784Smrg
09885543Smrg    xf86DrvMsg(pScrn->scrnIndex, X_INFO, "%s Panel Size = %dx%d\n",
09885543Smrg	       (pSmi->lcd == 0) ? "OFF" : (pSmi->lcd == 1) ? "TFT" : "DSTN",
09885543Smrg	       pSmi->lcdWidth, pSmi->lcdHeight);
09885543Smrg
09885543Smrg}
09885543Smrg
7104f784Smrgstatic void
7104f784SmrgSMI_DetectMCLK(ScrnInfoPtr pScrn)
7104f784Smrg{
7104f784Smrg    double		real;
7104f784Smrg    MSOCClockRec	clock;
7104f784Smrg    int			mclk, mxclk;
7104f784Smrg    SMIPtr		pSmi = SMIPTR(pScrn);
7104f784Smrg
7104f784Smrg    /* MCLK defaults */
7104f784Smrg    if (pSmi->Chipset == SMI_LYNXEMplus){
7104f784Smrg	/* The SM712 can be safely clocked up to 157MHz, according to
7104f784Smrg	   Silicon Motion engineers. */
7104f784Smrg	pSmi->MCLK = 157000;
7104f784Smrg
2ec8c4b4Smrg    } else if (IS_MSOC(pSmi)) {
2ec8c4b4Smrg       /* Set some sane defaults for the clock settings if we are on a
2ec8c4b4Smrg          SM502 and it's likely to be uninitialized. */
2ec8c4b4Smrg
2ec8c4b4Smrg       if (!xf86IsPrimaryPci(pSmi->PciInfo) &&
2ec8c4b4Smrg           (READ_SCR(pSmi, DEVICE_ID) & 0xFF) >= 0xC0) {
2ec8c4b4Smrg          pSmi->MCLK = 112000;
2ec8c4b4Smrg          pSmi->MXCLK = 144000;
2ec8c4b4Smrg       }
2ec8c4b4Smrg
2ec8c4b4Smrg    } else {
2ec8c4b4Smrg        pSmi->MCLK = 0;
2ec8c4b4Smrg        pSmi->MXCLK = 0;
2ec8c4b4Smrg    }
7104f784Smrg
7104f784Smrg    /* MCLK from user settings */
7104f784Smrg    if (xf86GetOptValFreq(pSmi->Options, OPTION_MCLK, OPTUNITS_MHZ, &real)) {
7104f784Smrg	if (IS_MSOC(pSmi) || (int)real <= 120) {
7104f784Smrg	    pSmi->MCLK = (int)(real * 1000.0);
7104f784Smrg	} else {
7104f784Smrg	    xf86DrvMsg(pScrn->scrnIndex, X_WARNING,
7104f784Smrg		       "Memory Clock %1.3f MHz larger than limit of 120 MHz\n",
7104f784Smrg		       real);
7104f784Smrg	}
7104f784Smrg    }
7104f784Smrg    mclk = pSmi->MCLK;
7104f784Smrg
7104f784Smrg    if (IS_MSOC(pSmi)) {
7104f784Smrg	clock.value = READ_SCR(pSmi, CURRENT_CLOCK);
7104f784Smrg	if (xf86GetOptValFreq(pSmi->Options, OPTION_MXCLK,
7104f784Smrg			      OPTUNITS_MHZ, &real))
7104f784Smrg	    pSmi->MXCLK = (int)(real * 1000.0);
7104f784Smrg    }
7104f784Smrg
7104f784Smrg    /* Already programmed MCLK */
7104f784Smrg    if (pSmi->MCLK == 0) {
7104f784Smrg	if (IS_MSOC(pSmi))
7104f784Smrg	    mclk = ((clock.f.m_select ? 336 : 288) /
7104f784Smrg		    ((clock.f.m_divider ? 3 : 1) <<
7104f784Smrg		     (unsigned)clock.f.m_shift)) * 1000;
7104f784Smrg	else {
7104f784Smrg	    unsigned char	shift, m, n;
7104f784Smrg
7104f784Smrg	    m = VGAIN8_INDEX(pSmi, VGA_SEQ_INDEX, VGA_SEQ_DATA, 0x6A);
7104f784Smrg	    n = VGAIN8_INDEX(pSmi, VGA_SEQ_INDEX, VGA_SEQ_DATA, 0x6B);
7104f784Smrg	    switch (n >> 6) {
7104f784Smrg		case 1:
7104f784Smrg		    shift = 4;
7104f784Smrg		    break;
7104f784Smrg		case 2:
7104f784Smrg		    shift = 2;
7104f784Smrg		    break;
7104f784Smrg		default:
7104f784Smrg		    shift = 1;
7104f784Smrg		    break;
7104f784Smrg	    }
7104f784Smrg	    n &= 0x3F;
7104f784Smrg	    mclk = ((1431818 * m) / n / shift + 50) / 100;
7104f784Smrg	}
7104f784Smrg    }
7104f784Smrg
7104f784Smrg    xf86DrvMsg(pScrn->scrnIndex, X_INFO, "MCLK = %1.3f\n", mclk / 1000.0);
7104f784Smrg    if (IS_MSOC(pSmi)) {
7104f784Smrg	if (pSmi->MXCLK == 0) {
7104f784Smrg	    mxclk = ((clock.f.m1_select ? 336 : 288) /
7104f784Smrg		     ((clock.f.m1_divider ? 3 : 1) <<
7104f784Smrg		      (unsigned)clock.f.m1_shift)) * 1000;
7104f784Smrg	}
7104f784Smrg	else
7104f784Smrg	    mxclk = pSmi->MXCLK;
7104f784Smrg	xf86DrvMsg(pScrn->scrnIndex, X_INFO, "MXCLK = %1.3f\n", mxclk / 1000.0);
7104f784Smrg    }
7104f784Smrg}
7104f784Smrg
09885543Smrgstatic Bool
7104f784SmrgSMI_MapMmio(ScrnInfoPtr pScrn)
09885543Smrg{
7104f784Smrg    SMIPtr	pSmi = SMIPTR(pScrn);
7104f784Smrg    CARD32	memBase;
09885543Smrg
7104f784Smrg    SMI_EnableMmio(pScrn);
09885543Smrg
09885543Smrg    switch (pSmi->Chipset) {
7104f784Smrg	case SMI_COUGAR3DR:
7104f784Smrg	    memBase = PCI_REGION_BASE(pSmi->PciInfo, 1, REGION_MEM);
7104f784Smrg	    pSmi->MapSize = 0x200000;
7104f784Smrg	    break;
7104f784Smrg	case SMI_LYNX3D:
7104f784Smrg	    memBase = PCI_REGION_BASE(pSmi->PciInfo, 0, REGION_MEM) + 0x680000;
7104f784Smrg	    pSmi->MapSize = 0x180000;
7104f784Smrg	    break;
7104f784Smrg	case SMI_LYNXEM:
7104f784Smrg	case SMI_LYNXEMplus:
7104f784Smrg	    memBase = PCI_REGION_BASE(pSmi->PciInfo, 0, REGION_MEM) + 0x400000;
7104f784Smrg	    pSmi->MapSize = 0x400000;
7104f784Smrg	    break;
7104f784Smrg	case SMI_LYNX3DM:
7104f784Smrg	    memBase = PCI_REGION_BASE(pSmi->PciInfo, 0, REGION_MEM);
7104f784Smrg	    pSmi->MapSize = 0x200000;
7104f784Smrg	    break;
7104f784Smrg	case SMI_MSOC:
7104f784Smrg	    memBase = PCI_REGION_BASE(pSmi->PciInfo, 1, REGION_MEM);
7104f784Smrg	    pSmi->MapSize = 0x200000;
7104f784Smrg	    break;
7104f784Smrg	default:
7104f784Smrg	    memBase = PCI_REGION_BASE(pSmi->PciInfo, 0, REGION_MEM) + 0x400000;
7104f784Smrg	    pSmi->MapSize = 0x10000;
7104f784Smrg	    break;
09885543Smrg    }
7104f784Smrg
7104f784Smrg#ifndef XSERVER_LIBPCIACCESS
09885543Smrg    pSmi->MapBase = xf86MapPciMem(pScrn->scrnIndex, VIDMEM_MMIO, pSmi->PciTag,
09885543Smrg				  memBase, pSmi->MapSize);
7104f784Smrg#else
7104f784Smrg    {
7104f784Smrg	void	**result = (void**)&pSmi->MapBase;
7104f784Smrg	int	  err = pci_device_map_range(pSmi->PciInfo,
7104f784Smrg					     memBase,
7104f784Smrg					     pSmi->MapSize,
7104f784Smrg					     PCI_DEV_MAP_FLAG_WRITABLE,
7104f784Smrg					     result);
7104f784Smrg
7104f784Smrg	if (err)
eb3dced6Smacallan	    pSmi->MapBase = NULL;
7104f784Smrg    }
7104f784Smrg#endif
09885543Smrg
09885543Smrg    if (pSmi->MapBase == NULL) {
09885543Smrg	xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "Internal error: could not map "
09885543Smrg		   "MMIO registers.\n");
7104f784Smrg	return (FALSE);
09885543Smrg    }
09885543Smrg
09885543Smrg    switch (pSmi->Chipset) {
7104f784Smrg	case SMI_COUGAR3DR:
7104f784Smrg	    pSmi->DPRBase = pSmi->MapBase + 0x000000;
7104f784Smrg	    pSmi->VPRBase = pSmi->MapBase + 0x000800;
7104f784Smrg	    pSmi->CPRBase = pSmi->MapBase + 0x001000;
7104f784Smrg	    pSmi->FPRBase = pSmi->MapBase + 0x005800;
7104f784Smrg	    pSmi->IOBase  = pSmi->MapBase + 0x0C0000;
7104f784Smrg	    pSmi->DataPortBase = pSmi->MapBase + 0x100000;
7104f784Smrg	    pSmi->DataPortSize = 0x100000;
7104f784Smrg	    break;
7104f784Smrg	case SMI_LYNX3D:
7104f784Smrg	    pSmi->DPRBase = pSmi->MapBase + 0x000000;
7104f784Smrg	    pSmi->VPRBase = pSmi->MapBase + 0x000800;
7104f784Smrg	    pSmi->CPRBase = pSmi->MapBase + 0x001000;
7104f784Smrg	    pSmi->IOBase  = pSmi->MapBase + 0x040000;
7104f784Smrg	    pSmi->DataPortBase = pSmi->MapBase + 0x080000;
7104f784Smrg	    pSmi->DataPortSize = 0x100000;
7104f784Smrg	    break;
7104f784Smrg	case SMI_LYNXEM:
7104f784Smrg	case SMI_LYNXEMplus:
7104f784Smrg	    pSmi->DPRBase = pSmi->MapBase + 0x008000;
7104f784Smrg	    pSmi->VPRBase = pSmi->MapBase + 0x00C000;
7104f784Smrg	    pSmi->CPRBase = pSmi->MapBase + 0x00E000;
7104f784Smrg	    pSmi->IOBase  = pSmi->MapBase + 0x300000;
7104f784Smrg	    pSmi->DataPortBase = pSmi->MapBase /*+ 0x100000*/;
7104f784Smrg	    pSmi->DataPortSize = 0x8000 /*0x200000*/;
7104f784Smrg	    break;
7104f784Smrg	case SMI_LYNX3DM:
7104f784Smrg	    pSmi->DPRBase = pSmi->MapBase + 0x000000;
7104f784Smrg	    pSmi->VPRBase = pSmi->MapBase + 0x000800;
7104f784Smrg	    pSmi->CPRBase = pSmi->MapBase + 0x001000;
7104f784Smrg	    pSmi->IOBase  = pSmi->MapBase + 0x0C0000;
7104f784Smrg	    pSmi->DataPortBase = pSmi->MapBase + 0x100000;
7104f784Smrg	    pSmi->DataPortSize = 0x100000;
7104f784Smrg	    break;
7104f784Smrg	case SMI_MSOC:
7104f784Smrg	    pSmi->DPRBase = pSmi->MapBase + 0x100000;
7104f784Smrg	    pSmi->VPRBase = pSmi->MapBase + 0x000000;
7104f784Smrg	    pSmi->CPRBase = pSmi->MapBase + 0x090000;
7104f784Smrg	    pSmi->DCRBase = pSmi->MapBase + 0x080000;
7104f784Smrg	    pSmi->SCRBase = pSmi->MapBase + 0x000000;
7104f784Smrg	    pSmi->IOBase = 0;
7104f784Smrg	    pSmi->DataPortBase = pSmi->MapBase + 0x110000;
7104f784Smrg	    pSmi->DataPortSize = 0x10000;
7104f784Smrg	    break;
7104f784Smrg	default:
7104f784Smrg	    pSmi->DPRBase = pSmi->MapBase + 0x8000;
7104f784Smrg	    pSmi->VPRBase = pSmi->MapBase + 0xC000;
7104f784Smrg	    pSmi->CPRBase = pSmi->MapBase + 0xE000;
7104f784Smrg	    pSmi->IOBase  = NULL;
7104f784Smrg	    pSmi->DataPortBase = pSmi->MapBase;
7104f784Smrg	    pSmi->DataPortSize = 0x8000;
7104f784Smrg	    break;
09885543Smrg    }
7104f784Smrg
09885543Smrg    xf86DrvMsgVerb(pScrn->scrnIndex, X_INFO, VERBLEV,
09885543Smrg		   "Physical MMIO at 0x%08lX\n", (unsigned long)memBase);
09885543Smrg    xf86DrvMsgVerb(pScrn->scrnIndex, X_INFO, VERBLEV,
09885543Smrg		   "Logical MMIO at %p - %p\n", pSmi->MapBase,
09885543Smrg		   pSmi->MapBase + pSmi->MapSize - 1);
09885543Smrg    xf86DrvMsgVerb(pScrn->scrnIndex, X_INFO, VERBLEV,
09885543Smrg		   "DPR=%p, VPR=%p, IOBase=%p\n",
09885543Smrg		   pSmi->DPRBase, pSmi->VPRBase, pSmi->IOBase);
09885543Smrg    xf86DrvMsgVerb(pScrn->scrnIndex, X_INFO, VERBLEV,
09885543Smrg		   "DataPort=%p - %p\n", pSmi->DataPortBase,
09885543Smrg		   pSmi->DataPortBase + pSmi->DataPortSize - 1);
09885543Smrg
7104f784Smrg    return (TRUE);
7104f784Smrg}
09885543Smrg
2ec8c4b4Smrg/* HACK - In some cases the BIOS hasn't filled in the "scratchpad
2ec8c4b4Smrg   registers" (SR71) with the right amount of memory installed (e.g. MIPS
2ec8c4b4Smrg   platform). Probe it manually. */
2ec8c4b4Smrgstatic unsigned long
2ec8c4b4SmrgSMI_ProbeMem(ScrnInfoPtr pScrn, unsigned long mem_skip, unsigned long mem_max)
2ec8c4b4Smrg{
2ec8c4b4Smrg    SMIPtr pSmi = SMIPTR(pScrn);
2ec8c4b4Smrg    unsigned long mem_probe = 1024*1024;
2ec8c4b4Smrg    unsigned long aperture_base;
2ec8c4b4Smrg    void* mem;
2ec8c4b4Smrg
2ec8c4b4Smrg    ENTER();
2ec8c4b4Smrg
2ec8c4b4Smrg    aperture_base = PCI_REGION_BASE(pSmi->PciInfo, 0, REGION_MEM) + mem_skip;
2ec8c4b4Smrg    mem_max = min(mem_max , PCI_REGION_SIZE(pSmi->PciInfo, 0) - mem_skip);
2ec8c4b4Smrg
2ec8c4b4Smrg#ifndef XSERVER_LIBPCIACCESS
2ec8c4b4Smrg    mem = xf86MapPciMem(pScrn->scrnIndex, VIDMEM_MMIO, pSmi->PciTag,
2ec8c4b4Smrg			aperture_base, mem_max);
2ec8c4b4Smrg
2ec8c4b4Smrg    if(!mem)
2ec8c4b4Smrg	LEAVE(0);
2ec8c4b4Smrg#else
2ec8c4b4Smrg    if(pci_device_map_range(pSmi->PciInfo, aperture_base, mem_max,
2ec8c4b4Smrg			    PCI_DEV_MAP_FLAG_WRITABLE, &mem))
2ec8c4b4Smrg	LEAVE(0);
2ec8c4b4Smrg#endif
2ec8c4b4Smrg
2ec8c4b4Smrg    while(mem_probe <= mem_max){
2ec8c4b4Smrg	MMIO_OUT32(mem, mem_probe-4, 0x55555555);
2ec8c4b4Smrg	if(MMIO_IN32(mem, mem_probe-4) != 0x55555555)
2ec8c4b4Smrg	    break;
2ec8c4b4Smrg
2ec8c4b4Smrg	MMIO_OUT32(mem, mem_probe-4, 0xAAAAAAAA);
2ec8c4b4Smrg	if(MMIO_IN32(mem, mem_probe-4) != 0xAAAAAAAA)
2ec8c4b4Smrg	    break;
2ec8c4b4Smrg
2ec8c4b4Smrg	mem_probe <<= 1;
2ec8c4b4Smrg    }
2ec8c4b4Smrg
2ec8c4b4Smrg#ifndef XSERVER_LIBPCIACCESS
2ec8c4b4Smrg    xf86UnMapVidMem(pScrn->scrnIndex, mem, mem_max);
2ec8c4b4Smrg#else
2ec8c4b4Smrg    pci_device_unmap_range(pSmi->PciInfo, mem, mem_max);
2ec8c4b4Smrg#endif
2ec8c4b4Smrg
2ec8c4b4Smrg    LEAVE(mem_probe >> 1);
2ec8c4b4Smrg}
2ec8c4b4Smrg
7104f784Smrgstatic Bool
7104f784SmrgSMI_DetectMem(ScrnInfoPtr pScrn)
7104f784Smrg{
7104f784Smrg    SMIPtr	pSmi = SMIPTR(pScrn);
7104f784Smrg    MessageType from;
09885543Smrg
7104f784Smrg    if ((pScrn->videoRam = pScrn->confScreen->device->videoRam)){
7104f784Smrg	pSmi->videoRAMKBytes = pScrn->videoRam;
7104f784Smrg	from = X_CONFIG;
7104f784Smrg    }
7104f784Smrg    else {
7104f784Smrg	unsigned char	 config;
7104f784Smrg	static int	 lynx3d_table[4]  = {  0, 2, 4, 6 };
7104f784Smrg	static int	 lynx3dm_table[4] = { 16, 2, 4, 8 };
7104f784Smrg	static int	 msoc_table[8]    = {  4, 8, 16, 32, 64, 2, 0, 0 };
7104f784Smrg	static int	 default_table[4] = {  1, 2, 4, 0 };
7104f784Smrg
7104f784Smrg	if (IS_MSOC(pSmi)) {
7104f784Smrg	    config = (READ_SCR(pSmi, DRAM_CTL) >> 13) & 7;
7104f784Smrg	    pSmi->videoRAMKBytes = msoc_table[config] * 1024 -
7104f784Smrg		SHARED_USB_DMA_BUFFER_SIZE;
7104f784Smrg	}
7104f784Smrg	else {
7104f784Smrg	    config = VGAIN8_INDEX(pSmi, VGA_SEQ_INDEX, VGA_SEQ_DATA, 0x71);
7104f784Smrg	    switch (pSmi->Chipset) {
7104f784Smrg		case SMI_LYNX3D:
7104f784Smrg		    pSmi->videoRAMKBytes = lynx3d_table[config >> 6] * 1024 +
7104f784Smrg			512;
7104f784Smrg		    break;
2ec8c4b4Smrg		case SMI_LYNXEMplus:
2ec8c4b4Smrg		    pSmi->videoRAMKBytes = SMI_ProbeMem(pScrn, 0, 0x400000) / 1024;
2ec8c4b4Smrg		    break;
7104f784Smrg		case SMI_LYNX3DM:
7104f784Smrg		    pSmi->videoRAMKBytes = lynx3dm_table[config >> 6] * 1024;
7104f784Smrg		    break;
7104f784Smrg		case SMI_COUGAR3DR:
7104f784Smrg		    /* DANGER - Cougar3DR BIOS is broken - hardcode video ram
7104f784Smrg		     * size per instructions from Silicon Motion engineers */
7104f784Smrg		    pSmi->videoRAMKBytes = 16 * 1024;
7104f784Smrg		    break;
7104f784Smrg		default:
7104f784Smrg		    pSmi->videoRAMKBytes = default_table[config >> 6] * 1024;
7104f784Smrg		    break;
7104f784Smrg	    }
09885543Smrg	}
7104f784Smrg	from = X_PROBED;
7104f784Smrg    }
09885543Smrg
7104f784Smrg    pSmi->videoRAMBytes = pSmi->videoRAMKBytes * 1024;
7104f784Smrg    pScrn->videoRam     = pSmi->videoRAMKBytes;
7104f784Smrg    xf86DrvMsg(pScrn->scrnIndex, from,
7104f784Smrg	       "videoram: %dkB\n", pSmi->videoRAMKBytes);
09885543Smrg
7104f784Smrg    return (TRUE);
7104f784Smrg}
09885543Smrg
7104f784SmrgBool
7104f784SmrgSMI_MapMem(ScrnInfoPtr pScrn)
7104f784Smrg{
7104f784Smrg    SMIPtr pSmi = SMIPTR(pScrn);
7104f784Smrg    vgaHWPtr hwp;
09885543Smrg
7104f784Smrg    ENTER();
7104f784Smrg
7104f784Smrg    if (pSmi->MapBase == NULL && SMI_MapMmio(pScrn) == FALSE)
7104f784Smrg	LEAVE(FALSE);
7104f784Smrg
7104f784Smrg    pScrn->memPhysBase = PCI_REGION_BASE(pSmi->PciInfo, 0, REGION_MEM);
7104f784Smrg
7104f784Smrg    if (pSmi->Chipset == SMI_LYNX3DM)
7104f784Smrg	pSmi->fbMapOffset = 0x200000;
7104f784Smrg    else
7104f784Smrg	pSmi->fbMapOffset = 0x0;
7104f784Smrg
7104f784Smrg#ifndef XSERVER_LIBPCIACCESS
7104f784Smrg    pSmi->FBBase = xf86MapPciMem(pScrn->scrnIndex,
7104f784Smrg				 VIDMEM_FRAMEBUFFER,
7104f784Smrg				 pSmi->PciTag,
7104f784Smrg				 pScrn->memPhysBase + pSmi->fbMapOffset,
7104f784Smrg				 pSmi->videoRAMBytes);
7104f784Smrg#else
7104f784Smrg    {
7104f784Smrg	void	**result = (void**)&pSmi->FBBase;
7104f784Smrg	int	  err = pci_device_map_range(pSmi->PciInfo,
7104f784Smrg					     pScrn->memPhysBase +
7104f784Smrg					     pSmi->fbMapOffset,
7104f784Smrg					     pSmi->videoRAMBytes,
7104f784Smrg					     PCI_DEV_MAP_FLAG_WRITABLE |
7104f784Smrg					     PCI_DEV_MAP_FLAG_WRITE_COMBINE,
7104f784Smrg					     result);
7104f784Smrg
7104f784Smrg	if (err)
7104f784Smrg	    LEAVE(FALSE);
7104f784Smrg    }
7104f784Smrg#endif
7104f784Smrg
7104f784Smrg    if (pSmi->FBBase == NULL) {
7104f784Smrg	xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
7104f784Smrg		   "Internal error: could not map framebuffer.\n");
7104f784Smrg	LEAVE(FALSE);
7104f784Smrg    }
7104f784Smrg
7104f784Smrg    xf86DrvMsgVerb(pScrn->scrnIndex, X_INFO, VERBLEV,
7104f784Smrg		   "Physical frame buffer at 0x%08lX offset: 0x%08lX\n",
7b58d2e0Smrg		   pScrn->memPhysBase, (unsigned long)pSmi->fbMapOffset);
7104f784Smrg    xf86DrvMsgVerb(pScrn->scrnIndex, X_INFO, VERBLEV,
7104f784Smrg		   "Logical frame buffer at %p - %p\n", pSmi->FBBase,
7104f784Smrg		   pSmi->FBBase + pSmi->videoRAMBytes - 1);
7104f784Smrg
7104f784Smrg    if (IS_MSOC(pSmi)) {
7104f784Smrg	/* Reserve space for panel cursr, and crt if in dual head mode */
7104f784Smrg#if SMI_CURSOR_ALPHA_PLANE
7104f784Smrg	pSmi->FBReserved = pSmi->FBCursorOffset = pSmi->videoRAMBytes -
7104f784Smrg	    (pSmi->Dualhead ? SMI501_CURSOR_SIZE << 1 : SMI501_ARGB_CURSOR_SIZE);
7104f784Smrg#else
7104f784Smrg	pSmi->FBReserved = pSmi->FBCursorOffset = pSmi->videoRAMBytes -
7104f784Smrg	    (pSmi->Dualhead ? SMI501_CURSOR_SIZE << 1 : SMI501_CURSOR_SIZE);
7104f784Smrg
7104f784Smrg# if SMI501_CLI_DEBUG
7104f784Smrg	if (pSmi->useEXA) {
7104f784Smrg	    pSmi->batch_active = FALSE;
7104f784Smrg	    pSmi->batch_length = 4096;
7104f784Smrg	    pSmi->FBReserved -= pSmi->batch_length << 3;
7104f784Smrg	    pSmi->batch_offset = pSmi->FBReserved;
7104f784Smrg	    pSmi->batch_handle = (int64_t *)(pSmi->FBBase + pSmi->batch_offset);
7104f784Smrg	    pSmi->batch_finish = -1;
7104f784Smrg	    pSmi->batch_index = 0;
7104f784Smrg	    xf86DrvMsg(pScrn->scrnIndex, X_INFO,
7104f784Smrg		       "Using command list interpreter debug code\n");
7104f784Smrg	}
7104f784Smrg# endif
7104f784Smrg
7104f784Smrg#endif
7104f784Smrg    }
7104f784Smrg    else {
7104f784Smrg	/* Set up offset to hwcursor memory area, at the end of
7104f784Smrg	 * the frame buffer.
7104f784Smrg	 */
7104f784Smrg	pSmi->FBCursorOffset = pSmi->videoRAMBytes - SMILYNX_CURSOR_SIZE;
09885543Smrg	/* set up the fifo reserved space */
09885543Smrg	if (VGAIN8_INDEX(pSmi, VGA_SEQ_INDEX, VGA_SEQ_DATA, 0x30) & 0x01)/* #1074 */ {
09885543Smrg	    CARD32 fifoOffset = 0;
7104f784Smrg	    fifoOffset |= VGAIN8_INDEX(pSmi, VGA_SEQ_INDEX, VGA_SEQ_DATA,
7104f784Smrg				       0x46) << 3;
7104f784Smrg	    fifoOffset |= VGAIN8_INDEX(pSmi, VGA_SEQ_INDEX, VGA_SEQ_DATA,
7104f784Smrg				       0x47) << 11;
7104f784Smrg	    fifoOffset |= (VGAIN8_INDEX(pSmi, VGA_SEQ_INDEX, VGA_SEQ_DATA,
7104f784Smrg					0x49) & 0x1C) << 17;
09885543Smrg	    pSmi->FBReserved = fifoOffset;	/* PDR#1074 */
09885543Smrg	}
7104f784Smrg	else
7104f784Smrg	    pSmi->FBReserved = pSmi->videoRAMBytes - 2048;
09885543Smrg
7104f784Smrg	xf86DrvMsg(pScrn->scrnIndex, X_INFO, "Cursor Offset: %08lX\n",
7104f784Smrg		   (unsigned long)pSmi->FBCursorOffset);
09885543Smrg
7104f784Smrg	/* Assign hwp->MemBase & IOBase here */
7104f784Smrg	hwp = VGAHWPTR(pScrn);
7104f784Smrg	if (pSmi->IOBase != NULL)
7104f784Smrg	    vgaHWSetMmioFuncs(hwp, pSmi->MapBase, pSmi->IOBase - pSmi->MapBase);
7104f784Smrg	vgaHWGetIOBase(hwp);
09885543Smrg
7104f784Smrg	/* Map the VGA memory when the primary video */
7104f784Smrg	if (xf86IsPrimaryPci(pSmi->PciInfo)) {
7104f784Smrg	    hwp->MapSize = 0x10000;
7104f784Smrg	    if (!vgaHWMapMem(pScrn))
7104f784Smrg		LEAVE(FALSE);
7104f784Smrg	    pSmi->PrimaryVidMapped = TRUE;
09885543Smrg	}
09885543Smrg    }
09885543Smrg
7104f784Smrg    xf86DrvMsg(pScrn->scrnIndex, X_INFO, "Reserved: %08lX\n",
7104f784Smrg	       (unsigned long)pSmi->FBReserved);
7104f784Smrg
7104f784Smrg    LEAVE(TRUE);
09885543Smrg}
09885543Smrg
09885543Smrg/* UnMapMem - contains half of pre-4.0 EnterLeave function.  The EnterLeave
09885543Smrg * function which en/disable access to IO ports and ext. regs
09885543Smrg */
09885543Smrg
7104f784Smrgvoid
09885543SmrgSMI_UnmapMem(ScrnInfoPtr pScrn)
09885543Smrg{
09885543Smrg    SMIPtr pSmi = SMIPTR(pScrn);
09885543Smrg
7104f784Smrg    ENTER();
09885543Smrg
09885543Smrg    /* Unmap VGA mem if mapped. */
09885543Smrg    if (pSmi->PrimaryVidMapped) {
09885543Smrg	vgaHWUnmapMem(pScrn);
09885543Smrg	pSmi->PrimaryVidMapped = FALSE;
09885543Smrg    }
09885543Smrg
09885543Smrg    SMI_DisableMmio(pScrn);
09885543Smrg
7104f784Smrg    if (pSmi->MapBase) {
7104f784Smrg#ifndef XSERVER_LIBPCIACCESS
7104f784Smrg	xf86UnMapVidMem(pScrn->scrnIndex, (pointer)pSmi->MapBase,
7104f784Smrg			pSmi->MapSize);
7104f784Smrg#else
7104f784Smrg	pci_device_unmap_range(pSmi->PciInfo, (pointer)pSmi->MapBase,
7104f784Smrg			       pSmi->MapSize);
7104f784Smrg#endif
7104f784Smrg	pSmi->MapBase = NULL;
7104f784Smrg    }
7104f784Smrg
7104f784Smrg    if (pSmi->FBBase) {
7104f784Smrg#ifndef XSERVER_LIBPCIACCESS
09885543Smrg	xf86UnMapVidMem(pScrn->scrnIndex, (pointer) pSmi->FBBase,
09885543Smrg			pSmi->videoRAMBytes);
7104f784Smrg#else
7104f784Smrg	pci_device_unmap_range(pSmi->PciInfo, (pointer)pSmi->FBBase,
7104f784Smrg			       pSmi->videoRAMBytes);
7104f784Smrg#endif
7104f784Smrg	pSmi->FBBase = NULL;
09885543Smrg    }
09885543Smrg
7104f784Smrg    LEAVE();
09885543Smrg}
09885543Smrg
09885543Smrg/* This gets called at the start of each server generation. */
09885543Smrg
09885543Smrgstatic Bool
5788ca14SmrgSMI_ScreenInit(SCREEN_INIT_ARGS_DECL)
09885543Smrg{
5788ca14Smrg    ScrnInfoPtr		pScrn = xf86ScreenToScrn(pScreen);
7104f784Smrg    SMIPtr		pSmi = SMIPTR(pScrn);
7104f784Smrg    EntityInfoPtr	pEnt;
09885543Smrg
7104f784Smrg    ENTER();
09885543Smrg
09885543Smrg    /* Map MMIO regs and framebuffer */
7104f784Smrg    if (!SMI_MapMem(pScrn))
7104f784Smrg	LEAVE(FALSE);
09885543Smrg
09885543Smrg    pEnt = xf86GetEntityInfo(pScrn->entityList[0]);
09885543Smrg
7104f784Smrg    if (!pSmi->pInt10 && pSmi->useBIOS) {
7104f784Smrg	pSmi->pInt10 = xf86InitInt10(pEnt->index);
09885543Smrg    }
7104f784Smrg    if (!pSmi->pVbe && pSmi->pInt10 && xf86LoaderCheckSymbol("VBEInit")) {
7104f784Smrg	pSmi->pVbe = VBEInit(pSmi->pInt10, pEnt->index);
09885543Smrg    }
09885543Smrg
7104f784Smrg    /* Save the chip/graphics state */
7104f784Smrg    pSmi->Save(pScrn);
09885543Smrg
7104f784Smrg    /* Fill in some needed pScrn fields */
7104f784Smrg    pScrn->vtSema = TRUE;
7104f784Smrg    pScrn->pScreen = pScreen;
09885543Smrg
7104f784Smrg    pScrn->displayWidth = ((pScrn->virtualX * pSmi->Bpp + 15) & ~15) / pSmi->Bpp;
09885543Smrg
7104f784Smrg    pSmi->fbArea = NULL;
7104f784Smrg    pSmi->FBOffset = 0;
7104f784Smrg    pScrn->fbOffset = pSmi->FBOffset + pSmi->fbMapOffset;
09885543Smrg
7104f784Smrg    /* Clear frame buffer */
7104f784Smrg    memset(pSmi->FBBase, 0, pSmi->videoRAMBytes);
09885543Smrg
09885543Smrg    /*
7104f784Smrg     * The next step is to setup the screen's visuals, and initialise the
7104f784Smrg     * framebuffer code.  In cases where the framebuffer's default choises for
7104f784Smrg     * things like visual layouts and bits per RGB are OK, this may be as simple
7104f784Smrg     * as calling the framebuffer's ScreenInit() function.  If not, the visuals
7104f784Smrg     * will need to be setup before calling a fb ScreenInit() function and fixed
7104f784Smrg     * up after.
7104f784Smrg     */
09885543Smrg
7104f784Smrg    /*
7104f784Smrg     * Reset the visual list.
7104f784Smrg     */
7104f784Smrg    miClearVisualTypes();
09885543Smrg
7104f784Smrg    /* Setup the visuals we support. */
09885543Smrg
7104f784Smrg    if (!miSetVisualTypes(pScrn->depth, miGetDefaultVisualMask(pScrn->depth),
7104f784Smrg			  pScrn->rgbBits, pScrn->defaultVisual))
7104f784Smrg	LEAVE(FALSE);
09885543Smrg
7104f784Smrg    if (!miSetPixmapDepths ())
7104f784Smrg	LEAVE(FALSE);
09885543Smrg
7104f784Smrg    /*
7104f784Smrg     * Call the framebuffer layer's ScreenInit function
7104f784Smrg     */
09885543Smrg
7104f784Smrg    DEBUG("\tInitializing FB @ 0x%08X for %dx%d (%d)\n",
7104f784Smrg	  pSmi->FBBase, pScrn->virtualX, pScrn->virtualY, pScrn->displayWidth);
7104f784Smrg    if(!fbScreenInit(pScreen, pSmi->FBBase, pScrn->virtualX, pScrn->virtualY, pScrn->xDpi,
7104f784Smrg		     pScrn->yDpi, pScrn->displayWidth, pScrn->bitsPerPixel))
7104f784Smrg	LEAVE(FALSE);
09885543Smrg
7104f784Smrg    xf86SetBlackWhitePixels(pScreen);
09885543Smrg
7104f784Smrg    if (pScrn->bitsPerPixel > 8) {
7104f784Smrg	VisualPtr visual;
7104f784Smrg	/* Fixup RGB ordering */
7104f784Smrg	visual = pScreen->visuals + pScreen->numVisuals;
7104f784Smrg	while (--visual >= pScreen->visuals) {
7104f784Smrg	    if ((visual->class | DynamicClass) == DirectColor) {
7104f784Smrg		visual->offsetRed   = pScrn->offset.red;
7104f784Smrg		visual->offsetGreen = pScrn->offset.green;
7104f784Smrg		visual->offsetBlue  = pScrn->offset.blue;
7104f784Smrg		visual->redMask     = pScrn->mask.red;
7104f784Smrg		visual->greenMask   = pScrn->mask.green;
7104f784Smrg		visual->blueMask    = pScrn->mask.blue;
7104f784Smrg	    }
09885543Smrg	}
09885543Smrg    }
09885543Smrg
7104f784Smrg    /* must be after RGB ordering fixed */
7104f784Smrg    fbPictureInit(pScreen, 0, 0);
7104f784Smrg
7104f784Smrg    /* Do the CRTC independent initialization */
7104f784Smrg    if(!SMI_HWInit(pScrn))
7104f784Smrg	LEAVE(FALSE);
09885543Smrg
7104f784Smrg    /* Unless using EXA, regardless or using XAA or not, needs offscreen
7104f784Smrg     * management at least for video. */
7104f784Smrg    if (pSmi->NoAccel || !pSmi->useEXA) {
7104f784Smrg	int		numLines;
7104f784Smrg	BoxRec		AvailFBArea;
09885543Smrg
7104f784Smrg	numLines = pSmi->FBReserved / (pScrn->displayWidth * pSmi->Bpp);
7104f784Smrg	AvailFBArea.x1 = 0;
7104f784Smrg	AvailFBArea.y1 = 0;
7104f784Smrg	AvailFBArea.x2 = pScrn->virtualX;
7104f784Smrg	AvailFBArea.y2 = numLines;
09885543Smrg
7104f784Smrg	xf86DrvMsg(pScrn->scrnIndex, X_INFO,
7104f784Smrg		   "FrameBuffer Box: %d,%d - %d,%d\n",
7104f784Smrg		   AvailFBArea.x1, AvailFBArea.y1, AvailFBArea.x2,
7104f784Smrg		   AvailFBArea.y2);
09885543Smrg
7104f784Smrg	xf86InitFBManager(pScreen, &AvailFBArea);
09885543Smrg    }
09885543Smrg
7104f784Smrg    /* Initialize acceleration layer */
7104f784Smrg    if (!pSmi->NoAccel) {
7104f784Smrg	if (pSmi->useEXA && !SMI_EXAInit(pScreen))
7104f784Smrg	    LEAVE(FALSE);
7104f784Smrg	else if (!pSmi->useEXA && !SMI_XAAInit(pScreen))
7104f784Smrg	    LEAVE(FALSE);
09885543Smrg    }
09885543Smrg
7104f784Smrg    /* Initialize the chosen modes */
7104f784Smrg    if (!xf86SetDesiredModes(pScrn))
7104f784Smrg	    LEAVE(FALSE);
09885543Smrg
7104f784Smrg    xf86DrvMsgVerb(pScrn->scrnIndex, X_INFO, VERBLEV,
7104f784Smrg		   "Done writing mode.  Register dump:\n");
7104f784Smrg    SMI_PrintRegs(pScrn);
09885543Smrg
7104f784Smrg#ifdef HAVE_XMODES
7104f784Smrg    xf86DiDGAInit(pScreen, (unsigned long)(pSmi->FBBase + pScrn->fbOffset));
7104f784Smrg#endif
09885543Smrg
7104f784Smrg    /* Initialise cursor functions */
7104f784Smrg    miDCInitialize(pScreen, xf86GetPointerScreenFuncs());
09885543Smrg
7104f784Smrg    /* Initialize HW cursor layer.  Must follow software cursor
7104f784Smrg     * initialization.
7104f784Smrg     */
7104f784Smrg    if (pSmi->HwCursor) {
7104f784Smrg	int	size, flags;
7104f784Smrg
7104f784Smrg	if (IS_MSOC(pSmi)) {
7104f784Smrg	    size = SMI501_MAX_CURSOR;
7104f784Smrg	    flags = (HARDWARE_CURSOR_SOURCE_MASK_INTERLEAVE_1 |
7104f784Smrg		     HARDWARE_CURSOR_SWAP_SOURCE_AND_MASK);
7104f784Smrg#if SMI_CURSOR_ALPHA_PLANE
7104f784Smrg	    if (!pSmi->Dualhead)
7104f784Smrg		flags |= HARDWARE_CURSOR_ARGB;
7104f784Smrg#endif
7104f784Smrg	}
7104f784Smrg	else {
7104f784Smrg	    size = SMILYNX_MAX_CURSOR;
7104f784Smrg	    flags = (HARDWARE_CURSOR_SOURCE_MASK_INTERLEAVE_8 |
7104f784Smrg		     HARDWARE_CURSOR_SWAP_SOURCE_AND_MASK |
7104f784Smrg		     HARDWARE_CURSOR_AND_SOURCE_WITH_MASK |
7104f784Smrg		     HARDWARE_CURSOR_BIT_ORDER_MSBFIRST |
7104f784Smrg		     HARDWARE_CURSOR_TRUECOLOR_AT_8BPP |
7104f784Smrg		     HARDWARE_CURSOR_INVERT_MASK);
7104f784Smrg	}
09885543Smrg
7104f784Smrg	if (!xf86_cursors_init(pScreen, size, size, flags))
7104f784Smrg	    xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
7104f784Smrg		       "Hardware cursor initialization failed\n");
09885543Smrg    }
09885543Smrg
7104f784Smrg    /* Initialise default colormap */
7104f784Smrg    if (!miCreateDefColormap(pScreen))
7104f784Smrg	LEAVE(FALSE);
09885543Smrg
7104f784Smrg    /* Initialize colormap layer.  Must follow initialization of the default
7104f784Smrg     * colormap.  And SetGamma call, else it will load palette with solid white.
7104f784Smrg     */
7104f784Smrg    if (!xf86HandleColormaps(pScreen, 256, pScrn->rgbBits,SMI_LoadPalette, NULL,
7104f784Smrg			     CMAP_RELOAD_ON_MODE_SWITCH | CMAP_PALETTED_TRUECOLOR))
7104f784Smrg	LEAVE(FALSE);
09885543Smrg
7104f784Smrg    pScreen->SaveScreen = SMI_SaveScreen;
7104f784Smrg    pSmi->CloseScreen = pScreen->CloseScreen;
7104f784Smrg    pScreen->CloseScreen = SMI_CloseScreen;
09885543Smrg
7104f784Smrg    if ((IS_MSOC(pSmi) &&
7104f784Smrg	 !xf86DPMSInit(pScreen, SMI501_DisplayPowerManagementSet, 0)) ||
7104f784Smrg	(!IS_MSOC(pSmi) &&
7104f784Smrg	 !xf86DPMSInit(pScreen, SMILynx_DisplayPowerManagementSet, 0)))
7104f784Smrg	xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "DPMS initialization failed!\n");
09885543Smrg
7104f784Smrg    SMI_InitVideo(pScreen);
09885543Smrg
7104f784Smrg    if(!xf86CrtcScreenInit(pScreen))
7104f784Smrg	LEAVE(FALSE);
09885543Smrg
7104f784Smrg    /* Report any unused options (only for the first generation) */
7104f784Smrg    if (serverGeneration == 1) {
7104f784Smrg	xf86ShowUnusedOptions(pScrn->scrnIndex, pScrn->options);
7104f784Smrg    }
09885543Smrg
7104f784Smrg    LEAVE(TRUE);
09885543Smrg}
09885543Smrg
09885543Smrg/*
09885543Smrg * This is called at the end of each server generation.  It restores the
09885543Smrg * original (text) mode.  It should also unmap the video memory, and free any
09885543Smrg * per-generation data allocated by the driver.  It should finish by unwrapping
09885543Smrg * and calling the saved CloseScreen function.
09885543Smrg */
09885543Smrg
09885543Smrgstatic Bool
5788ca14SmrgSMI_CloseScreen(CLOSE_SCREEN_ARGS_DECL)
09885543Smrg{
5788ca14Smrg    ScrnInfoPtr	pScrn = xf86ScreenToScrn(pScreen);
7104f784Smrg    SMIPtr	pSmi = SMIPTR(pScrn);
7104f784Smrg    Bool	ret;
09885543Smrg
7104f784Smrg    ENTER();
09885543Smrg
7104f784Smrg    if (pSmi->HwCursor)
7104f784Smrg	xf86_cursors_fini(pScreen);
7104f784Smrg
7104f784Smrg    if (pScrn->vtSema)
7104f784Smrg	/* Restore console mode and unmap framebuffer */
5788ca14Smrg        SMI_LeaveVT(VT_FUNC_ARGS);
09885543Smrg
5788ca14Smrg#ifdef HAVE_XAA_H
09885543Smrg    if (pSmi->XAAInfoRec != NULL) {
09885543Smrg	XAADestroyInfoRec(pSmi->XAAInfoRec);
09885543Smrg    }
5788ca14Smrg#endif
09885543Smrg    if (pSmi->EXADriverPtr) {
09885543Smrg	exaDriverFini(pScreen);
09885543Smrg	pSmi->EXADriverPtr = NULL;
09885543Smrg    }
7104f784Smrg    if (pSmi->pVbe != NULL) {
7104f784Smrg	vbeFree(pSmi->pVbe);
7104f784Smrg	pSmi->pVbe = NULL;
09885543Smrg    }
09885543Smrg    if (pSmi->pInt10 != NULL) {
09885543Smrg	xf86FreeInt10(pSmi->pInt10);
09885543Smrg	pSmi->pInt10 = NULL;
09885543Smrg    }
09885543Smrg    if (pSmi->ptrAdaptor != NULL) {
7b58d2e0Smrg	free(pSmi->ptrAdaptor);
09885543Smrg    }
09885543Smrg    if (pSmi->BlockHandler != NULL) {
09885543Smrg	pScreen->BlockHandler = pSmi->BlockHandler;
09885543Smrg    }
09885543Smrg
09885543Smrg    pScrn->vtSema = FALSE;
09885543Smrg    pScreen->CloseScreen = pSmi->CloseScreen;
5788ca14Smrg    ret = (*pScreen->CloseScreen)(CLOSE_SCREEN_ARGS);
09885543Smrg
7104f784Smrg    LEAVE(ret);
09885543Smrg}
09885543Smrg
09885543Smrgstatic void
5788ca14SmrgSMI_FreeScreen(FREE_SCREEN_ARGS_DECL)
09885543Smrg{
5788ca14Smrg    SCRN_INFO_PTR(arg);
5788ca14Smrg    SMI_FreeRec(pScrn);
09885543Smrg}
09885543Smrg
09885543Smrgstatic Bool
09885543SmrgSMI_SaveScreen(ScreenPtr pScreen, int mode)
09885543Smrg{
5788ca14Smrg    ScrnInfoPtr pScrn = xf86ScreenToScrn(pScreen);
09885543Smrg
7104f784Smrg    ENTER();
09885543Smrg
7104f784Smrg    if(xf86IsUnblank(mode)){
7104f784Smrg	pScrn->DPMSSet(pScrn, DPMSModeOn, 0);
7104f784Smrg    }else{
7104f784Smrg	pScrn->DPMSSet(pScrn, DPMSModeOff, 0);
7104f784Smrg    }
09885543Smrg
7104f784Smrg    LEAVE(TRUE);
09885543Smrg}
09885543Smrg
09885543Smrgvoid
621ff18cSmrgSMI_AdjustFrame(ADJUST_FRAME_ARGS_DECL)
09885543Smrg{
621ff18cSmrg    SCRN_INFO_PTR(arg);
621ff18cSmrg    xf86CrtcConfigPtr crtcConf = XF86_CRTC_CONFIG_PTR(pScrn);
7104f784Smrg    xf86CrtcPtr compat_crtc = crtcConf->output[crtcConf->compat_output]->crtc;
09885543Smrg
7104f784Smrg    ENTER();
09885543Smrg
7104f784Smrg    SMICRTC(compat_crtc)->adjust_frame(compat_crtc,x,y);
09885543Smrg
7104f784Smrg    LEAVE();
09885543Smrg}
09885543Smrg
09885543SmrgBool
621ff18cSmrgSMI_SwitchMode(SWITCH_MODE_ARGS_DECL)
09885543Smrg{
09885543Smrg    Bool ret;
621ff18cSmrg    SCRN_INFO_PTR(arg);
7104f784Smrg    SMIPtr pSmi = SMIPTR(pScrn);
7104f784Smrg
7104f784Smrg    ENTER();
09885543Smrg
7104f784Smrg    ret = xf86SetSingleMode(pScrn, mode, RR_Rotate_0);
09885543Smrg
7104f784Smrg    if (!pSmi->NoAccel)
7104f784Smrg	SMI_EngineReset(pScrn);
09885543Smrg
7104f784Smrg    LEAVE(ret);
09885543Smrg}
09885543Smrg
09885543Smrgvoid
7104f784SmrgSMI_LoadPalette(ScrnInfoPtr pScrn, int numColors, int *indicies,
7104f784Smrg		LOCO *colors, VisualPtr pVisual)
09885543Smrg{
7104f784Smrg    xf86CrtcConfigPtr crtcConf = XF86_CRTC_CONFIG_PTR(pScrn);
7104f784Smrg    int crtc_idx,i,j;
7104f784Smrg
7104f784Smrg    ENTER();
7104f784Smrg
7104f784Smrg    if(pScrn->bitsPerPixel == 16){
7104f784Smrg	/* Expand the RGB 565 palette into the 256-elements LUT */
09885543Smrg
7104f784Smrg	for(crtc_idx=0; crtc_idx<crtcConf->num_crtc; crtc_idx++){
7104f784Smrg	    SMICrtcPrivatePtr crtcPriv = SMICRTC(crtcConf->crtc[crtc_idx]);
09885543Smrg
7104f784Smrg	    for(i=0; i<numColors; i++){
7104f784Smrg		int idx = indicies[i];
09885543Smrg
7104f784Smrg		if(idx<32){
7104f784Smrg		    for(j=0; j<8; j++){
7104f784Smrg			crtcPriv->lut_r[idx*8 + j] = colors[idx].red << 8;
7104f784Smrg			crtcPriv->lut_b[idx*8 + j] = colors[idx].blue << 8;
7104f784Smrg		    }
7104f784Smrg		}
7104f784Smrg
7104f784Smrg		for(j=0; j<4; j++)
7104f784Smrg		    crtcPriv->lut_g[idx*4 + j] = colors[idx].green << 8;
7104f784Smrg	    }
7104f784Smrg
7104f784Smrg	    crtcPriv->load_lut(crtcConf->crtc[crtc_idx]);
09885543Smrg    }
7104f784Smrg    }else{
7104f784Smrg	for(crtc_idx=0; crtc_idx<crtcConf->num_crtc; crtc_idx++){
7104f784Smrg	    SMICrtcPrivatePtr crtcPriv = SMICRTC(crtcConf->crtc[crtc_idx]);
09885543Smrg
09885543Smrg    for(i = 0; i < numColors; i++) {
7104f784Smrg		int idx = indicies[i];
7104f784Smrg
7104f784Smrg		crtcPriv->lut_r[idx] = colors[idx].red << 8;
7104f784Smrg		crtcPriv->lut_g[idx] = colors[idx].green << 8;
7104f784Smrg		crtcPriv->lut_b[idx] = colors[idx].blue << 8;
7104f784Smrg	    }
7104f784Smrg
7104f784Smrg	    crtcPriv->load_lut(crtcConf->crtc[crtc_idx]);
7104f784Smrg	}
09885543Smrg    }
09885543Smrg
7104f784Smrg    LEAVE();
09885543Smrg}
09885543Smrg
09885543Smrgstatic void
09885543SmrgSMI_DisableVideo(ScrnInfoPtr pScrn)
09885543Smrg{
09885543Smrg    SMIPtr pSmi = SMIPTR(pScrn);
09885543Smrg    CARD8 tmp;
09885543Smrg
7104f784Smrg    if (!IS_MSOC(pSmi)) {
7104f784Smrg	if (!(tmp = VGAIN8(pSmi, VGA_DAC_MASK)))
7104f784Smrg	    return;
7104f784Smrg	pSmi->DACmask = tmp;
7104f784Smrg	VGAOUT8(pSmi, VGA_DAC_MASK, 0);
7104f784Smrg    }
09885543Smrg}
09885543Smrg
09885543Smrgstatic void
09885543SmrgSMI_EnableVideo(ScrnInfoPtr pScrn)
09885543Smrg{
09885543Smrg    SMIPtr pSmi = SMIPTR(pScrn);
09885543Smrg
7104f784Smrg    if (!IS_MSOC(pSmi)) {
7104f784Smrg	VGAOUT8(pSmi, VGA_DAC_MASK, pSmi->DACmask);
7104f784Smrg    }
09885543Smrg}
09885543Smrg
09885543Smrg
09885543Smrgvoid
09885543SmrgSMI_EnableMmio(ScrnInfoPtr pScrn)
09885543Smrg{
09885543Smrg    SMIPtr pSmi = SMIPTR(pScrn);
09885543Smrg
7104f784Smrg    ENTER();
09885543Smrg
7104f784Smrg    if (!IS_MSOC(pSmi)) {
7104f784Smrg	vgaHWPtr hwp = VGAHWPTR(pScrn);
7104f784Smrg	CARD8 tmp;
7104f784Smrg
7104f784Smrg	/*
7104f784Smrg	 * Enable chipset (seen on uninitialized secondary cards) might not be
7104f784Smrg	 * needed once we use the VGA softbooter
7104f784Smrg	 */
7104f784Smrg	vgaHWSetStdFuncs(hwp);
09885543Smrg
7104f784Smrg	/* Enable linear mode */
7104f784Smrg	outb(pSmi->PIOBase + VGA_SEQ_INDEX, 0x18);
7104f784Smrg	tmp = inb(pSmi->PIOBase + VGA_SEQ_DATA);
7104f784Smrg	pSmi->SR18Value = tmp;					/* PDR#521 */
7104f784Smrg	outb(pSmi->PIOBase + VGA_SEQ_DATA, tmp | 0x11);
09885543Smrg
7104f784Smrg	/* Enable 2D/3D Engine and Video Processor */
7104f784Smrg	outb(pSmi->PIOBase + VGA_SEQ_INDEX, 0x21);
7104f784Smrg	tmp = inb(pSmi->PIOBase + VGA_SEQ_DATA);
7104f784Smrg	pSmi->SR21Value = tmp;					/* PDR#521 */
7104f784Smrg	outb(pSmi->PIOBase + VGA_SEQ_DATA, tmp & ~0x03);
7104f784Smrg    }
09885543Smrg
7104f784Smrg    LEAVE();
09885543Smrg}
09885543Smrg
09885543Smrgvoid
09885543SmrgSMI_DisableMmio(ScrnInfoPtr pScrn)
09885543Smrg{
09885543Smrg    SMIPtr pSmi = SMIPTR(pScrn);
09885543Smrg
7104f784Smrg    ENTER();
09885543Smrg
7104f784Smrg    if (!IS_MSOC(pSmi)) {
7104f784Smrg	vgaHWPtr hwp = VGAHWPTR(pScrn);
09885543Smrg
7104f784Smrg	vgaHWSetStdFuncs(hwp);
09885543Smrg
7104f784Smrg	/* Disable 2D/3D Engine and Video Processor */
7104f784Smrg	outb(pSmi->PIOBase + VGA_SEQ_INDEX, 0x21);
7104f784Smrg	outb(pSmi->PIOBase + VGA_SEQ_DATA, pSmi->SR21Value);	/* PDR#521 */
7104f784Smrg
7104f784Smrg	/* Disable linear mode */
7104f784Smrg	outb(pSmi->PIOBase + VGA_SEQ_INDEX, 0x18);
7104f784Smrg	outb(pSmi->PIOBase + VGA_SEQ_DATA, pSmi->SR18Value);	/* PDR#521 */
7104f784Smrg    }
09885543Smrg
7104f784Smrg    LEAVE();
09885543Smrg}
09885543Smrg
09885543Smrgstatic void
7104f784SmrgSMI_ProbeDDC(ScrnInfoPtr pScrn, int index)
7104f784Smrg{
7104f784Smrg    vbeInfoPtr pVbe;
7104f784Smrg    if (xf86LoadSubModule(pScrn, "vbe")) {
7104f784Smrg	pVbe = VBEInit(NULL, index);
7104f784Smrg	ConfiguredMonitor = vbeDoEDID(pVbe, NULL);
7104f784Smrg	vbeFree(pVbe);
7104f784Smrg    }
7104f784Smrg}
7104f784Smrg
7104f784Smrgstatic Bool
7104f784SmrgSMI_HWInit(ScrnInfoPtr pScrn)
09885543Smrg{
09885543Smrg    SMIPtr pSmi = SMIPTR(pScrn);
09885543Smrg
7104f784Smrg    ENTER();
09885543Smrg
7104f784Smrg    if(IS_MSOC(pSmi))
7104f784Smrg	LEAVE(SMI501_HWInit(pScrn));
7104f784Smrg    else
7104f784Smrg	LEAVE(SMILynx_HWInit(pScrn));
7104f784Smrg}
09885543Smrg
7104f784Smrgvoid
7104f784SmrgSMI_PrintRegs(ScrnInfoPtr pScrn)
7104f784Smrg{
7104f784Smrg    SMIPtr pSmi = SMIPTR(pScrn);
7104f784Smrg    int i;
09885543Smrg
7104f784Smrg    ENTER();
09885543Smrg
7104f784Smrg    xf86DrvMsgVerb(pScrn->scrnIndex, X_INFO, VERBLEV,
7104f784Smrg		"START register dump ------------------\n");
7104f784Smrg
7104f784Smrg    if(IS_MSOC(pSmi))
7104f784Smrg	SMI501_PrintRegs(pScrn);
7104f784Smrg    else
7104f784Smrg	SMILynx_PrintRegs(pScrn);
09885543Smrg
09885543Smrg
09885543Smrg    xf86ErrorFVerb(VERBLEV, "\n\nDPR    x0       x4       x8       xC");
09885543Smrg    for (i = 0x00; i <= 0x44; i += 4) {
09885543Smrg	if ((i & 0xF) == 0x0) xf86ErrorFVerb(VERBLEV, "\n%02X|", i);
09885543Smrg	xf86ErrorFVerb(VERBLEV, " %08lX", (unsigned long)READ_DPR(pSmi, i));
09885543Smrg    }
09885543Smrg
09885543Smrg    xf86ErrorFVerb(VERBLEV, "\n\nVPR    x0       x4       x8       xC");
09885543Smrg    for (i = 0x00; i <= 0x60; i += 4) {
09885543Smrg	if ((i & 0xF) == 0x0) xf86ErrorFVerb(VERBLEV, "\n%02X|", i);
09885543Smrg	xf86ErrorFVerb(VERBLEV, " %08lX", (unsigned long)READ_VPR(pSmi, i));
09885543Smrg    }
09885543Smrg
09885543Smrg    xf86ErrorFVerb(VERBLEV, "\n\nCPR    x0       x4       x8       xC");
09885543Smrg    for (i = 0x00; i <= 0x18; i += 4) {
09885543Smrg	if ((i & 0xF) == 0x0) xf86ErrorFVerb(VERBLEV, "\n%02X|", i);
09885543Smrg	xf86ErrorFVerb(VERBLEV, " %08lX", (unsigned long)READ_CPR(pSmi, i));
09885543Smrg    }
09885543Smrg
09885543Smrg    xf86ErrorFVerb(VERBLEV, "\n\n");
09885543Smrg    xf86DrvMsgVerb(pScrn->scrnIndex, X_INFO, VERBLEV,
09885543Smrg		"END register dump --------------------\n");
09885543Smrg
7104f784Smrg    LEAVE();
09885543Smrg}