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/* $XFree86: xc/programs/Xserver/hw/xfree86/drivers/mga/mga_dri.c,v 1.9 2000/10/24 22:45:07 dawes Exp $ */
#include "xf86.h"
#include "xf86_OSproc.h"
#include "xf86_ansic.h"
#include "xf86Priv.h"
#include "xf86PciInfo.h"
#include "xf86Pci.h"
#define PSZ 8
#include "cfb.h"
#undef PSZ
#include "cfb16.h"
#include "cfb32.h"
#include "miline.h"
#include "GL/glxtokens.h"
#include "mga_bios.h"
#include "mga_reg.h"
#include "mga.h"
#include "mga_macros.h"
#include "mga_dri.h"
#include "mga_wrap.h"
static char MGAKernelDriverName[] = "mga";
static char MGAClientDriverName[] = "mga";
static Bool MGAInitVisualConfigs(ScreenPtr pScreen);
static Bool MGACreateContext(ScreenPtr pScreen, VisualPtr visual,
drmContext hwContext, void *pVisualConfigPriv,
DRIContextType contextStore);
static void MGADestroyContext(ScreenPtr pScreen, drmContext hwContext,
DRIContextType contextStore);
static void MGADRISwapContext(ScreenPtr pScreen, DRISyncType syncType,
DRIContextType readContextType,
void *readContextStore,
DRIContextType writeContextType,
void *writeContextStore);
static void MGADRISwapContext_shared(ScreenPtr pScreen, DRISyncType syncType,
DRIContextType readContextType,
void *readContextStore,
DRIContextType writeContextType,
void *writeContextStore);
extern void Mga8DRIInitBuffers(WindowPtr pWin, RegionPtr prgn, CARD32 index);
extern void Mga8DRIMoveBuffers(WindowPtr pParent, DDXPointRec ptOldOrg,
RegionPtr prgnSrc, CARD32 index);
extern void Mga16DRIInitBuffers(WindowPtr pWin, RegionPtr prgn, CARD32 index);
extern void Mga16DRIMoveBuffers(WindowPtr pParent, DDXPointRec ptOldOrg,
RegionPtr prgnSrc, CARD32 index);
extern void Mga24DRIInitBuffers(WindowPtr pWin, RegionPtr prgn, CARD32 index);
extern void Mga24DRIMoveBuffers(WindowPtr pParent, DDXPointRec ptOldOrg,
RegionPtr prgnSrc, CARD32 index);
extern void Mga32DRIInitBuffers(WindowPtr pWin, RegionPtr prgn, CARD32 index);
extern void Mga32DRIMoveBuffers(WindowPtr pParent, DDXPointRec ptOldOrg,
RegionPtr prgnSrc, CARD32 index);
Bool MgaCleanupDma(ScrnInfoPtr pScrn)
{
MGAPtr pMGA = MGAPTR(pScrn);
Bool ret_val;
ret_val = drmMgaCleanupDma(pMGA->drmSubFD);
if (ret_val == FALSE)
xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "Mga Dma Cleanup Failed\n");
return ret_val;
}
Bool MgaLockUpdate(ScrnInfoPtr pScrn, drmLockFlags flags)
{
MGAPtr pMGA = MGAPTR(pScrn);
Bool ret_val;
ret_val = drmMgaLockUpdate(pMGA->drmSubFD, flags);
if (ret_val == FALSE)
xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "LockUpdate failed\n");
return ret_val;
}
Bool MgaInitDma(ScrnInfoPtr pScrn, int prim_size)
{
MGAPtr pMGA = MGAPTR(pScrn);
MGADRIPtr pMGADRI = (MGADRIPtr)pMGA->pDRIInfo->devPrivate;
MGADRIServerPrivatePtr pMGADRIServer = pMGA->DRIServerInfo;
drmMgaInit init;
Bool ret_val;
memset(&init, 0, sizeof(drmMgaInit));
init.reserved_map_agpstart = 0;
init.reserved_map_idx = 3;
init.buffer_map_idx = 4;
init.sarea_priv_offset = sizeof(XF86DRISAREARec);
init.primary_size = prim_size;
init.warp_ucode_size = pMGADRIServer->warp_ucode_size;
switch(pMGA->Chipset) {
case PCI_CHIP_MGAG400:
init.chipset = MGA_CARD_TYPE_G400;
break;
case PCI_CHIP_MGAG200:
init.chipset = MGA_CARD_TYPE_G200;
break;
case PCI_CHIP_MGAG200_PCI:
default:
xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
"[drm] Direct rendering not supported on this card/chipset\n");
return FALSE;
}
init.frontOffset = pMGADRI->frontOffset;
init.backOffset = pMGADRI->backOffset;
init.depthOffset = pMGADRI->depthOffset;
init.textureOffset = pMGADRI->textureOffset;
init.textureSize = pMGADRI->textureSize;
init.agpTextureSize = pMGADRI->agpTextureSize;
init.cpp = pMGADRI->cpp;
init.stride = pMGADRI->frontPitch;
init.mAccess = pMGA->MAccess;
init.sgram = !pMGA->HasSDRAM;
memcpy(&init.WarpIndex, &pMGADRIServer->WarpIndex,
sizeof(drmMgaWarpIndex) * MGA_MAX_WARP_PIPES);
xf86DrvMsg(pScrn->scrnIndex, X_INFO, "[drm] Mga Dma Initialization start\n");
ret_val = drmMgaInitDma(pMGA->drmSubFD, &init);
if (ret_val == FALSE)
xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "[drm] Mga Dma Initialization Failed\n");
else
xf86DrvMsg(pScrn->scrnIndex, X_INFO, "[drm] Mga Dma Initialization done\n");
return ret_val;
}
static Bool
MGAInitVisualConfigs(ScreenPtr pScreen)
{
ScrnInfoPtr pScrn = xf86Screens[pScreen->myNum];
MGAPtr pMGA = MGAPTR(pScrn);
int numConfigs = 0;
__GLXvisualConfig *pConfigs = 0;
MGAConfigPrivPtr pMGAConfigs = 0;
MGAConfigPrivPtr *pMGAConfigPtrs = 0;
int i, db, depth, stencil, accum;
switch (pScrn->bitsPerPixel) {
case 8:
case 24:
break;
case 16:
numConfigs = 8;
if (!(pConfigs = (__GLXvisualConfig*)xnfcalloc(sizeof(__GLXvisualConfig),
numConfigs))) {
return FALSE;
}
if (!(pMGAConfigs = (MGAConfigPrivPtr)xnfcalloc(sizeof(MGAConfigPrivRec),
numConfigs))) {
xfree(pConfigs);
return FALSE;
}
if (!(pMGAConfigPtrs = (MGAConfigPrivPtr*)xnfcalloc(sizeof(MGAConfigPrivPtr),
numConfigs))) {
xfree(pConfigs);
xfree(pMGAConfigs);
return FALSE;
}
for (i=0; i<numConfigs; i++)
pMGAConfigPtrs[i] = &pMGAConfigs[i];
i = 0;
depth = 1;
for (accum = 0; accum <= 1; accum++) {
for (stencil = 0; stencil <= 1; stencil++) { /* no stencil for now */
for (db=1; db>=0; db--) {
pConfigs[i].vid = -1;
pConfigs[i].class = -1;
pConfigs[i].rgba = TRUE;
pConfigs[i].redSize = 5;
pConfigs[i].greenSize = 6;
pConfigs[i].blueSize = 5;
pConfigs[i].redMask = 0x0000F800;
pConfigs[i].greenMask = 0x000007E0;
pConfigs[i].blueMask = 0x0000001F;
pConfigs[i].alphaMask = 0;
if (accum) {
pConfigs[i].accumRedSize = 16;
pConfigs[i].accumGreenSize = 16;
pConfigs[i].accumBlueSize = 16;
pConfigs[i].accumAlphaSize = 0;
} else {
pConfigs[i].accumRedSize = 0;
pConfigs[i].accumGreenSize = 0;
pConfigs[i].accumBlueSize = 0;
pConfigs[i].accumAlphaSize = 0;
}
if (db)
pConfigs[i].doubleBuffer = TRUE;
else
pConfigs[i].doubleBuffer = FALSE;
pConfigs[i].stereo = FALSE;
pConfigs[i].bufferSize = 16;
if (depth)
pConfigs[i].depthSize = 16;
else
pConfigs[i].depthSize = 0;
if (stencil)
pConfigs[i].stencilSize = 8;
else
pConfigs[i].stencilSize = 0;
pConfigs[i].auxBuffers = 0;
pConfigs[i].level = 0;
if (stencil || accum)
pConfigs[i].visualRating = GLX_SLOW_VISUAL_EXT;
else
pConfigs[i].visualRating = GLX_NONE_EXT;
pConfigs[i].transparentPixel = 0;
pConfigs[i].transparentRed = 0;
pConfigs[i].transparentGreen = 0;
pConfigs[i].transparentBlue = 0;
pConfigs[i].transparentAlpha = 0;
pConfigs[i].transparentIndex = 0;
i++;
}
}
}
if (i != numConfigs) {
xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
"[drm] Incorrect initialization of visuals\n");
return FALSE;
}
break;
case 32:
numConfigs = 8;
if (!(pConfigs = (__GLXvisualConfig*)xnfcalloc(sizeof(__GLXvisualConfig),
numConfigs))) {
return FALSE;
}
if (!(pMGAConfigs = (MGAConfigPrivPtr)xnfcalloc(sizeof(MGAConfigPrivRec),
numConfigs))) {
xfree(pConfigs);
return FALSE;
}
if (!(pMGAConfigPtrs = (MGAConfigPrivPtr*)xnfcalloc(sizeof(MGAConfigPrivPtr),
numConfigs))) {
xfree(pConfigs);
xfree(pMGAConfigs);
return FALSE;
}
for (i=0; i<numConfigs; i++)
pMGAConfigPtrs[i] = &pMGAConfigs[i];
i = 0;
depth = 1;
for (accum = 0; accum <= 1; accum++) {
for (stencil = 0; stencil <= 1; stencil++) {
for (db=1; db>=0; db--) {
pConfigs[i].vid = -1;
pConfigs[i].class = -1;
pConfigs[i].rgba = TRUE;
pConfigs[i].redSize = 5;
pConfigs[i].greenSize = 6;
pConfigs[i].blueSize = 5;
pConfigs[i].redMask = 0x00FF0000;
pConfigs[i].greenMask = 0x0000FF00;
pConfigs[i].blueMask = 0x000000FF;
pConfigs[i].alphaMask = 0;
if (accum) {
pConfigs[i].accumRedSize = 16;
pConfigs[i].accumGreenSize = 16;
pConfigs[i].accumBlueSize = 16;
pConfigs[i].accumAlphaSize = 0;
} else {
pConfigs[i].accumRedSize = 0;
pConfigs[i].accumGreenSize = 0;
pConfigs[i].accumBlueSize = 0;
pConfigs[i].accumAlphaSize = 0;
}
if (db)
pConfigs[i].doubleBuffer = TRUE;
else
pConfigs[i].doubleBuffer = FALSE;
pConfigs[i].stereo = FALSE;
pConfigs[i].bufferSize = 32;
if (depth)
if (stencil)
pConfigs[i].depthSize = 24;
else
pConfigs[i].depthSize = 32;
else
pConfigs[i].depthSize = 0;
if (stencil)
pConfigs[i].stencilSize = 8;
else
pConfigs[i].stencilSize = 0;
pConfigs[i].auxBuffers = 0;
pConfigs[i].level = 0;
if (accum)
pConfigs[i].visualRating = GLX_SLOW_VISUAL_EXT;
else
pConfigs[i].visualRating = GLX_NONE_EXT;
pConfigs[i].transparentPixel = 0;
pConfigs[i].transparentRed = 0;
pConfigs[i].transparentGreen = 0;
pConfigs[i].transparentBlue = 0;
pConfigs[i].transparentAlpha = 0;
pConfigs[i].transparentIndex = 0;
i++;
}
}
}
if (i != numConfigs) {
xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
"[drm] Incorrect initialization of visuals\n");
return FALSE;
}
break;
default:
; /* unexpected bits/pixelx */
}
pMGA->numVisualConfigs = numConfigs;
pMGA->pVisualConfigs = pConfigs;
pMGA->pVisualConfigsPriv = pMGAConfigs;
GlxSetVisualConfigs(numConfigs, pConfigs, (void**)pMGAConfigPtrs);
return TRUE;
}
static unsigned int mylog2(unsigned int n)
{
unsigned int log2 = 1;
while (n>1) n >>= 1, log2++;
return log2;
}
static unsigned long MGAParseAgpMode(ScreenPtr pScreen)
{
ScrnInfoPtr pScrn = xf86Screens[pScreen->myNum];
MGAPtr pMga = MGAPTR(pScrn);
unsigned long mode_mask;
switch(pMga->agp_mode) {
case 4:
mode_mask = ~0x00000003;
break;
case 2:
if (pMga->Chipset == PCI_CHIP_MGAG200) {
xf86DrvMsg(pScreen->myNum, X_INFO,
"[drm] Enabling AGP 2x pll encoding\n");
OUTREG(MGAREG_AGP_PLL, AGP_PLL_agp2xpllen_enable);
}
mode_mask = ~0x00000005;
break;
default:
/* Default to 1X agp mode */
case 1:
if (pMga->Chipset == PCI_CHIP_MGAG200) {
xf86DrvMsg(pScreen->myNum, X_INFO,
"[drm] Disabling AGP 2x pll encoding\n");
OUTREG(MGAREG_AGP_PLL, AGP_PLL_agp2xpllen_disable);
}
pMga->agp_mode = 1;
mode_mask = ~0x00000006;
break;
}
return mode_mask;
}
Bool MGADRIScreenInit(ScreenPtr pScreen)
{
ScrnInfoPtr pScrn = xf86Screens[pScreen->myNum];
MGAPtr pMGA = MGAPTR(pScrn);
DRIInfoPtr pDRIInfo;
MGADRIPtr pMGADRI;
MGADRIServerPrivatePtr pMGADRIServer;
int bufs, size;
int prim_size;
int init_offset;
int i;
unsigned long mode_mask;
/* Check that the GLX, DRI, and DRM modules have been loaded by testing
* for canonical symbols in each module. */
if (!xf86LoaderCheckSymbol("GlxSetVisualConfigs")) return FALSE;
if (!xf86LoaderCheckSymbol("DRIScreenInit")) return FALSE;
if (!xf86LoaderCheckSymbol("drmAvailable")) return FALSE;
if (!xf86LoaderCheckSymbol("DRIQueryVersion")) {
xf86DrvMsg(pScreen->myNum, X_ERROR,
"MGADRIScreenInit failed (libdri.a too old)\n");
return FALSE;
}
/* Check the DRI version */
{
int major, minor, patch;
DRIQueryVersion(&major, &minor, &patch);
if (major != 3 || minor != 0 || patch < 0) {
xf86DrvMsg(pScreen->myNum, X_ERROR,
"[drm] MGADRIScreenInit failed (DRI version = %d.%d.%d, expected 3.0.x). Disabling DRI.\n",
major, minor, patch);
return FALSE;
}
}
xf86DrvMsg(pScreen->myNum, X_INFO,
"[drm] bpp: %d depth: %d\n", pScrn->bitsPerPixel,
pScrn->depth);
if ((pScrn->bitsPerPixel / 8) != 2 &&
(pScrn->bitsPerPixel / 8) != 4) {
xf86DrvMsg(pScreen->myNum, X_INFO,
"[drm] Direct Rendering only supported in 16 and 32 bpp modes\n");
return FALSE;
}
pDRIInfo = DRICreateInfoRec();
if (!pDRIInfo)
return FALSE;
pMGA->pDRIInfo = pDRIInfo;
pDRIInfo->drmDriverName = MGAKernelDriverName;
pDRIInfo->clientDriverName = MGAClientDriverName;
pDRIInfo->busIdString = xalloc(64);
sprintf(pDRIInfo->busIdString, "PCI:%d:%d:%d",
((pciConfigPtr)pMGA->PciInfo->thisCard)->busnum,
((pciConfigPtr)pMGA->PciInfo->thisCard)->devnum,
((pciConfigPtr)pMGA->PciInfo->thisCard)->funcnum);
pDRIInfo->ddxDriverMajorVersion = MGA_MAJOR_VERSION;
pDRIInfo->ddxDriverMinorVersion = MGA_MINOR_VERSION;
pDRIInfo->ddxDriverPatchVersion = MGA_PATCHLEVEL;
pDRIInfo->frameBufferPhysicalAddress = pMGA->FbAddress;
pDRIInfo->frameBufferSize = pMGA->FbMapSize;
pDRIInfo->frameBufferStride = pScrn->displayWidth*(pScrn->bitsPerPixel/8);
pDRIInfo->ddxDrawableTableEntry = MGA_MAX_DRAWABLES;
MGADRIWrapFunctions( pScreen, pDRIInfo );
if (SAREA_MAX_DRAWABLES < MGA_MAX_DRAWABLES)
pDRIInfo->maxDrawableTableEntry = SAREA_MAX_DRAWABLES;
else
pDRIInfo->maxDrawableTableEntry = MGA_MAX_DRAWABLES;
/* For now the mapping works by using a fixed size defined
* in the SAREA header
*/
if (sizeof(XF86DRISAREARec)+sizeof(MGASAREARec)>SAREA_MAX) {
xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "[drm] Data does not fit in SAREA\n");
return FALSE;
}
xf86DrvMsg(pScrn->scrnIndex, X_INFO, "[drm] Sarea %d+%d: %d\n",
sizeof(XF86DRISAREARec), sizeof(MGASAREARec),
sizeof(XF86DRISAREARec) + sizeof(MGASAREARec));
pDRIInfo->SAREASize = SAREA_MAX;
if (!(pMGADRI = (MGADRIPtr)xnfcalloc(sizeof(MGADRIRec),1))) {
DRIDestroyInfoRec(pMGA->pDRIInfo);
pMGA->pDRIInfo=0;
xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
"[drm] Failed to allocate memory for private record\n");
return FALSE;
}
if (!(pMGADRIServer = (MGADRIServerPrivatePtr)
xnfcalloc(sizeof(MGADRIServerPrivateRec),1))) {
xfree(pMGADRI);
DRIDestroyInfoRec(pMGA->pDRIInfo);
pMGA->pDRIInfo=0;
xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
"[drm] Failed to allocate memory for private record\n");
return FALSE;
}
pDRIInfo->devPrivate = pMGADRI;
pMGA->DRIServerInfo = pMGADRIServer;
pDRIInfo->devPrivateSize = sizeof(MGADRIRec);
pDRIInfo->contextSize = sizeof(MGADRIContextRec);
pDRIInfo->CreateContext = MGACreateContext;
pDRIInfo->DestroyContext = MGADestroyContext;
if (xf86IsEntityShared(pScrn->entityList[0]))
pDRIInfo->SwapContext = MGADRISwapContext_shared;
else
pDRIInfo->SwapContext = MGADRISwapContext;
switch( pScrn->bitsPerPixel ) {
case 8:
pDRIInfo->InitBuffers = Mga8DRIInitBuffers;
pDRIInfo->MoveBuffers = Mga8DRIMoveBuffers;
case 16:
pDRIInfo->InitBuffers = Mga16DRIInitBuffers;
pDRIInfo->MoveBuffers = Mga16DRIMoveBuffers;
case 24:
pDRIInfo->InitBuffers = Mga24DRIInitBuffers;
pDRIInfo->MoveBuffers = Mga24DRIMoveBuffers;
case 32:
pDRIInfo->InitBuffers = Mga32DRIInitBuffers;
pDRIInfo->MoveBuffers = Mga32DRIMoveBuffers;
}
pDRIInfo->bufferRequests = DRI_ALL_WINDOWS;
if (!DRIScreenInit(pScreen, pDRIInfo, &pMGA->drmSubFD)) {
xfree(pMGADRIServer);
pMGA->DRIServerInfo = 0;
xfree(pDRIInfo->devPrivate);
pDRIInfo->devPrivate = 0;
DRIDestroyInfoRec(pMGA->pDRIInfo);
pMGA->pDRIInfo = 0;
xf86DrvMsg(pScreen->myNum, X_ERROR, "[drm] DRIScreenInit Failed\n");
return FALSE;
}
/* Check the MGA DRM version */
{
drmVersionPtr version = drmGetVersion(pMGA->drmSubFD);
if (version) {
if (version->version_major != 2 ||
version->version_minor != 0 ||
version->version_patchlevel < 0) {
/* incompatible drm version */
xf86DrvMsg(pScreen->myNum, X_ERROR,
"[drm] MGADRIScreenInit failed (DRM version = %d.%d.%d, expected 2.0.x). Disabling DRI.\n",
version->version_major,
version->version_minor,
version->version_patchlevel);
/* MGADRICloseScreen(pScreen); */
drmFreeVersion(version);
return FALSE;
}
drmFreeVersion(version);
}
}
pMGADRIServer->regsSize = MGAIOMAPSIZE;
if (drmAddMap(pMGA->drmSubFD, (drmHandle)pMGA->IOAddress,
pMGADRIServer->regsSize, DRM_REGISTERS, 0,
&pMGADRIServer->regs)<0) {
DRICloseScreen(pScreen);
xf86DrvMsg(pScreen->myNum, X_ERROR,
"[drm] drmAddMap failed Register MMIO region\n");
return FALSE;
}
xf86DrvMsg(pScreen->myNum, X_INFO, "[drm] Registers = 0x%08lx\n",
pMGADRIServer->regs);
/* Agp Support */
pMGADRIServer->agpAcquired = FALSE;
pMGADRIServer->agpHandle = 0;
pMGADRIServer->agpSizep = 0;
pMGADRIServer->agp_map = 0;
if (drmAgpAcquire(pMGA->drmSubFD) < 0) {
DRICloseScreen(pScreen);
xf86DrvMsg(pScreen->myNum, X_ERROR, "[drm] drmAgpAcquire failed\n");
return FALSE;
}
pMGADRIServer->agpAcquired = TRUE;
pMGADRIServer->warp_ucode_size = mgaGetMicrocodeSize(pScreen);
if (pMGADRIServer->warp_ucode_size == 0) {
xf86DrvMsg(pScreen->myNum, X_ERROR, "[drm] microcodeSize is zero\n");
DRICloseScreen(pScreen);
return FALSE;
}
mode_mask = MGAParseAgpMode(pScreen);
pMGADRIServer->agpMode = drmAgpGetMode(pMGA->drmSubFD);
pMGADRIServer->agpMode &= mode_mask;
if (drmAgpEnable(pMGA->drmSubFD, pMGADRIServer->agpMode) < 0) {
xf86DrvMsg(pScreen->myNum, X_ERROR, "[drm] drmAgpEnable failed\n");
DRICloseScreen(pScreen);
return FALSE;
}
ErrorF("[drm] drmAgpEnabled succeeded for AGP mode %dx\n", pMGA->agp_mode);
prim_size = 65536;
init_offset = ((prim_size + pMGADRIServer->warp_ucode_size +
4096 - 1) / 4096) * 4096;
pMGADRIServer->agpSizep = init_offset;
pMGADRI->agpSize = (drmAgpSize(pMGA->drmSubFD)) - init_offset;
pMGADRIServer->agpBase = (drmAddress) drmAgpBase(pMGA->drmSubFD);
if (drmAddMap(pMGA->drmSubFD, 0,
init_offset, DRM_AGP, 0,
&pMGADRIServer->agp_private) < 0) {
DRICloseScreen(pScreen);
xf86DrvMsg(pScreen->myNum, X_ERROR,
"[drm] drmAddMap failed on AGP aperture\n");
return FALSE;
}
if (drmMap(pMGA->drmSubFD, (drmHandle)pMGADRIServer->agp_private,
init_offset,
(drmAddressPtr)&pMGADRIServer->agp_map) < -1) {
DRICloseScreen(pScreen);
xf86DrvMsg(pScreen->myNum, X_ERROR,
"[drm] drmMap failed on AGP aperture\n");
return FALSE;
}
/* Now allocate and bind a default of 8 megs */
drmAgpAlloc(pMGA->drmSubFD, 0x00800000, 0, 0,
&pMGADRIServer->agpHandle);
if (pMGADRIServer->agpHandle == 0) {
xf86DrvMsg(pScreen->myNum, X_ERROR,
"[drm] drmAgpAlloc failed\n");
DRICloseScreen(pScreen);
return FALSE;
}
if (drmAgpBind(pMGA->drmSubFD, pMGADRIServer->agpHandle, 0) < 0) {
DRICloseScreen(pScreen);
xf86DrvMsg(pScreen->myNum, X_ERROR,
"[drm] drmAgpBind failed\n");
return FALSE;
}
mgaInstallMicrocode(pScreen, prim_size);
if (drmAddMap(pMGA->drmSubFD, (drmHandle)init_offset,
pMGADRI->agpSize, DRM_AGP, 0,
&pMGADRI->agp) < 0) {
xf86DrvMsg(pScreen->myNum, X_ERROR,
"[drm] Failed to map public agp area\n");
DRICloseScreen(pScreen);
return FALSE;
}
switch(pMGA->Chipset) {
case PCI_CHIP_MGAG400:
pMGADRI->chipset = MGA_CARD_TYPE_G400;
break;
case PCI_CHIP_MGAG200:
pMGADRI->chipset = MGA_CARD_TYPE_G200;
break;
case PCI_CHIP_MGAG200_PCI:
default:
xf86DrvMsg(pScreen->myNum, X_ERROR,
"[drm] Direct rendering not supported on this card/chipset\n");
return FALSE;
}
pMGADRI->width = pScrn->virtualX;
pMGADRI->height = pScrn->virtualY;
pMGADRI->mem = pScrn->videoRam * 1024;
pMGADRI->cpp = pScrn->bitsPerPixel / 8;
pMGADRI->frontPitch = pScrn->displayWidth * (pScrn->bitsPerPixel / 8);
pMGADRI->frontOffset = 0; /* pMGA->YDstOrg * (pScrn->bitsPerPixel / 8) */
pMGADRI->backOffset = ((pScrn->virtualY + pMGA->numXAALines + 1) *
pScrn->displayWidth *
pMGADRI->cpp + 4095) & ~0xFFF;
xf86DrvMsg(pScreen->myNum, X_INFO, "[drm] calced backoffset: 0x%x\n",
pMGADRI->backOffset);
size = pMGADRI->cpp * pScrn->virtualX * pScrn->virtualY;
size += 4095;
size &= ~4095;
pMGADRI->depthOffset = pMGA->FbUsableSize - size;
pMGADRI->depthOffset &= ~4095;
pMGADRI->textureOffset = pMGADRI->backOffset + size;
pMGADRI->textureSize = pMGADRI->depthOffset - pMGADRI->textureOffset;
if (pMGADRI->depthOffset < pMGADRI->textureOffset + 512*1024) {
xf86DrvMsg(pScreen->myNum, X_ERROR,
"[drm] Insufficient memory for direct rendering\n");
DRICloseScreen(pScreen);
return FALSE;
}
pMGADRI->mAccess = pMGA->MAccess;
i = mylog2(pMGADRI->textureSize / MGA_NR_TEX_REGIONS);
if (i < MGA_LOG_MIN_TEX_REGION_SIZE)
i = MGA_LOG_MIN_TEX_REGION_SIZE;
pMGADRI->logTextureGranularity = i;
pMGADRI->textureSize = (pMGADRI->textureSize >> i) << i; /* truncate */
/* Here is where we need to do initialization of the dma engine */
if((bufs = drmAddBufs(pMGA->drmSubFD,
MGA_DMA_BUF_NR,
MGA_DMA_BUF_SZ,
DRM_AGP_BUFFER,
init_offset)) <= 0) {
xf86DrvMsg(pScrn->scrnIndex, X_INFO,
"[drm] failure adding %d %d byte DMA buffers\n",
MGA_DMA_BUF_NR,
MGA_DMA_BUF_SZ);
DRICloseScreen(pScreen);
return FALSE;
}
pMGADRI->agpBufferOffset = init_offset + pMGADRIServer->agp_private;
/* Calculate texture constants for AGP texture space
*/
{
CARD32 agpTextureOffset = MGA_DMA_BUF_SZ * MGA_DMA_BUF_NR;
CARD32 agpTextureSize = pMGADRI->agpSize - agpTextureOffset;
i = mylog2(agpTextureSize / MGA_NR_TEX_REGIONS);
if (i < MGA_LOG_MIN_TEX_REGION_SIZE)
i = MGA_LOG_MIN_TEX_REGION_SIZE;
pMGADRI->logAgpTextureGranularity = i;
pMGADRI->agpTextureSize = (agpTextureSize >> i) << i;
pMGADRI->agpTextureOffset = agpTextureOffset;
}
xf86DrvMsg(pScrn->scrnIndex, X_INFO,
"[drm] added %d %d byte DMA buffers\n",
bufs, MGA_DMA_BUF_SZ);
if ((MgaInitDma(pScrn, prim_size)) != TRUE) {
xf86DrvMsg(pScreen->myNum, X_ERROR,
"[drm] Failed to initialize dma engine\n");
DRICloseScreen(pScreen);
return FALSE;
}
xf86DrvMsg(pScreen->myNum, X_INFO, "[drm] Initialized Dma Engine\n");
if (!pMGADRIServer->irq) {
pMGADRIServer->irq = drmGetInterruptFromBusID(pMGA->drmSubFD,
((pciConfigPtr)pMGA->PciInfo
->thisCard)->busnum,
((pciConfigPtr)pMGA->PciInfo
->thisCard)->devnum,
((pciConfigPtr)pMGA->PciInfo
->thisCard)->funcnum);
drmCtlInstHandler(pMGA->drmSubFD, pMGADRIServer->irq);
}
xf86DrvMsg(pScrn->scrnIndex, X_INFO,
"[drm] dma control initialized, using IRQ %d\n",
pMGADRIServer->irq);
if (!(MGAInitVisualConfigs(pScreen))) {
DRICloseScreen(pScreen);
return FALSE;
}
xf86DrvMsg(pScrn->scrnIndex, X_INFO, "visual configs initialized\n" );
return TRUE;
}
void
MGADRICloseScreen(ScreenPtr pScreen)
{
ScrnInfoPtr pScrn = xf86Screens[pScreen->myNum];
MGAPtr pMGA = MGAPTR(pScrn);
MGADRIServerPrivatePtr pMGADRIServer = pMGA->DRIServerInfo;
/* The DRI will automagically clean these up when driFD is closed */
if(pMGADRIServer->agp_map) {
drmUnmap(pMGADRIServer->agp_map, pMGADRIServer->agpSizep);
pMGADRIServer->agp_map = 0;
}
if(pMGADRIServer->agpHandle) {
pMGADRIServer->agpHandle = 0;
pMGADRIServer->agpSizep = 0;
}
if(pMGADRIServer->agpAcquired == TRUE) {
pMGADRIServer->agpAcquired = FALSE;
}
DRICloseScreen(pScreen);
if (pMGA->pDRIInfo) {
if (pMGA->pDRIInfo->devPrivate) {
xfree(pMGA->pDRIInfo->devPrivate);
pMGA->pDRIInfo->devPrivate = 0;
}
DRIDestroyInfoRec(pMGA->pDRIInfo);
pMGA->pDRIInfo = 0;
}
if(pMGA->DRIServerInfo) {
xfree(pMGA->DRIServerInfo);
pMGA->DRIServerInfo = 0;
}
if (pMGA->pVisualConfigs) {
xfree(pMGA->pVisualConfigs);
}
if (pMGA->pVisualConfigsPriv) {
xfree(pMGA->pVisualConfigsPriv);
}
}
static Bool
MGACreateContext(ScreenPtr pScreen, VisualPtr visual,
drmContext hwContext, void *pVisualConfigPriv,
DRIContextType contextStore)
{
return TRUE;
}
static void
MGADestroyContext(ScreenPtr pScreen, drmContext hwContext,
DRIContextType contextStore)
{
}
Bool
MGADRIFinishScreenInit(ScreenPtr pScreen)
{
ScrnInfoPtr pScrn = xf86Screens[pScreen->myNum];
MGASAREAPtr sPriv;
MGAPtr pMGA = MGAPTR(pScrn);
if (!pMGA->pDRIInfo) return FALSE;
sPriv = (MGASAREAPtr)DRIGetSAREAPrivate(pScreen);
pMGA->pDRIInfo->driverSwapMethod = DRI_HIDE_X_CONTEXT;
xf86memset( sPriv, 0, sizeof(MGASAREARec) );
return DRIFinishScreenInit(pScreen);
}
void
mgaGetQuiescence( ScrnInfoPtr pScrn )
{
MGAPtr pMga = MGAPTR(pScrn);
pMga->have_quiescense = 1;
if (pMga->directRenderingEnabled) {
MGAFBLayout *pLayout = &pMga->CurrentLayout;
MgaLockUpdate(pScrn, (DRM_LOCK_QUIESCENT | DRM_LOCK_FLUSH));
WAITFIFO(11);
OUTREG(MGAREG_MACCESS, pMga->MAccess);
OUTREG(MGAREG_PITCH, pLayout->displayWidth);
pMga->PlaneMask = ~0;
OUTREG(MGAREG_PLNWT, pMga->PlaneMask);
pMga->BgColor = 0;
pMga->FgColor = 0;
OUTREG(MGAREG_BCOL, pMga->BgColor);
OUTREG(MGAREG_FCOL, pMga->FgColor);
OUTREG(MGAREG_SRCORG, pMga->realSrcOrg);
pMga->SrcOrg = 0;
OUTREG(MGAREG_DSTORG, pMga->DstOrg);
OUTREG(MGAREG_OPMODE, MGAOPM_DMA_BLIT);
OUTREG(MGAREG_CXBNDRY, 0xFFFF0000); /* (maxX << 16) | minX */
OUTREG(MGAREG_YTOP, 0x00000000); /* minPixelPointer */
OUTREG(MGAREG_YBOT, 0x007FFFFF); /* maxPixelPointer */
pMga->AccelFlags &= ~CLIPPER_ON;
}
}
void
mgaGetQuiescence_shared( ScrnInfoPtr pScrn )
{
MGAPtr pMga = MGAPTR(pScrn);
MGAEntPtr pMgaEnt = pMga->entityPrivate;
MGAPtr pMga2 = MGAPTR(pMgaEnt->pScrn_2);
pMga = MGAPTR(pMgaEnt->pScrn_1);
pMga->have_quiescense = 1;
pMga2->have_quiescense = 1;
if (pMgaEnt->directRenderingEnabled) {
MgaLockUpdate(pMgaEnt->pScrn_1, (DRM_LOCK_QUIESCENT | DRM_LOCK_FLUSH));
pMga->RestoreAccelState(pScrn);
xf86SetLastScrnFlag(pScrn->entityList[0], pScrn->scrnIndex);
}
}
void
MGASwapContext(ScreenPtr pScreen)
{
ScrnInfoPtr pScrn = xf86Screens[pScreen->myNum];
MGAPtr pMga = MGAPTR(pScrn);
/* Arrange for dma_quiescence and xaa sync to be called as
* appropriate.
*/
pMga->have_quiescense = 0;
pMga->AccelInfoRec->NeedToSync = TRUE;
}
void
MGASwapContext_shared(ScreenPtr pScreen)
{
ScrnInfoPtr pScrn = xf86Screens[pScreen->myNum];
MGAPtr pMga = MGAPTR(pScrn);
MGAEntPtr pMgaEnt = pMga->entityPrivate;
MGAPtr pMga2 = MGAPTR(pMgaEnt->pScrn_2);
pMga = MGAPTR(pMgaEnt->pScrn_1);
pMga->have_quiescense = 0;
pMga->AccelInfoRec->NeedToSync = TRUE;
pMga2->have_quiescense = 0;
pMga2->AccelInfoRec->NeedToSync = TRUE;
}
/* This is really only called from validate/postvalidate as we
* override the dri lock/unlock. Want to remove validate/postvalidate
* processing, but need to remove all client-side use of drawable lock
* first (otherwise there is noone recover when a client dies holding
* the drawable lock).
*
* What does this mean?
*
* - The above code gets executed every time a
* window changes shape or the focus changes, which isn't really
* optimal.
* - The X server therefore believes it needs to do an XAA sync
* *and* a dma quiescense ioctl each time that happens.
*
* We don't wrap wakeuphandler any longer, so at least we can say that
* this doesn't happen *every time the mouse moves*...
*/
static void
MGADRISwapContext(ScreenPtr pScreen, DRISyncType syncType,
DRIContextType oldContextType, void *oldContext,
DRIContextType newContextType, void *newContext)
{
if (syncType == DRI_3D_SYNC &&
oldContextType == DRI_2D_CONTEXT &&
newContextType == DRI_2D_CONTEXT)
{
MGASwapContext(pScreen);
}
}
static void
MGADRISwapContext_shared(ScreenPtr pScreen, DRISyncType syncType,
DRIContextType oldContextType, void *oldContext,
DRIContextType newContextType, void *newContext)
{
if (syncType == DRI_3D_SYNC &&
oldContextType == DRI_2D_CONTEXT &&
newContextType == DRI_2D_CONTEXT)
{
MGASwapContext_shared(pScreen);
}
}
void
MGASelectBuffer(ScrnInfoPtr pScrn, int which)
{
MGAPtr pMga = MGAPTR(pScrn);
MGADRIPtr pMGADRI = (MGADRIPtr)pMga->pDRIInfo->devPrivate;
switch (which) {
case MGA_BACK:
OUTREG(MGAREG_DSTORG, pMGADRI->backOffset);
OUTREG(MGAREG_SRCORG, pMGADRI->backOffset);
break;
case MGA_DEPTH:
OUTREG(MGAREG_DSTORG, pMGADRI->depthOffset);
OUTREG(MGAREG_SRCORG, pMGADRI->depthOffset);
break;
default:
case MGA_FRONT:
OUTREG(MGAREG_DSTORG, pMGADRI->frontOffset);
OUTREG(MGAREG_SRCORG, pMGADRI->frontOffset);
break;
}
}
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