#ifdef VBOX_WITH_DDRAW

#include "driver.h"

#include "dd.h"

#undef CO_E_NOTINITIALIZED

#include <winerror.h>

#if 0

static DWORD APIENTRY DdCreateSurface(PDD_CREATESURFACEDATA lpCreateSurface);

#endif

#ifdef VBOX_WITH_VIDEOHWACCEL

#include <iprt/asm.h>

#define VBOXVHWA_CAP(_pdev, _cap) ((_pdev)->vhwaInfo.caps & (_cap))

static bool getDDHALInfo(PPDEV pDev, DD_HALINFO* pHALInfo);

static DECLCALLBACK(void) vboxVHWASurfBltCompletion(PPDEV ppdev, VBOXVHWACMD * pCmd, void * pContext);

static DECLCALLBACK(void) vboxVHWASurfFlipCompletion(PPDEV ppdev, VBOXVHWACMD * pCmd, void * pContext);

#endif

DD_HALINFO g_h2;

BOOL APIENTRY DrvGetDirectDrawInfo(

DHPDEV dhpdev,

DD_HALINFO *pHalInfo,

DWORD *pdwNumHeaps,

VIDEOMEMORY *pvmList,

DWORD *pdwNumFourCCCodes,

DWORD *pdwFourCC

)

{

PPDEV pDev = (PPDEV)dhpdev;

BOOL bDefineDDrawHeap = FALSE;

DWORD cHeaps = 0;

VIDEOMEMORY *pVm = NULL;

DISPDBG((0, "%s: %p, %p, %p, %p, %p. %p\n", __FUNCTION__, dhpdev, pHalInfo, pdwNumHeaps, pvmList, pdwNumFourCCCodes, pdwFourCC));

*pdwNumFourCCCodes = 0;

*pdwNumHeaps = 0;

/* Setup the HAL driver caps. */

pHalInfo->dwSize = sizeof(DD_HALINFO);

#ifndef VBOX_WITH_VIDEOHWACCEL

pHalInfo->dwFlags = 0;

#endif

if (!(pvmList && pdwFourCC))

{

#ifdef VBOX_WITH_VIDEOHWACCEL

vboxVHWAInit();

memset(pHalInfo, 0, sizeof(DD_HALINFO));

pHalInfo->dwSize = sizeof(DD_HALINFO);

vboxVHWAInitHostInfo1(pDev);

#else

memset(&pHalInfo->ddCaps, 0, sizeof(DDNTCORECAPS));

#endif

pHalInfo->ddCaps.dwSize = sizeof(DDNTCORECAPS);

pHalInfo->ddCaps.dwVidMemTotal = pDev->layout.cbDDRAWHeap;

pHalInfo->ddCaps.dwVidMemFree = pHalInfo->ddCaps.dwVidMemTotal;

pHalInfo->ddCaps.dwCaps = 0;

pHalInfo->ddCaps.dwCaps2 = 0;

/* Declare we can handle textures wider than the primary */

pHalInfo->ddCaps.dwCaps2 |= DDCAPS2_WIDESURFACES;

pHalInfo->ddCaps.ddsCaps.dwCaps = DDSCAPS_PRIMARYSURFACE;

/* Create primary surface attributes */

pHalInfo->vmiData.pvPrimary = pDev->pjScreen;

pHalInfo->vmiData.fpPrimary = 0;

pHalInfo->vmiData.dwDisplayWidth = pDev->cxScreen;

pHalInfo->vmiData.dwDisplayHeight = pDev->cyScreen;

pHalInfo->vmiData.lDisplayPitch = pDev->lDeltaScreen;

pHalInfo->vmiData.ddpfDisplay.dwSize = sizeof(DDPIXELFORMAT);

pHalInfo->vmiData.ddpfDisplay.dwFlags = DDPF_RGB;

pHalInfo->vmiData.ddpfDisplay.dwRGBBitCount = pDev->ulBitCount;

DISPDBG((0, "pvPrimary %x\n", pHalInfo->vmiData.pvPrimary));

DISPDBG((0, "fpPrimary %x\n", pHalInfo->vmiData.fpPrimary));

DISPDBG((0, "dwDisplayWidth %d\n", pHalInfo->vmiData.dwDisplayWidth));

DISPDBG((0, "dwDisplayHeight %d\n", pHalInfo->vmiData.dwDisplayHeight));

DISPDBG((0, "lDisplayPitch %d\n", pHalInfo->vmiData.lDisplayPitch));

DISPDBG((0, "dwRGBBitCount %d\n", pHalInfo->vmiData.ddpfDisplay.dwRGBBitCount));

if (pDev->ulBitmapType == BMF_8BPP)

{

pHalInfo->vmiData.ddpfDisplay.dwFlags |= DDPF_PALETTEINDEXED8;

DISPDBG((0, "DDPF_PALETTEINDEXED8\n"));

}

pHalInfo->vmiData.ddpfDisplay.dwRBitMask = pDev->flRed;

pHalInfo->vmiData.ddpfDisplay.dwGBitMask = pDev->flGreen;

pHalInfo->vmiData.ddpfDisplay.dwBBitMask = pDev->flBlue;

pHalInfo->vmiData.dwOffscreenAlign = 4;

pHalInfo->vmiData.dwZBufferAlign = 4;

pHalInfo->vmiData.dwTextureAlign = 4;

#ifdef VBOX_WITH_VIDEOHWACCEL

if(pDev->vhwaInfo.bVHWAEnabled)

{

pHalInfo->vmiData.dwOverlayAlign = 4;

pDev->vhwaInfo.bVHWAEnabled = getDDHALInfo(pDev, pHalInfo);

}

#endif

}

cHeaps = 0;

/* Do we have sufficient videomemory to create an off-screen heap for DDraw? */

if (pDev->layout.cbDDRAWHeap > 0)

{

bDefineDDrawHeap = TRUE;

cHeaps++;

}

pDev->cHeaps = cHeaps;

*pdwNumHeaps = cHeaps;

// If pvmList is not NULL then we can go ahead and fill out the VIDEOMEMORY

// structures which define our requested heaps.

if(pvmList) {

pVm=pvmList;

//

// Snag a pointer to the video-memory list so that we can use it to

// call back to DirectDraw to allocate video memory:

//

pDev->pvmList = pVm;

//

// Define the heap for DirectDraw

//

if ( bDefineDDrawHeap )

{

pVm->dwFlags = VIDMEM_ISLINEAR ;

pVm->fpStart = pDev->layout.offDDRAWHeap;

pVm->fpEnd = pDev->layout.offDDRAWHeap + pDev->layout.cbDDRAWHeap - 1; /* inclusive */

#ifdef VBOX_WITH_VIDEOHWACCEL

if(pDev->vhwaInfo.bVHWAEnabled)

{

pVm->ddsCaps.dwCaps = 0;

pVm->ddsCapsAlt.dwCaps = 0;

}

else

#endif

{

pVm->ddsCaps.dwCaps = DDSCAPS_OFFSCREENPLAIN;

}

DISPDBG((0, "fpStart %x fpEnd %x\n", pVm->fpStart, pVm->fpEnd));

pVm++;

}

}

#ifdef VBOX_WITH_VIDEOHWACCEL

if(pDev->vhwaInfo.bVHWAEnabled)

{

*pdwNumFourCCCodes = pDev->vhwaInfo.numFourCC;

if (pdwFourCC && pDev->vhwaInfo.numFourCC)

{

int rc = vboxVHWAInitHostInfo2(pDev, pdwFourCC);

if(RT_FAILURE(rc))

{

*pdwNumFourCCCodes = 0;

pDev->vhwaInfo.numFourCC = 0;

}

}

}

#endif

#ifdef VBOX_WITH_VIDEOHWACCEL

if(pDev->vhwaInfo.bVHWAEnabled)

{

/* we need it to set DDHAL_PRIVATECAP_NOTIFYPRIMARYCREATION to make ddraw call us for primary surface creation */

/* DX5 and up */

pHalInfo->GetDriverInfo = DdGetDriverInfo;

pHalInfo->dwFlags |= DDHALINFO_GETDRIVERINFOSET;

}

#endif

#if 0

/* No 3D capabilities */

if (pHalInfo->lpD3DGlobalDriverData)

{

LPD3DHAL_GLOBALDRIVERDATA lpD3DGlobalDriverData = (LPD3DHAL_GLOBALDRIVERDATA)pHalInfo->lpD3DGlobalDriverData;

lpD3DGlobalDriverData->dwSize = sizeof(D3DHAL_GLOBALDRIVERDATA);

}

#endif

return TRUE;

}

BOOL APIENTRY DrvEnableDirectDraw(

DHPDEV dhpdev,

DD_CALLBACKS *pCallBacks,

DD_SURFACECALLBACKS *pSurfaceCallBacks,

DD_PALETTECALLBACKS *pPaletteCallBacks

)

{

#ifdef VBOX_WITH_VIDEOHWACCEL

PPDEV pDev = (PPDEV)dhpdev;

#endif

DISPDBG((0, "%s: %p, %p, %p, %p\n", __FUNCTION__, dhpdev, pCallBacks, pSurfaceCallBacks, pPaletteCallBacks));

/* Fill in the HAL Callback pointers */

pCallBacks->dwSize = sizeof(DD_CALLBACKS);

pCallBacks->dwFlags = 0;

pCallBacks->dwFlags = DDHAL_CB32_CREATESURFACE | DDHAL_CB32_CANCREATESURFACE | DDHAL_CB32_MAPMEMORY;

pCallBacks->CreateSurface = DdCreateSurface;

pCallBacks->CanCreateSurface = DdCanCreateSurface;

pCallBacks->MapMemory = DdMapMemory;

// pCallBacks->WaitForVerticalBlank = DdWaitForVerticalBlank;

// pCallBacks->GetScanLine = DdGetScanLine;

// DDHAL_CB32_WAITFORVERTICALBLANK | DDHAL_CB32_GETSCANLINE

/* Note: pCallBacks->SetMode & pCallBacks->DestroyDriver are unused in Windows 2000 and up */

/* Fill in the Surface Callback pointers */

pSurfaceCallBacks->dwSize = sizeof(DD_SURFACECALLBACKS);

pSurfaceCallBacks->dwFlags = DDHAL_SURFCB32_LOCK | DDHAL_SURFCB32_UNLOCK;

pSurfaceCallBacks->Lock = DdLock;

pSurfaceCallBacks->Unlock = DdUnlock;

/*

/* Fill in the Palette Callback pointers */

pPaletteCallBacks->dwSize = sizeof(DD_PALETTECALLBACKS);

pPaletteCallBacks->dwFlags = 0;

#ifdef VBOX_WITH_VIDEOHWACCEL

if(pDev->vhwaInfo.bVHWAEnabled)

{

//TODO: filter out those we do not need in case not supported by hw

pSurfaceCallBacks->DestroySurface = DdDestroySurface;

pSurfaceCallBacks->GetBltStatus = DdGetBltStatus;

pSurfaceCallBacks->GetFlipStatus = DdGetFlipStatus;

pSurfaceCallBacks->SetColorKey = DdSetColorKey;

pSurfaceCallBacks->Flip = DdFlip;

pSurfaceCallBacks->Blt = DdBlt;

pSurfaceCallBacks->dwFlags |= DDHAL_SURFCB32_DESTROYSURFACE |

DDHAL_SURFCB32_FLIP

| DDHAL_SURFCB32_BLT |

DDHAL_SURFCB32_GETBLTSTATUS |

DDHAL_SURFCB32_GETFLIPSTATUS |

DDHAL_SURFCB32_SETCOLORKEY

;

if(pDev->vhwaInfo.caps & VBOXVHWA_CAPS_OVERLAY)

{

pSurfaceCallBacks->UpdateOverlay = DdUpdateOverlay; // Now supporting overlays.

pSurfaceCallBacks->SetOverlayPosition = DdSetOverlayPosition;

pSurfaceCallBacks->dwFlags |=

DDHAL_SURFCB32_UPDATEOVERLAY | // Now supporting

DDHAL_SURFCB32_SETOVERLAYPOSITION ; // overlays.

}

}

#endif

return TRUE;

}

VOID APIENTRY DrvDisableDirectDraw( DHPDEV dhpdev)

{

DISPDBG((0, "%s: %p\n", __FUNCTION__, dhpdev));

}

DWORD CALLBACK DdGetDriverInfo(DD_GETDRIVERINFODATA *lpData)

{

PPDEV pDev = (PPDEV)lpData->dhpdev;

DWORD dwSize;

DISPDBG((0, "%s: %p\n", __FUNCTION__, lpData->dhpdev));

/* Default to 'not supported' */

lpData->ddRVal = DDERR_CURRENTLYNOTAVAIL;

/* Fill in supported stuff */

if (IsEqualIID(&lpData->guidInfo, &GUID_D3DCallbacks3))

{

DISPDBG((0, " -> GUID_D3DCallbacks3\n"));

}

else

if (IsEqualIID(&lpData->guidInfo, &GUID_D3DExtendedCaps))

{

DISPDBG((0, " -> GUID_D3DExtendedCaps\n"));

}

else

if (IsEqualIID(&lpData->guidInfo, &GUID_ZPixelFormats))

{

DISPDBG((0, " -> GUID_ZPixelFormats\n"));

}

else

if (IsEqualIID(&(lpData->guidInfo), &GUID_D3DParseUnknownCommandCallback))

{

DISPDBG((0, " -> GUID_D3DParseUnknownCommandCallback\n"));

}

else

if (IsEqualIID(&(lpData->guidInfo), &GUID_Miscellaneous2Callbacks))

{

DISPDBG((0, " -> GUID_Miscellaneous2Callbacks\n"));

}

else

if (IsEqualIID(&(lpData->guidInfo), &GUID_UpdateNonLocalHeap))

{

DISPDBG((0, " -> GUID_UpdateNonLocalHeap\n"));

}

else

if (IsEqualIID(&(lpData->guidInfo), &GUID_GetHeapAlignment))

{

DISPDBG((0, " -> GUID_GetHeapAlignment\n"));

}

else

if (IsEqualIID(&(lpData->guidInfo), &GUID_NTPrivateDriverCaps))

{

DD_NTPRIVATEDRIVERCAPS DDPrivateDriverCaps;

DISPDBG((0, " -> GUID_NTPrivateDriverCaps\n"));

memset(&DDPrivateDriverCaps, 0, sizeof(DDPrivateDriverCaps));

DDPrivateDriverCaps.dwSize=sizeof(DDPrivateDriverCaps);

#ifndef VBOX_WITH_VIDEOHWACCEL

DDPrivateDriverCaps.dwPrivateCaps = 0; /* DDHAL_PRIVATECAP_NOTIFYPRIMARYCREATION -> call CreateSurface for the primary surface */

#else

DDPrivateDriverCaps.dwPrivateCaps = DDHAL_PRIVATECAP_NOTIFYPRIMARYCREATION; /* -> call CreateSurface for the primary surface */

#endif

lpData->dwActualSize =sizeof(DDPrivateDriverCaps);

dwSize = min(sizeof(DDPrivateDriverCaps),lpData->dwExpectedSize);

memcpy(lpData->lpvData, &DDPrivateDriverCaps, dwSize);

lpData->ddRVal = DD_OK;

}

else

if (IsEqualIID(&(lpData->guidInfo), &GUID_DDMoreSurfaceCaps))

{

#ifndef VBOX_WITH_VIDEOHWACCEL

DD_MORESURFACECAPS DDMoreSurfaceCaps;

DDSCAPSEX ddsCapsEx, ddsCapsExAlt;

DISPDBG((0, " -> GUID_DDMoreSurfaceCaps\n"));

// fill in everything until expectedsize...

memset(&DDMoreSurfaceCaps, 0, sizeof(DDMoreSurfaceCaps));

// Caps for heaps 2..n

memset(&ddsCapsEx, 0, sizeof(ddsCapsEx));

memset(&ddsCapsExAlt, 0, sizeof(ddsCapsEx));

DDMoreSurfaceCaps.dwSize=lpData->dwExpectedSize;

lpData->dwActualSize = lpData->dwExpectedSize;

dwSize = min(sizeof(DDMoreSurfaceCaps),lpData->dwExpectedSize);

memcpy(lpData->lpvData, &DDMoreSurfaceCaps, dwSize);

// now fill in other heaps...

while (dwSize < lpData->dwExpectedSize)

{

memcpy( (PBYTE)lpData->lpvData+dwSize,

&ddsCapsEx,

sizeof(DDSCAPSEX));

dwSize += sizeof(DDSCAPSEX);

memcpy( (PBYTE)lpData->lpvData+dwSize,

&ddsCapsExAlt,

sizeof(DDSCAPSEX));

dwSize += sizeof(DDSCAPSEX);

}

lpData->ddRVal = DD_OK;

#else

DISPDBG((0, " -> GUID_DDMoreSurfaceCaps\n"));

#endif

}

else

if (IsEqualIID(&(lpData->guidInfo), &GUID_DDStereoMode))

{

DISPDBG((0, " -> GUID_DDStereoMode\n"));

}

else

if (IsEqualIID(&(lpData->guidInfo), &GUID_NonLocalVidMemCaps))

{

DISPDBG((0, " -> GUID_NonLocalVidMemCaps\n"));

}

else

if (IsEqualIID(&lpData->guidInfo, &GUID_NTCallbacks))

{

#ifndef VBOX_WITH_VIDEOHWACCEL

DD_NTCALLBACKS NtCallbacks;

DISPDBG((0, " -> GUID_NTCallbacks\n"));

memset(&NtCallbacks, 0, sizeof(NtCallbacks));

dwSize = min(lpData->dwExpectedSize, sizeof(DD_NTCALLBACKS));

NtCallbacks.dwSize = dwSize;

NtCallbacks.dwFlags = DDHAL_NTCB32_FREEDRIVERMEMORY

| DDHAL_NTCB32_SETEXCLUSIVEMODE

| DDHAL_NTCB32_FLIPTOGDISURFACE

;

NtCallbacks.FreeDriverMemory = DdFreeDriverMemory;

NtCallbacks.SetExclusiveMode = DdSetExclusiveMode;

NtCallbacks.FlipToGDISurface = DdFlipToGDISurface;

memcpy(lpData->lpvData, &NtCallbacks, dwSize);

lpData->ddRVal = DD_OK;

#else

DISPDBG((0, " -> GUID_NTCallbacks\n"));

#endif

}

else

if (IsEqualIID(&lpData->guidInfo, &GUID_KernelCaps))

{

DISPDBG((0, " -> GUID_KernelCaps\n"));

}

else

if (IsEqualIID(&lpData->guidInfo, &GUID_KernelCallbacks))

{

DISPDBG((0, " -> GUID_KernelCallbacks\n"));

}

else

if (IsEqualIID(&lpData->guidInfo, &GUID_MotionCompCallbacks))

{

DISPDBG((0, " -> GUID_MotionCompCallbacks\n"));

}

else

if (IsEqualIID(&lpData->guidInfo, &GUID_VideoPortCallbacks))

{

DISPDBG((0, " -> GUID_VideoPortCallbacks\n"));

}

else

if (IsEqualIID(&lpData->guidInfo, &GUID_ColorControlCallbacks))

{

DISPDBG((0, " -> GUID_ColorControlCallbacks\n"));

}

else

if (IsEqualIID(&lpData->guidInfo, &GUID_VideoPortCaps))

{

DISPDBG((0, " -> GUID_VideoPortCaps\n"));

}

else

if (IsEqualIID(&lpData->guidInfo, &GUID_D3DCallbacks2))

{

DISPDBG((0, " -> GUID_D3DCallbacks2\n"));

}

else

if (IsEqualIID(&lpData->guidInfo, &GUID_D3DCallbacks3))

{

DISPDBG((0, " -> GUID_D3DCallbacks3\n"));

}

/* Always return this */

return DDHAL_DRIVER_HANDLED;

}

DWORD APIENTRY DdCreateSurface(PDD_CREATESURFACEDATA lpCreateSurface)

{

PPDEV pDev = (PPDEV)lpCreateSurface->lpDD->dhpdev;

DD_SURFACE_LOCAL* lpSurfaceLocal;

DD_SURFACE_GLOBAL* lpSurfaceGlobal;

LPDDSURFACEDESC lpSurfaceDesc;

LONG lPitch, lBpp;

DISPDBG((0, "%s: %p\n", __FUNCTION__, pDev));

lpSurfaceLocal = lpCreateSurface->lplpSList[0];

lpSurfaceGlobal = lpSurfaceLocal->lpGbl;

lpSurfaceDesc = lpCreateSurface->lpDDSurfaceDesc;

#ifdef VBOX_WITH_VIDEOHWACCEL

if(pDev->vhwaInfo.bVHWAEnabled)

{

VBOXVHWACMD* pCmd;

DDPIXELFORMAT * pFormat = &lpSurfaceGlobal->ddpfSurface;

//

// Modify surface descriptions as appropriate and let Direct

// Draw perform the allocation if the surface was not the primary

//

if (lpSurfaceLocal->ddsCaps.dwCaps & DDSCAPS_PRIMARYSURFACE)

{

DISPDBG((0, "-> primary surface\n"));

lpSurfaceGlobal->fpVidMem = 0;

}

else

{

DISPDBG((0, "-> secondary surface\n"));

lpSurfaceGlobal->fpVidMem = DDHAL_PLEASEALLOC_BLOCKSIZE;

}

pCmd = vboxVHWACommandCreate (pDev, VBOXVHWACMD_TYPE_SURF_CREATE, sizeof(VBOXVHWACMD_SURF_CREATE));

if(pCmd)

{

VBOXVHWACMD_SURF_CREATE * pBody = VBOXVHWACMD_BODY(pCmd, VBOXVHWACMD_SURF_CREATE);

PVBOXVHWASURFDESC pDesc;

int rc;

memset(pBody, 0, sizeof(VBOXVHWACMD_SURF_CREATE));

rc = vboxVHWAFromDDSURFACEDESC(&pBody->SurfInfo, lpSurfaceDesc);

pBody->SurfInfo.surfCaps = vboxVHWAFromDDSCAPS(lpSurfaceLocal->ddsCaps.dwCaps);

pBody->SurfInfo.flags |= DDSD_CAPS;

pBody->SurfInfo.height = lpSurfaceGlobal->wHeight;

pBody->SurfInfo.width = lpSurfaceGlobal->wWidth;

pBody->SurfInfo.flags |= DDSD_HEIGHT | DDSD_WIDTH;

vboxVHWAFromDDPIXELFORMAT(&pBody->SurfInfo.PixelFormat, pFormat);

pBody->SurfInfo.flags |= VBOXVHWA_SD_PIXELFORMAT;

if (lpSurfaceLocal->ddsCaps.dwCaps & DDSCAPS_PRIMARYSURFACE)

{

pBody->SurfInfo.offSurface = 0;

}

else

{

pBody->SurfInfo.offSurface = VBOXVHWA_OFFSET64_VOID;

}

pDesc = vboxVHWASurfDescAlloc();

if(pDesc)

{

vboxVHWACommandSubmit(pDev, pCmd);

Assert(pCmd->rc == VINF_SUCCESS);

if(pCmd->rc == VINF_SUCCESS)

{

uint32_t surfSizeX = pBody->SurfInfo.sizeX;

uint32_t surfSizeY = pBody->SurfInfo.sizeY;

pDesc->hHostHandle = pBody->SurfInfo.hSurf;

if(!!(lpSurfaceLocal->ddsCaps.dwCaps & DDSCAPS_OVERLAY)

&& !!(lpSurfaceLocal->ddsCaps.dwCaps & DDSCAPS_VISIBLE))

{

pDesc->bVisible = true;

}

lpSurfaceGlobal->dwReserved1 = (ULONG_PTR)pDesc;

lPitch = pBody->SurfInfo.pitch;

#if 0

lpSurfaceGlobal->dwBlockSizeX = lPitch;

lpSurfaceGlobal->dwBlockSizeY = lpSurfaceGlobal->wHeight;

lpSurfaceGlobal->lPitch = lPitch;

#else

lpSurfaceGlobal->dwBlockSizeX = surfSizeX;

lpSurfaceGlobal->dwBlockSizeY = surfSizeY;

lpSurfaceGlobal->lPitch = lPitch;

#endif

#if 1

lpSurfaceDesc->lPitch = lpSurfaceGlobal->lPitch;

lpSurfaceDesc->dwFlags |= DDSD_PITCH;

#endif

lpCreateSurface->ddRVal = DD_OK;

}

else

{

vboxVHWASurfDescFree(pDesc);

lpCreateSurface->ddRVal = DDERR_GENERIC;

}

}

vbvaVHWACommandRelease(pDev, pCmd);

}

return DDHAL_DRIVER_NOTHANDLED;

}

#endif

lpSurfaceGlobal->dwReserved1 = 0;

if (lpSurfaceDesc->ddpfPixelFormat.dwFlags & DDPF_PALETTEINDEXED4)

{

lBpp = 4;

lPitch = lpSurfaceGlobal->wWidth/2;

lPitch = (lPitch + 31) & ~31;

}

else

if (lpSurfaceDesc->ddpfPixelFormat.dwFlags & DDPF_PALETTEINDEXED8)

{

lBpp = 8;

lPitch = lpSurfaceGlobal->wWidth;

lPitch = (lPitch + 31) & ~31;

}

else

{

lBpp = lpSurfaceDesc->ddpfPixelFormat.dwRGBBitCount;

lPitch = lpSurfaceGlobal->wWidth*(lBpp/8);

}

DISPDBG((0, "New surface (%d,%d)\n", lpSurfaceGlobal->wWidth, lpSurfaceGlobal->wHeight));

DISPDBG((0, "BPP %d lPitch=%d\n", lBpp, lPitch));

lpSurfaceGlobal->dwBlockSizeX = lPitch;

lpSurfaceGlobal->dwBlockSizeY = lpSurfaceGlobal->wHeight;

lpSurfaceGlobal->lPitch = lPitch;

lpSurfaceDesc->lPitch = lpSurfaceGlobal->lPitch;

lpSurfaceDesc->dwFlags |= DDSD_PITCH;

//

// Modify surface descriptions as appropriate and let Direct

// Draw perform the allocation if the surface was not the primary

//

if (lpSurfaceLocal->ddsCaps.dwCaps & DDSCAPS_PRIMARYSURFACE)

{

DISPDBG((0, "-> primary surface\n"));

lpSurfaceGlobal->fpVidMem = 0;

}

else

{

DISPDBG((0, "-> secondary surface\n"));

lpSurfaceGlobal->fpVidMem = DDHAL_PLEASEALLOC_BLOCKSIZE;

}

return DDHAL_DRIVER_NOTHANDLED;

}

DWORD APIENTRY DdCanCreateSurface(PDD_CANCREATESURFACEDATA lpCanCreateSurface)

{

PPDEV pDev = (PPDEV)lpCanCreateSurface->lpDD->dhpdev;

PDD_SURFACEDESC lpDDS = lpCanCreateSurface->lpDDSurfaceDesc;

DISPDBG((0, "%s: %p\n", __FUNCTION__, pDev));

#ifdef VBOX_WITH_VIDEOHWACCEL

if(pDev->vhwaInfo.bVHWAEnabled)

{

VBOXVHWACMD* pCmd;

uint32_t unsupportedSCaps = vboxVHWAUnsupportedDDSCAPS(lpDDS->ddsCaps.dwCaps);

Assert(!unsupportedSCaps);

if(unsupportedSCaps)

{

VHWADBG(("vboxVHWASurfCanCreate: unsupported ddscaps: 0x%x", unsupportedSCaps));

lpCanCreateSurface->ddRVal = DDERR_INVALIDCAPS;

return DDHAL_DRIVER_HANDLED;

}

unsupportedSCaps = vboxVHWAUnsupportedDDPFS(lpDDS->ddpfPixelFormat.dwFlags);

Assert(!unsupportedSCaps);

if(unsupportedSCaps)

{

VHWADBG(("vboxVHWASurfCanCreate: unsupported pixel format: 0x%x", unsupportedSCaps));

lpCanCreateSurface->ddRVal = DDERR_INVALIDPIXELFORMAT;

return DDHAL_DRIVER_HANDLED;

}

pCmd = vboxVHWACommandCreate (pDev, VBOXVHWACMD_TYPE_SURF_CANCREATE, sizeof(VBOXVHWACMD_SURF_CANCREATE));

if(pCmd)

{

int rc;

VBOXVHWACMD_SURF_CANCREATE * pBody = VBOXVHWACMD_BODY(pCmd, VBOXVHWACMD_SURF_CANCREATE);

memset(pBody, 0, sizeof(VBOXVHWACMD_SURF_CANCREATE));

rc = vboxVHWAFromDDSURFACEDESC(&pBody->SurfInfo, lpDDS);

pBody->u.in.bIsDifferentPixelFormat = lpCanCreateSurface->bIsDifferentPixelFormat;

vboxVHWACommandSubmit(pDev, pCmd);

Assert(pCmd->rc == VINF_SUCCESS);

if(pCmd->rc == VINF_SUCCESS)

{

#ifdef DEBUGVHWASTRICT

Assert(!pBody->u.out.ErrInfo);

#endif

if(pBody->u.out.ErrInfo)

{

lpCanCreateSurface->ddRVal = DDERR_GENERIC;

}

else

{

lpCanCreateSurface->ddRVal = DD_OK;

}

}

else

{

lpCanCreateSurface->ddRVal = DDERR_GENERIC;

}

vbvaVHWACommandRelease(pDev, pCmd);

}

else

{

lpCanCreateSurface->ddRVal = DDERR_GENERIC;

}

return DDHAL_DRIVER_HANDLED;

}

#endif

if (lpDDS->ddsCaps.dwCaps & DDSCAPS_ZBUFFER)

{

DISPDBG((0, "No Z-Bufer support\n"));

lpCanCreateSurface->ddRVal = DDERR_INVALIDPIXELFORMAT;

return DDHAL_DRIVER_HANDLED;

}

if (lpDDS->ddsCaps.dwCaps & DDSCAPS_TEXTURE)

{

DISPDBG((0, "No texture support\n"));

lpCanCreateSurface->ddRVal = DDERR_INVALIDPIXELFORMAT;

return DDHAL_DRIVER_HANDLED;

}

if (lpCanCreateSurface->bIsDifferentPixelFormat && (lpDDS->ddpfPixelFormat.dwFlags & DDPF_FOURCC))

{

DISPDBG((0, "FOURCC not supported\n"));

lpCanCreateSurface->ddRVal = DDERR_INVALIDPIXELFORMAT;

return DDHAL_DRIVER_HANDLED;

}

lpCanCreateSurface->ddRVal = DD_OK;

return DDHAL_DRIVER_HANDLED;

}

DWORD CALLBACK DdMapMemory(PDD_MAPMEMORYDATA lpMapMemory)

{

PPDEV pDev = (PPDEV)lpMapMemory->lpDD->dhpdev;

VIDEO_SHARE_MEMORY ShareMemory;

VIDEO_SHARE_MEMORY_INFORMATION ShareMemoryInformation;

DWORD ReturnedDataLength;

DISPDBG((0, "%s: %p bMap %d\n", __FUNCTION__, pDev, lpMapMemory->bMap));

if (lpMapMemory->bMap)

{

ShareMemory.ProcessHandle = lpMapMemory->hProcess;

// 'RequestedVirtualAddress' isn't actually used for the SHARE IOCTL:

ShareMemory.RequestedVirtualAddress = 0;

// We map in starting at the top of the frame buffer:

ShareMemory.ViewOffset = 0;

// We map down to the end of the frame buffer, including the offscreen heap.

ShareMemory.ViewSize = pDev->layout.offVBVABuffer;

DISPDBG((0, "ViewSize = %x\n", ShareMemory.ViewSize));

if (EngDeviceIoControl(pDev->hDriver,

IOCTL_VIDEO_SHARE_VIDEO_MEMORY,

&ShareMemory,

sizeof(VIDEO_SHARE_MEMORY),

&ShareMemoryInformation,

sizeof(VIDEO_SHARE_MEMORY_INFORMATION),

&ReturnedDataLength))

{

DISPDBG((0, "Failed IOCTL_VIDEO_SHARE_MEMORY\n"));

lpMapMemory->ddRVal = DDERR_GENERIC;

DISPDBG((0, "DdMapMemory: Exit GEN, DDHAL_DRIVER_HANDLED\n"));

AssertBreakpoint();

return(DDHAL_DRIVER_HANDLED);

}

lpMapMemory->fpProcess =

(FLATPTR) ShareMemoryInformation.VirtualAddress;

}

else

{

ShareMemory.ProcessHandle = lpMapMemory->hProcess;

ShareMemory.ViewOffset = 0;

ShareMemory.ViewSize = 0;

ShareMemory.RequestedVirtualAddress = (VOID*) lpMapMemory->fpProcess;

if (EngDeviceIoControl(pDev->hDriver,

IOCTL_VIDEO_UNSHARE_VIDEO_MEMORY,

&ShareMemory,

sizeof(VIDEO_SHARE_MEMORY),

NULL,

0,

&ReturnedDataLength))

{

DISPDBG((0, "Failed IOCTL_VIDEO_UNSHARE_MEMORY\n"));

AssertBreakpoint();

}

}

lpMapMemory->ddRVal = DD_OK;

return(DDHAL_DRIVER_HANDLED);

}

DWORD APIENTRY DdLock(PDD_LOCKDATA lpLock)

{

PPDEV pDev = (PPDEV)lpLock->lpDD->dhpdev;

DD_SURFACE_LOCAL* lpSurfaceLocal = lpLock->lpDDSurface;

DISPDBG((0, "%s: %p bHasRect = %d fpProcess = %p\n", __FUNCTION__, pDev, lpLock->bHasRect, lpLock->fpProcess));

#ifdef VBOX_WITH_VIDEOHWACCEL

if(pDev->vhwaInfo.bVHWAEnabled)

{

#ifndef DBG_DDSTUBS

DD_SURFACE_GLOBAL* lpSurfaceGlobal = lpSurfaceLocal->lpGbl;

PVBOXVHWASURFDESC pDesc = (PVBOXVHWASURFDESC)lpSurfaceGlobal->dwReserved1;

RECTL tmpRect, *pRect;

if(ASMAtomicUoReadU32(&pDesc->cPendingBltsSrc)

|| ASMAtomicUoReadU32(&pDesc->cPendingFlipsCurr)

|| ASMAtomicUoReadU32(&pDesc->cPendingBltsDst)

|| ASMAtomicUoReadU32(&pDesc->cPendingFlipsTarg))

{

/* ensure we have host cmds processed to update pending blits and flips */

vboxVHWACommandCheckHostCmds(pDev);

if(ASMAtomicUoReadU32(&pDesc->cPendingBltsSrc)

|| ASMAtomicUoReadU32(&pDesc->cPendingFlipsCurr)

|| ASMAtomicUoReadU32(&pDesc->cPendingBltsDst)

|| ASMAtomicUoReadU32(&pDesc->cPendingFlipsTarg))

{

lpLock->ddRVal = DDERR_WASSTILLDRAWING;

return DDHAL_DRIVER_HANDLED;

}

}

if (lpLock->bHasRect)

{

pRect = &lpLock->rArea;

}

else

{

tmpRect.left=0;

tmpRect.top=0;

tmpRect.right=lpSurfaceGlobal->wWidth-1;

tmpRect.bottom=lpSurfaceGlobal->wHeight-1;

pRect = &tmpRect;

}

if(VBOXDD_CHECKFLAG(lpLock->dwFlags, DDLOCK_DISCARDCONTENTS))

{

vboxVHWARegionTrySubstitute(&pDesc->NonupdatedMemRegion, pRect);

vboxVHWARegionAdd(&pDesc->UpdatedMemRegion, pRect);

lpLock->ddRVal = DD_OK;

}

else if(!vboxVHWARegionIntersects(&pDesc->NonupdatedMemRegion, pRect))

{

vboxVHWARegionAdd(&pDesc->UpdatedMemRegion, pRect);

lpLock->ddRVal = DD_OK;

}

else

{

VBOXVHWACMD* pCmd = vboxVHWACommandCreate (pDev, VBOXVHWACMD_TYPE_SURF_LOCK, sizeof(VBOXVHWACMD_SURF_LOCK));

if(pCmd)

{

VBOXVHWACMD_SURF_LOCK * pBody = VBOXVHWACMD_BODY(pCmd, VBOXVHWACMD_SURF_LOCK);

memset(pBody, 0, sizeof(VBOXVHWACMD_SURF_LOCK));

pBody->u.in.offSurface = (uint64_t)lpSurfaceGlobal->fpVidMem;

Assert(pDesc->NonupdatedMemRegion.bValid);

vboxVHWAFromRECTL(&pBody->u.in.rect, &pDesc->NonupdatedMemRegion.Rect);

pBody->u.in.rectValid = 1;

pBody->u.in.hSurf = pDesc->hHostHandle;

/* wait for the surface to be locked and memory buffer updated */

vboxVHWACommandSubmit(pDev, pCmd);

vbvaVHWACommandRelease(pDev, pCmd);

vboxVHWARegionClear(&pDesc->NonupdatedMemRegion);

lpLock->ddRVal = DD_OK;

}

else

{

lpLock->ddRVal = DDERR_GENERIC;

}

}

#else

lpLock->ddRVal = DD_OK;

#endif

return DDHAL_DRIVER_NOTHANDLED;

}

#endif

if (lpSurfaceLocal->ddsCaps.dwCaps & DDSCAPS_PRIMARYSURFACE)

{

/* The updated rectangle must be reported only for the primary surface. */

pDev->ddLock.bLocked = TRUE;

if (lpLock->bHasRect)

{

DISPDBG((0, "%d,%d %dx%d\n", lpLock->rArea.left, lpLock->rArea.top, lpLock->rArea.right - lpLock->rArea.left, lpLock->rArea.bottom - lpLock->rArea.top));

pDev->ddLock.rArea = lpLock->rArea;

}

else

{

pDev->ddLock.rArea.left = 0;

pDev->ddLock.rArea.top = 0;

pDev->ddLock.rArea.right = pDev->cxScreen;

pDev->ddLock.rArea.bottom = pDev->cyScreen;

}

}

else

{

DISPDBG((0, "%s: secondary surface.\n", __FUNCTION__));

}

// Because we correctly set 'fpVidMem' to be the offset into our frame

// buffer when we created the surface, DirectDraw will automatically take

// care of adding in the user-mode frame buffer address if we return

// DDHAL_DRIVER_NOTHANDLED:

lpLock->ddRVal = DD_OK;

return DDHAL_DRIVER_NOTHANDLED;

}

DWORD APIENTRY DdUnlock(PDD_UNLOCKDATA lpUnlock)

{

PPDEV pDev = (PPDEV)lpUnlock->lpDD->dhpdev;

DISPDBG((0, "%s: %p\n", __FUNCTION__, pDev));

#ifdef VBOX_WITH_VIDEOHWACCEL

if (pDev->vhwaInfo.bVHWAEnabled)

{

#ifndef DBG_DDSTUBS

DD_SURFACE_LOCAL* lpSurfaceLocal = lpUnlock->lpDDSurface;

DD_SURFACE_GLOBAL* lpSurfaceGlobal = lpSurfaceLocal->lpGbl;

PVBOXVHWASURFDESC pDesc = (PVBOXVHWASURFDESC)lpSurfaceGlobal->dwReserved1;

if(!!(lpSurfaceLocal->ddsCaps.dwCaps & DDSCAPS_PRIMARYSURFACE)

&& pDesc->UpdatedMemRegion.bValid

&& vboxHwBufferBeginUpdate (pDev))

{

vbvaReportDirtyRect (pDev, &pDesc->UpdatedMemRegion.Rect);

if ( pDev->pVBVA->hostFlags.u32HostEvents

& VBOX_VIDEO_INFO_HOST_EVENTS_F_VRDP_RESET)

{

vrdpReset (pDev);

pDev->pVBVA->hostFlags.u32HostEvents &=

~VBOX_VIDEO_INFO_HOST_EVENTS_F_VRDP_RESET;

}

if (pDev->pVBVA->hostFlags.u32HostEvents

& VBVA_F_MODE_VRDP)

{

vrdpReportDirtyRect (pDev, &pDesc->UpdatedMemRegion.Rect);

}

vboxHwBufferEndUpdate (pDev);

lpUnlock->ddRVal = DD_OK;

}

else if(lpSurfaceLocal->ddsCaps.dwCaps & DDSCAPS_VISIBLE

|| ( !!(lpSurfaceLocal->ddsCaps.dwCaps & DDSCAPS_OVERLAY)

&& pDesc->bVisible

)

)

{

VBOXVHWACMD* pCmd = vboxVHWACommandCreate (pDev, VBOXVHWACMD_TYPE_SURF_UNLOCK, sizeof(VBOXVHWACMD_SURF_UNLOCK));

// int rc = VERR_GENERAL_FAILURE;

if(pCmd)

{

VBOXVHWACMD_SURF_UNLOCK * pBody = VBOXVHWACMD_BODY(pCmd, VBOXVHWACMD_SURF_UNLOCK);

memset(pBody, 0, sizeof(VBOXVHWACMD_SURF_UNLOCK));

pBody->u.in.hSurf = pDesc->hHostHandle;

if(pDesc->UpdatedMemRegion.bValid)

{

pBody->u.in.xUpdatedMemValid = 1;

vboxVHWAFromRECTL(&pBody->u.in.xUpdatedMemRect, &pDesc->UpdatedMemRegion.Rect);

vboxVHWARegionClear(&pDesc->UpdatedMemRegion);

}

vboxVHWACommandSubmitAsynchAndComplete(pDev, pCmd);

lpUnlock->ddRVal = DD_OK;

}

else

{

lpUnlock->ddRVal = DDERR_GENERIC;

}

}

else

{

lpUnlock->ddRVal = DD_OK;

}

#else

lpUnlock->ddRVal = DD_OK;

#endif

return DDHAL_DRIVER_NOTHANDLED;

}

#endif

if (pDev->ddLock.bLocked)

{

DISPDBG((0, "%d,%d %dx%d\n", pDev->ddLock.rArea.left, pDev->ddLock.rArea.top, pDev->ddLock.rArea.right - pDev->ddLock.rArea.left, pDev->ddLock.rArea.bottom - pDev->ddLock.rArea.top));

#ifndef VBOX_WITH_HGSMI

if (pDev->pInfo && vboxHwBufferBeginUpdate (pDev))

{

vbvaReportDirtyRect (pDev, &pDev->ddLock.rArea);

if ( pDev->pInfo->hostEvents.fu32Events

& VBOX_VIDEO_INFO_HOST_EVENTS_F_VRDP_RESET)

{

vrdpReset (pDev);

pDev->pInfo->hostEvents.fu32Events &=

~VBOX_VIDEO_INFO_HOST_EVENTS_F_VRDP_RESET;

}

if (pDev->vbva.pVbvaMemory->fu32ModeFlags

& VBVA_F_MODE_VRDP)

{

vrdpReportDirtyRect (pDev, &pDev->ddLock.rArea);

}

vboxHwBufferEndUpdate (pDev);

}

#else

if (pDev->bHGSMISupported && vboxHwBufferBeginUpdate (pDev))

{

vbvaReportDirtyRect (pDev, &pDev->ddLock.rArea);

if ( pDev->pVBVA->hostFlags.u32HostEvents

& VBOX_VIDEO_INFO_HOST_EVENTS_F_VRDP_RESET)

{

vrdpReset (pDev);

pDev->pVBVA->hostFlags.u32HostEvents &=

~VBOX_VIDEO_INFO_HOST_EVENTS_F_VRDP_RESET;

}

if (pDev->pVBVA->hostFlags.u32HostEvents

& VBVA_F_MODE_VRDP)

{

vrdpReportDirtyRect (pDev, &pDev->ddLock.rArea);

}

vboxHwBufferEndUpdate (pDev);

}

#endif /* VBOX_WITH_HGSMI */

pDev->ddLock.bLocked = FALSE;

}

lpUnlock->ddRVal = DD_OK;

return DDHAL_DRIVER_NOTHANDLED;

}

DWORD APIENTRY DdDestroySurface(PDD_DESTROYSURFACEDATA lpDestroySurface)

{

#ifdef VBOX_WITH_VIDEOHWACCEL

PPDEV pDev = (PPDEV)lpDestroySurface->lpDD->dhpdev;

if(pDev->vhwaInfo.bVHWAEnabled)

{

DD_SURFACE_LOCAL* lpSurfaceLocal = lpDestroySurface->lpDDSurface;

DD_SURFACE_GLOBAL* lpSurfaceGlobal = lpSurfaceLocal->lpGbl;

VBOXVHWACMD* pCmd;

DISPDBG((0, "%s: %p\n", __FUNCTION__, pDev));

pCmd = vboxVHWACommandCreate (pDev, VBOXVHWACMD_TYPE_SURF_DESTROY, sizeof(VBOXVHWACMD_SURF_DESTROY));

// int rc = VERR_GENERAL_FAILURE;

if(pCmd)

{

VBOXVHWACMD_SURF_DESTROY * pBody = VBOXVHWACMD_BODY(pCmd, VBOXVHWACMD_SURF_DESTROY);

PVBOXVHWASURFDESC pDesc = (PVBOXVHWASURFDESC)lpSurfaceGlobal->dwReserved1;

memset(pBody, 0, sizeof(VBOXVHWACMD_SURF_DESTROY));

pBody->u.in.hSurf = pDesc->hHostHandle;

/* we're not interested in completion, just send the command */

vboxVHWACommandSubmitAsynchAndComplete(pDev, pCmd);

vboxVHWASurfDescFree(pDesc);

lpSurfaceGlobal->dwReserved1 = (ULONG_PTR)NULL;

lpDestroySurface->ddRVal = DD_OK;

}

else

{

lpDestroySurface->ddRVal = DDERR_GENERIC;

}

}

else

#endif

lpDestroySurface->ddRVal = DD_OK;

/* we're not managing video memory currently, so return DDHAL_DRIVER_NOTHANDLED */

return DDHAL_DRIVER_NOTHANDLED;

}

DWORD APIENTRY DdSetExclusiveMode(PDD_SETEXCLUSIVEMODEDATA lpSetExclusiveMode)

{

PPDEV pDev = (PPDEV)lpSetExclusiveMode->lpDD->dhpdev;

DISPDBG((0, "%s: %p\n", __FUNCTION__, pDev));

// remember setting of exclusive mode in pDev,

// so GDI can stop to promote DeviceBitmaps into

// video memory

pDev->bDdExclusiveMode = lpSetExclusiveMode->dwEnterExcl;

lpSetExclusiveMode->ddRVal = DD_OK;

return DDHAL_DRIVER_HANDLED;

}

DWORD APIENTRY DdFlipToGDISurface(PDD_FLIPTOGDISURFACEDATA lpFlipToGDISurface)

{

PPDEV pDev = (PPDEV)lpFlipToGDISurface->lpDD->dhpdev;

DISPDBG((0, "%s: %p\n", __FUNCTION__, pDev));

pDev->dwNewDDSurfaceOffset = 0xffffffff;

lpFlipToGDISurface->ddRVal = DD_OK;

//

// we return NOTHANDLED, then the ddraw runtime takes

// care that we flip back to the primary...

//

return DDHAL_DRIVER_NOTHANDLED;

}

DWORD APIENTRY DdFreeDriverMemory(PDD_FREEDRIVERMEMORYDATA lpFreeDriverMemory)

{

PPDEV pDev = (PPDEV)lpFreeDriverMemory->lpDD->dhpdev;

DISPDBG((0, "%s: %p\n", __FUNCTION__, pDev));

lpFreeDriverMemory->ddRVal = DDERR_OUTOFMEMORY;

return DDHAL_DRIVER_HANDLED;

}

#ifdef VBOX_WITH_VIDEOHWACCEL

#ifndef DBG_DDSTUBS

DWORD APIENTRY DdSetColorKey(PDD_SETCOLORKEYDATA lpSetColorKey)

{

PPDEV pDev = (PPDEV)lpSetColorKey->lpDD->dhpdev;

DD_SURFACE_LOCAL* lpSurfaceLocal = lpSetColorKey->lpDDSurface;

DD_SURFACE_GLOBAL* lpSurfaceGlobal = lpSurfaceLocal->lpGbl;

VBOXVHWACMD* pCmd;

DISPDBG((0, "%s\n", __FUNCTION__));

pCmd = vboxVHWACommandCreate (pDev, VBOXVHWACMD_TYPE_SURF_COLORKEY_SET, sizeof(VBOXVHWACMD_SURF_COLORKEY_SET));

// int rc = VERR_GENERAL_FAILURE;

if(pCmd)

{

VBOXVHWACMD_SURF_COLORKEY_SET * pBody = VBOXVHWACMD_BODY(pCmd, VBOXVHWACMD_SURF_COLORKEY_SET);

PVBOXVHWASURFDESC pDesc = (PVBOXVHWASURFDESC)lpSurfaceGlobal->dwReserved1;

memset(pBody, 0, sizeof(VBOXVHWACMD_SURF_COLORKEY_SET));

pBody->u.in.offSurface = (uint64_t)lpSurfaceGlobal->fpVidMem;

pBody->u.in.hSurf = pDesc->hHostHandle;

pBody->u.in.flags = vboxVHWAFromDDCKEYs(lpSetColorKey->dwFlags);

vboxVHWAFromDDCOLORKEY(&pBody->u.in.CKey, &lpSetColorKey->ckNew);

vboxVHWACommandSubmitAsynchAndComplete(pDev, pCmd);

lpSetColorKey->ddRVal = DD_OK;

}

return DDHAL_DRIVER_HANDLED;

}

DWORD APIENTRY DdAddAttachedSurface(PDD_ADDATTACHEDSURFACEDATA lpAddAttachedSurface)

{

DISPDBG((0, "%s\n", __FUNCTION__));

lpAddAttachedSurface->ddRVal = DD_OK;

return DDHAL_DRIVER_HANDLED;

}

DWORD APIENTRY DdBlt(PDD_BLTDATA lpBlt)

{

PPDEV pDev = (PPDEV)lpBlt->lpDD->dhpdev;

DISPDBG((0, "%s\n", __FUNCTION__));

#if DX9_DDI

if(VBOXDD_CHECKFLAG(lpBlt->dwFlags, DDBLT_EXTENDED_PRESENTATION_STRETCHFACTOR))

{

lpBlt->ddRVal = DD_OK;

}

else

#endif

{

DD_SURFACE_LOCAL* lpDestSurfaceLocal = lpBlt->lpDDDestSurface;

DD_SURFACE_GLOBAL* lpDestSurfaceGlobal = lpDestSurfaceLocal->lpGbl;

DD_SURFACE_LOCAL* lpSrcSurfaceLocal = lpBlt->lpDDSrcSurface;

DD_SURFACE_GLOBAL* lpSrcSurfaceGlobal = lpSrcSurfaceLocal->lpGbl;

VBOXVHWACMD* pCmd = vboxVHWACommandCreate (pDev, VBOXVHWACMD_TYPE_SURF_BLT, sizeof(VBOXVHWACMD_SURF_BLT));

// int rc = VERR_GENERAL_FAILURE;

if(pCmd)

{

VBOXVHWACMD_SURF_BLT * pBody = VBOXVHWACMD_BODY(pCmd, VBOXVHWACMD_SURF_BLT);

PVBOXVHWASURFDESC pSrcDesc = (PVBOXVHWASURFDESC)lpSrcSurfaceGlobal->dwReserved1;

PVBOXVHWASURFDESC pDestDesc = (PVBOXVHWASURFDESC)lpDestSurfaceGlobal->dwReserved1;

memset(pBody, 0, sizeof(VBOXVHWACMD_SURF_BLT));

pBody->u.in.offSrcSurface = (uint64_t)lpSrcSurfaceGlobal->fpVidMem;

pBody->u.in.offDstSurface = (uint64_t)lpDestSurfaceGlobal->fpVidMem;

pBody->u.in.hDstSurf = pDestDesc->hHostHandle;

vboxVHWAFromRECTL(&pBody->u.in.dstRect, &lpBlt->rDest);

pBody->u.in.hSrcSurf = pSrcDesc->hHostHandle;

vboxVHWAFromRECTL(&pBody->u.in.srcRect, &lpBlt->rSrc);

pBody->DstGuestSurfInfo = (uint64_t)pDestDesc;

pBody->SrcGuestSurfInfo = (uint64_t)pSrcDesc;

pBody->u.in.flags = vboxVHWAFromDDBLTs(lpBlt->dwFlags);

vboxVHWAFromDDBLTFX(&pBody->u.in.desc, &lpBlt->bltFX);

ASMAtomicIncU32(&pSrcDesc->cPendingBltsSrc);

ASMAtomicIncU32(&pDestDesc->cPendingBltsDst);

vboxVHWARegionAdd(&pDestDesc->NonupdatedMemRegion, &lpBlt->rDest);

vboxVHWARegionTrySubstitute(&pDestDesc->UpdatedMemRegion, &lpBlt->rDest);

if(pSrcDesc->UpdatedMemRegion.bValid)

{

pBody->u.in.xUpdatedSrcMemValid = 1;

vboxVHWAFromRECTL(&pBody->u.in.xUpdatedSrcMemRect, &pSrcDesc->UpdatedMemRegion.Rect);

vboxVHWARegionClear(&pSrcDesc->UpdatedMemRegion);

}

vboxVHWACommandSubmitAsynch(pDev, pCmd, vboxVHWASurfBltCompletion, NULL);

lpBlt->ddRVal = DD_OK;

}

else

{

lpBlt->ddRVal = DDERR_GENERIC;

}

}

return DDHAL_DRIVER_HANDLED;

}

DWORD APIENTRY DdFlip(PDD_FLIPDATA lpFlip)

{

PPDEV pDev = (PPDEV)lpFlip->lpDD->dhpdev;

DD_SURFACE_LOCAL* lpTargSurfaceLocal = lpFlip->lpSurfTarg;

DD_SURFACE_GLOBAL* lpTargSurfaceGlobal = lpTargSurfaceLocal->lpGbl;

DD_SURFACE_LOCAL* lpCurrSurfaceLocal = lpFlip->lpSurfCurr;

DD_SURFACE_GLOBAL* lpCurrSurfaceGlobal = lpCurrSurfaceLocal->lpGbl;

PVBOXVHWASURFDESC pCurrDesc = (PVBOXVHWASURFDESC)lpCurrSurfaceGlobal->dwReserved1;

PVBOXVHWASURFDESC pTargDesc = (PVBOXVHWASURFDESC)lpTargSurfaceGlobal->dwReserved1;

VBOXVHWACMD* pCmd;

DISPDBG((0, "%s\n", __FUNCTION__));

if(

ASMAtomicUoReadU32(&pCurrDesc->cPendingFlipsTarg)

|| ASMAtomicUoReadU32(&pCurrDesc->cPendingFlipsCurr)

|| ASMAtomicUoReadU32(&pTargDesc->cPendingFlipsTarg)

|| ASMAtomicUoReadU32(&pTargDesc->cPendingFlipsCurr))

{

/* ensure we have host cmds processed to update pending blits and flips */

vboxVHWACommandCheckHostCmds(pDev);

if(

// ASMAtomicUoReadU32(&pDesc->cPendingBltsSrc)

// || ASMAtomicUoReadU32(&pDesc->cPendingBltsDst)

// ||

ASMAtomicUoReadU32(&pCurrDesc->cPendingFlipsTarg)

|| ASMAtomicUoReadU32(&pCurrDesc->cPendingFlipsCurr)

|| ASMAtomicUoReadU32(&pTargDesc->cPendingFlipsTarg)

|| ASMAtomicUoReadU32(&pTargDesc->cPendingFlipsCurr))

{

lpFlip->ddRVal = DDERR_WASSTILLDRAWING;

return DDHAL_DRIVER_HANDLED;

}

}

pCmd = vboxVHWACommandCreate (pDev, VBOXVHWACMD_TYPE_SURF_FLIP, sizeof(VBOXVHWACMD_SURF_FLIP));

// int rc = VERR_GENERAL_FAILURE;

if(pCmd)

{

VBOXVHWACMD_SURF_FLIP * pBody = VBOXVHWACMD_BODY(pCmd, VBOXVHWACMD_SURF_FLIP);

memset(pBody, 0, sizeof(VBOXVHWACMD_SURF_FLIP));

pBody->u.in.offCurrSurface = (uint64_t)lpCurrSurfaceGlobal->fpVidMem;

pBody->u.in.offTargSurface = (uint64_t)lpTargSurfaceGlobal->fpVidMem;

pBody->u.in.hTargSurf = pTargDesc->hHostHandle;

pBody->u.in.hCurrSurf = pCurrDesc->hHostHandle;

pBody->TargGuestSurfInfo = (uint64_t)pTargDesc;

pBody->CurrGuestSurfInfo = (uint64_t)pCurrDesc;

pTargDesc->bVisible = pCurrDesc->bVisible;

pCurrDesc->bVisible = false;

ASMAtomicIncU32(&pCurrDesc->cPendingFlipsCurr);

ASMAtomicIncU32(&pTargDesc->cPendingFlipsTarg);

#ifdef DEBUG

ASMAtomicIncU32(&pCurrDesc->cFlipsCurr);

ASMAtomicIncU32(&pTargDesc->cFlipsTarg);

#endif

if(pTargDesc->UpdatedMemRegion.bValid)

{

pBody->u.in.xUpdatedTargMemValid = 1;

vboxVHWAFromRECTL(&pBody->u.in.xUpdatedTargMemRect, &pTargDesc->UpdatedMemRegion.Rect);

vboxVHWARegionClear(&pTargDesc->UpdatedMemRegion);

}

vboxVHWACommandSubmitAsynch(pDev, pCmd, vboxVHWASurfFlipCompletion, NULL);

lpFlip->ddRVal = DD_OK;

}

else

{

lpFlip->ddRVal = DDERR_GENERIC;

}

return DDHAL_DRIVER_HANDLED;

}

DWORD APIENTRY DdGetBltStatus(PDD_GETBLTSTATUSDATA lpGetBltStatus)

{

PPDEV pDev = (PPDEV)lpGetBltStatus->lpDD->dhpdev;

DISPDBG((0, "%s\n", __FUNCTION__));

if(lpGetBltStatus->dwFlags == DDGBS_CANBLT)

{

lpGetBltStatus->ddRVal = DD_OK;

}

else /* DDGBS_ISBLTDONE */

{

DD_SURFACE_LOCAL* lpSurfaceLocal = lpGetBltStatus->lpDDSurface;

DD_SURFACE_GLOBAL* lpSurfaceGlobal = lpSurfaceLocal->lpGbl;

PVBOXVHWASURFDESC pDesc = (PVBOXVHWASURFDESC)lpSurfaceGlobal->dwReserved1;

if(

ASMAtomicUoReadU32(&pDesc->cPendingBltsSrc)

|| ASMAtomicUoReadU32(&pDesc->cPendingBltsDst)

// || ASMAtomicUoReadU32(&pDesc->cPendingFlipsTarg)

// || ASMAtomicUoReadU32(&pDesc->cPendingFlipsCurr)

)

{

/* ensure we have host cmds processed to update pending blits and flips */

vboxVHWACommandCheckHostCmds(pDev);

if(

ASMAtomicUoReadU32(&pDesc->cPendingBltsSrc)

|| ASMAtomicUoReadU32(&pDesc->cPendingBltsDst)

// || ASMAtomicUoReadU32(&pDesc->cPendingFlipsTarg)

// || ASMAtomicUoReadU32(&pDesc->cPendingFlipsCurr)

)

{

lpGetBltStatus->ddRVal = DDERR_WASSTILLDRAWING;

}

else

{

lpGetBltStatus->ddRVal = DD_OK;

}

}

else

{

lpGetBltStatus->ddRVal = DD_OK;

}

}

return DDHAL_DRIVER_HANDLED;

}

DWORD APIENTRY DdGetFlipStatus(PDD_GETFLIPSTATUSDATA lpGetFlipStatus)

{

PPDEV pDev = (PPDEV)lpGetFlipStatus->lpDD->dhpdev;

DD_SURFACE_LOCAL* lpSurfaceLocal = lpGetFlipStatus->lpDDSurface;

DD_SURFACE_GLOBAL* lpSurfaceGlobal = lpSurfaceLocal->lpGbl;

PVBOXVHWASURFDESC pDesc = (PVBOXVHWASURFDESC)lpSurfaceGlobal->dwReserved1;

DISPDBG((0, "%s\n", __FUNCTION__));

if(

ASMAtomicUoReadU32(&pDesc->cPendingFlipsTarg)

|| ASMAtomicUoReadU32(&pDesc->cPendingFlipsCurr)

)

{

/* ensure we have host cmds processed to update pending blits and flips */

vboxVHWACommandCheckHostCmds(pDev);

if(

// ASMAtomicUoReadU32(&pDesc->cPendingBltsSrc)

// || ASMAtomicUoReadU32(&pDesc->cPendingBltsDst)

// ||

ASMAtomicUoReadU32(&pDesc->cPendingFlipsTarg)

|| ASMAtomicUoReadU32(&pDesc->cPendingFlipsCurr)

)

{

lpGetFlipStatus->ddRVal = DDERR_WASSTILLDRAWING;

}

else

{

lpGetFlipStatus->ddRVal = DD_OK;

}

}

else

{

lpGetFlipStatus->ddRVal = DD_OK;

}

return DDHAL_DRIVER_HANDLED;

}

DWORD APIENTRY DdSetOverlayPosition(PDD_SETOVERLAYPOSITIONDATA lpSetOverlayPosition)

{

PPDEV pDev = (PPDEV)lpSetOverlayPosition->lpDD->dhpdev;

DD_SURFACE_LOCAL* lpDestSurfaceLocal = lpSetOverlayPosition->lpDDDestSurface;

DD_SURFACE_GLOBAL* lpDestSurfaceGlobal = lpDestSurfaceLocal->lpGbl;

DD_SURFACE_LOCAL* lpSrcSurfaceLocal = lpSetOverlayPosition->lpDDSrcSurface;

DD_SURFACE_GLOBAL* lpSrcSurfaceGlobal = lpSrcSurfaceLocal->lpGbl;

VBOXVHWACMD* pCmd;

PVBOXVHWASURFDESC pSrcDesc = (PVBOXVHWASURFDESC)lpSrcSurfaceGlobal->dwReserved1;

PVBOXVHWASURFDESC pDestDesc = (PVBOXVHWASURFDESC)lpDestSurfaceGlobal->dwReserved1;

DISPDBG((0, "%s\n", __FUNCTION__));

if(!pSrcDesc->bVisible)

{

#ifdef DEBUG_misha

AssertBreakpoint();

#endif

lpSetOverlayPosition->ddRVal = DDERR_GENERIC;

return DDHAL_DRIVER_HANDLED;

}

pCmd = vboxVHWACommandCreate (pDev, VBOXVHWACMD_TYPE_SURF_OVERLAY_SETPOSITION, sizeof(VBOXVHWACMD_SURF_OVERLAY_SETPOSITION));

// int rc = VERR_GENERAL_FAILURE;

if(pCmd)

{

VBOXVHWACMD_SURF_OVERLAY_SETPOSITION * pBody = VBOXVHWACMD_BODY(pCmd, VBOXVHWACMD_SURF_OVERLAY_SETPOSITION);

memset(pBody, 0, sizeof(VBOXVHWACMD_SURF_OVERLAY_SETPOSITION));

pBody->u.in.offSrcSurface = (uint64_t)lpSrcSurfaceGlobal->fpVidMem;

pBody->u.in.offDstSurface = (uint64_t)lpDestSurfaceGlobal->fpVidMem;

pBody->u.in.hDstSurf = pDestDesc->hHostHandle;

pBody->u.in.hSrcSurf = pSrcDesc->hHostHandle;

pBody->u.in.xPos = lpSetOverlayPosition->lXPos;

pBody->u.in.yPos = lpSetOverlayPosition->lYPos;

vboxVHWACommandSubmitAsynchAndComplete(pDev, pCmd);

lpSetOverlayPosition->ddRVal = DD_OK;

}

return DDHAL_DRIVER_HANDLED;

}

DWORD APIENTRY DdUpdateOverlay(PDD_UPDATEOVERLAYDATA lpUpdateOverlay)

{

PPDEV pDev = (PPDEV)lpUpdateOverlay->lpDD->dhpdev;

DD_SURFACE_LOCAL* lpDestSurfaceLocal = lpUpdateOverlay->lpDDDestSurface;

DD_SURFACE_LOCAL* lpSrcSurfaceLocal = lpUpdateOverlay->lpDDSrcSurface;

DD_SURFACE_GLOBAL* lpSrcSurfaceGlobal = lpSrcSurfaceLocal->lpGbl;

VBOXVHWACMD* pCmd;

PVBOXVHWASURFDESC pSrcDesc = (PVBOXVHWASURFDESC)lpSrcSurfaceGlobal->dwReserved1;

DISPDBG((0, "%s\n", __FUNCTION__));

pCmd = vboxVHWACommandCreate (pDev, VBOXVHWACMD_TYPE_SURF_OVERLAY_UPDATE, sizeof(VBOXVHWACMD_SURF_OVERLAY_UPDATE));

// int rc = VERR_GENERAL_FAILURE;

if(pCmd)

{

VBOXVHWACMD_SURF_OVERLAY_UPDATE * pBody = VBOXVHWACMD_BODY(pCmd, VBOXVHWACMD_SURF_OVERLAY_UPDATE);

memset(pBody, 0, sizeof(VBOXVHWACMD_SURF_OVERLAY_UPDATE));

pBody->u.in.offSrcSurface = (uint64_t)lpSrcSurfaceGlobal->fpVidMem;

pBody->u.in.hSrcSurf = pSrcDesc->hHostHandle;

vboxVHWAFromRECTL(&pBody->u.in.dstRect, &lpUpdateOverlay->rDest);

vboxVHWAFromRECTL(&pBody->u.in.srcRect, &lpUpdateOverlay->rSrc);

pBody->u.in.flags = vboxVHWAFromDDOVERs(lpUpdateOverlay->dwFlags);

vboxVHWAFromDDOVERLAYFX(&pBody->u.in.desc, &lpUpdateOverlay->overlayFX);

if(lpUpdateOverlay->dwFlags & DDOVER_HIDE)

{

pSrcDesc->bVisible = false;

}

else if(lpUpdateOverlay->dwFlags & DDOVER_SHOW)

{

pSrcDesc->bVisible = true;

if(pSrcDesc->UpdatedMemRegion.bValid)

{

pBody->u.in.xUpdatedSrcMemValid = 1;

vboxVHWAFromRECTL(&pBody->u.in.xUpdatedSrcMemRect, &pSrcDesc->UpdatedMemRegion.Rect);

vboxVHWARegionClear(&pSrcDesc->UpdatedMemRegion);

}

}

if(lpDestSurfaceLocal)

{

DD_SURFACE_GLOBAL* lpDestSurfaceGlobal = lpDestSurfaceLocal->lpGbl;

PVBOXVHWASURFDESC pDestDesc = (PVBOXVHWASURFDESC)lpDestSurfaceGlobal->dwReserved1;

pBody->u.in.hDstSurf = pDestDesc->hHostHandle;

pBody->u.in.offDstSurface = (uint64_t)lpDestSurfaceGlobal->fpVidMem;

}

vboxVHWACommandSubmitAsynchAndComplete(pDev, pCmd);

lpUpdateOverlay->ddRVal = DD_OK;

}

return DDHAL_DRIVER_HANDLED;

}

#else

DWORD APIENTRY DdSetColorKey(PDD_SETCOLORKEYDATA lpSetColorKey)

{

DISPDBG((0, "%s\n", __FUNCTION__));

lpSetColorKey->ddRVal = DD_OK;

return DDHAL_DRIVER_HANDLED;

}

DWORD APIENTRY DdAddAttachedSurface(PDD_ADDATTACHEDSURFACEDATA lpAddAttachedSurface)

{

DISPDBG((0, "%s\n", __FUNCTION__));

lpAddAttachedSurface->ddRVal = DD_OK;

return DDHAL_DRIVER_HANDLED;

}

DWORD APIENTRY DdBlt(PDD_BLTDATA lpBlt)

{

DISPDBG((0, "%s\n", __FUNCTION__));

lpBlt->ddRVal = DD_OK;

return DDHAL_DRIVER_HANDLED;

}

DWORD APIENTRY DdFlip(PDD_FLIPDATA lpFlip)

{

DISPDBG((0, "%s\n", __FUNCTION__));

lpFlip->ddRVal = DD_OK;

return DDHAL_DRIVER_HANDLED;

}

DWORD APIENTRY DdGetBltStatus(PDD_GETBLTSTATUSDATA lpGetBltStatus)

{

DISPDBG((0, "%s\n", __FUNCTION__));

if(lpGetBltStatus->dwFlags == DDGBS_CANBLT)

{

lpGetBltStatus->ddRVal = DD_OK;

}

else

{

lpGetBltStatus->ddRVal = DD_OK;

}

return DDHAL_DRIVER_HANDLED;

}

DWORD APIENTRY DdGetFlipStatus(PDD_GETFLIPSTATUSDATA lpGetFlipStatus)

{

DISPDBG((0, "%s\n", __FUNCTION__));

if(lpGetFlipStatus->dwFlags == DDGFS_CANFLIP)

{

lpGetFlipStatus->ddRVal = DD_OK;

}

else

{

lpGetFlipStatus->ddRVal = DD_OK;

}

return DDHAL_DRIVER_HANDLED;

}

DWORD APIENTRY DdSetOverlayPosition(PDD_SETOVERLAYPOSITIONDATA lpSetOverlayPosition)

{

DISPDBG((0, "%s\n", __FUNCTION__));

lpSetOverlayPosition->ddRVal = DD_OK;

return DDHAL_DRIVER_HANDLED;

}

DWORD APIENTRY DdUpdateOverlay(PDD_UPDATEOVERLAYDATA lpUpdateOverlay)

{

DISPDBG((0, "%s\n", __FUNCTION__));

lpUpdateOverlay->ddRVal = DD_OK;

return DDHAL_DRIVER_HANDLED;

}

#endif

static void

setupRops(

LPBYTE proplist,

LPDWORD proptable,

int cnt )

{

int i;

DWORD idx;

DWORD bit;

DWORD rop;

for(i=0; i<cnt; i++)

{

rop = proplist[i];

idx = rop / 32;

bit = 1L << ((DWORD)(rop % 32));

proptable[idx] |= bit;

}

} // setupRops

static BYTE ropListNT[] =

{

SRCCOPY >> 16

};

static DWORD rops[DD_ROP_SPACE] = { 0 };

#if 1

static bool

getDDHALInfo(

PPDEV pDev,

DD_HALINFO* pHALInfo)

{

int i;

if(!VBOXVHWA_CAP(pDev, VBOXVHWA_CAPS_BLT) && !VBOXVHWA_CAP(pDev, VBOXVHWA_CAPS_OVERLAY))

return false;

pHALInfo->ddCaps.dwCaps |= vboxVHWAToDDCAPS(pDev->vhwaInfo.caps);

if(VBOXVHWA_CAP(pDev, VBOXVHWA_CAPS_BLT))

{

// Setup the ROPS we do.

//TODO: hardcoded for now

setupRops( ropListNT,

rops,

sizeof(ropListNT)/sizeof(ropListNT[0]));

//

// ROPS supported

//

for( i=0;i<DD_ROP_SPACE;i++ )

{

pHALInfo->ddCaps.dwRops[i] = rops[i];

}

}

pHALInfo->ddCaps.ddsCaps.dwCaps |= vboxVHWAToDDSCAPS(pDev->vhwaInfo.surfaceCaps);

pHALInfo->ddCaps.dwCaps2 = vboxVHWAToDDCAPS2(pDev->vhwaInfo.caps2);

// We need to set this bit up in order to be able to do

// out own texture management

// We need to flag we can run in windowed mode, otherwise we

// might get restricted by apps to run in fullscreen only

// Also permit surfaces wider than the display buffer.

// We need to flag we support dynamic textures. That is , apps can

// lock with high frequency video memory textures without paying a

// penalty for it. Since on this sample driver we only support

// linear memory formats for textures we don't need to do anything

// else for this support. Otherwise we would have to keep two surfaces

// for textures created with the DDSCAPS2_HINTDYNAMIC hint in order

// to efficiently do the linear<->swizzled transformation or keep the

// texture permanantly in an unswizzled state.

#if DX9_DDI

// Notice that dynamic textures MUST be supported in order to instantiate a DX9 device

#endif // DX9_DDI

// P3RX can do:

// 1. Stretching/Shrinking

// 2. YUV->RGB conversion

// 3. Mirroring in X and Y

// 4. ColorKeying from a source color and a source color space

if(VBOXVHWA_CAP(pDev, VBOXVHWA_CAPS_BLT)

&& VBOXVHWA_CAP(pDev, VBOXVHWA_CAPS_BLTSTRETCH))

{

// Special effects caps

//TODO: filter them out

pHALInfo->ddCaps.dwFXCaps |= DDFXCAPS_BLTSTRETCHY |

DDFXCAPS_BLTSTRETCHX |

DDFXCAPS_BLTSTRETCHYN |

DDFXCAPS_BLTSTRETCHXN |

DDFXCAPS_BLTSHRINKY |

DDFXCAPS_BLTSHRINKX |

DDFXCAPS_BLTSHRINKYN |

DDFXCAPS_BLTSHRINKXN;

// DDFXCAPS_BLTARITHSTRETCHY

// DDFXCAPS_BLTARITHSTRETCHYN

// DDFXCAPS_BLTMIRRORLEFTRIGHT

// DDFXCAPS_BLTMIRRORUPDOWN

// DDFXCAPS_BLTROTATION90

}

if(VBOXVHWA_CAP(pDev, VBOXVHWA_CAPS_OVERLAY)

&& VBOXVHWA_CAP(pDev, VBOXVHWA_CAPS_OVERLAYSTRETCH))

{

// Special effects caps

//TODO: filter them out

pHALInfo->ddCaps.dwFXCaps |= DDFXCAPS_OVERLAYSTRETCHY |

DDFXCAPS_OVERLAYSTRETCHX |

DDFXCAPS_OVERLAYSTRETCHYN |

DDFXCAPS_OVERLAYSTRETCHXN |

DDFXCAPS_OVERLAYSHRINKY |

DDFXCAPS_OVERLAYSHRINKX |

DDFXCAPS_OVERLAYSHRINKYN |

DDFXCAPS_OVERLAYSHRINKXN;

// DDFXCAPS_OVERLAYARITHSTRETCHY

// DDFXCAPS_OVERLAYARITHSTRETCHYN

// DDFXCAPS_OVERLAYMIRRORLEFTRIGHT

// DDFXCAPS_OVERLAYMIRRORUPDOWN

}

{

pHALInfo->ddCaps.dwCKeyCaps = vboxVHWAToDDCKEYCAPS(pDev->vhwaInfo.colorKeyCaps);

}

pHALInfo->ddCaps.dwSVBFXCaps = 0;

// Z Buffer is only 16 Bits

{

if(VBOXVHWA_CAP(pDev, VBOXVHWA_CAPS_OVERLAY)) /* no overlay support for now */

{

// Overlay is free to use.

pHALInfo->ddCaps.dwMaxVisibleOverlays = pDev->vhwaInfo.numOverlays;

pHALInfo->ddCaps.dwCurrVisibleOverlays = 0;

// Indicates that Perm3 has no stretch ratio limitation

pHALInfo->ddCaps.dwMinOverlayStretch = 1;

pHALInfo->ddCaps.dwMaxOverlayStretch = 32000;

}

}

// Won't do Video-Sys mem Blits.

pHALInfo->ddCaps.dwVSBCaps = 0;

pHALInfo->ddCaps.dwVSBCKeyCaps = 0;

pHALInfo->ddCaps.dwVSBFXCaps = 0;

for( i=0;i<DD_ROP_SPACE;i++ )

{

pHALInfo->ddCaps.dwVSBRops[i] = 0;

}

// Won't do Sys-Sys mem Blits

pHALInfo->ddCaps.dwSSBCaps = 0;

pHALInfo->ddCaps.dwSSBCKeyCaps = 0;

pHALInfo->ddCaps.dwSSBFXCaps = 0;

for( i=0;i<DD_ROP_SPACE;i++ )

{

pHALInfo->ddCaps.dwSSBRops[i] = 0;

}

//

// bit depths supported for alpha and Z

//

return true;

} // getDDHALInfo

#else

getDDHALInfo2(

PPDEV pDev,

DD_HALINFO* pHALInfo)

{

int i;

#if 0

/* TODO: only enable features supported by the host backend & host hw

// Setup the ROPS we do.

setupRops( ropListNT,

rops,

sizeof(ropListNT)/sizeof(ropListNT[0]));

// The most basic DirectDraw functionality

pHALInfo->ddCaps.dwCaps |= DDCAPS_BLT

| DDCAPS_BLTQUEUE

| DDCAPS_BLTCOLORFILL

;

#endif

pHALInfo->ddCaps.ddsCaps.dwCaps |= DDSCAPS_OFFSCREENPLAIN

| DDSCAPS_PRIMARYSURFACE

| DDSCAPS_FLIP;

#if 0

pHALInfo->ddCaps.dwCaps |= DDCAPS_3D |

DDCAPS_BLTDEPTHFILL;

pHALInfo->ddCaps.ddsCaps.dwCaps |= DDSCAPS_3DDEVICE |

DDSCAPS_ZBUFFER |

DDSCAPS_ALPHA;

#endif

pHALInfo->ddCaps.dwCaps2 = 0;

// We need to set this bit up in order to be able to do

// out own texture management

// We need to flag we can run in windowed mode, otherwise we

// might get restricted by apps to run in fullscreen only

pHALInfo->ddCaps.dwCaps2 |= DDCAPS2_CANRENDERWINDOWED;

// We need to flag we support dynamic textures. That is , apps can

// lock with high frequency video memory textures without paying a

// penalty for it. Since on this sample driver we only support

// linear memory formats for textures we don't need to do anything

// else for this support. Otherwise we would have to keep two surfaces

// for textures created with the DDSCAPS2_HINTDYNAMIC hint in order

// to efficiently do the linear<->swizzled transformation or keep the

// texture permanantly in an unswizzled state.

#if DX9_DDI

// Notice that dynamic textures MUST be supported in order to instantiate a DX9 device

#endif // DX9_DDI

// P3RX can do:

// 1. Stretching/Shrinking

// 2. YUV->RGB conversion

// 3. Mirroring in X and Y

// 4. ColorKeying from a source color and a source color space

pHALInfo->ddCaps.dwCaps |=

#if 0

DDCAPS_BLTSTRETCH

| DDCAPS_BLTFOURCC

|

#endif

DDCAPS_COLORKEY

;

#if 0

// Special effects caps

pHALInfo->ddCaps.dwFXCaps |= DDFXCAPS_BLTSTRETCHY |

DDFXCAPS_BLTSTRETCHX |

DDFXCAPS_BLTSTRETCHYN |

DDFXCAPS_BLTSTRETCHXN |

DDFXCAPS_BLTSHRINKY |

DDFXCAPS_BLTSHRINKX |

DDFXCAPS_BLTSHRINKYN |

DDFXCAPS_BLTSHRINKXN;

// ColorKey caps

pHALInfo->ddCaps.dwCKeyCaps |= DDCKEYCAPS_SRCBLT |

DDCKEYCAPS_SRCBLTCLRSPACE |

DDCKEYCAPS_DESTBLT |

DDCKEYCAPS_DESTBLTCLRSPACE;

#endif

pHALInfo->ddCaps.dwSVBFXCaps = 0;

#if 0

//mirroring with blitting

pHALInfo->ddCaps.dwFXCaps |= DDFXCAPS_BLTMIRRORUPDOWN |

DDFXCAPS_BLTMIRRORLEFTRIGHT;

pHALInfo->ddCaps.dwCKeyCaps |= DDCKEYCAPS_SRCBLTCLRSPACEYUV;

pHALInfo->ddCaps.ddsCaps.dwCaps |= DDSCAPS_TEXTURE;

#endif

// Z Buffer is only 16 Bits

pHALInfo->ddCaps.ddsCaps.dwCaps |= DDSCAPS_LOCALVIDMEM;

{

{

// Overlay is free to use.

pHALInfo->ddCaps.dwMaxVisibleOverlays = 1;

pHALInfo->ddCaps.dwCurrVisibleOverlays = 0;

pHALInfo->ddCaps.dwCaps |= DDCAPS_OVERLAY |

DDCAPS_OVERLAYFOURCC |

DDCAPS_OVERLAYSTRETCH |

DDCAPS_COLORKEYHWASSIST |

DDCAPS_OVERLAYCANTCLIP;

pHALInfo->ddCaps.dwCKeyCaps |= DDCKEYCAPS_SRCOVERLAY |

DDCKEYCAPS_SRCOVERLAYONEACTIVE |

DDCKEYCAPS_SRCOVERLAYYUV |

DDCKEYCAPS_DESTOVERLAY |

DDCKEYCAPS_DESTOVERLAYONEACTIVE |

DDCKEYCAPS_DESTOVERLAYYUV;

pHALInfo->ddCaps.ddsCaps.dwCaps |= DDSCAPS_OVERLAY;

pHALInfo->ddCaps.dwFXCaps |= DDFXCAPS_OVERLAYSHRINKX |

DDFXCAPS_OVERLAYSHRINKXN |

DDFXCAPS_OVERLAYSHRINKY |

DDFXCAPS_OVERLAYSHRINKYN |

DDFXCAPS_OVERLAYSTRETCHX |

DDFXCAPS_OVERLAYSTRETCHXN |

DDFXCAPS_OVERLAYSTRETCHY |

DDFXCAPS_OVERLAYSTRETCHYN;

// Indicates that Perm3 has no stretch ratio limitation

pHALInfo->ddCaps.dwMinOverlayStretch = 1;

pHALInfo->ddCaps.dwMaxOverlayStretch = 32000;

}

}

// Also permit surfaces wider than the display buffer.

pHALInfo->ddCaps.dwCaps2 |= DDCAPS2_WIDESURFACES;

#if 0

// Enable copy blts betweemn Four CC formats for DShow acceleration

pHALInfo->ddCaps.dwCaps2 |= DDCAPS2_COPYFOURCC;

#endif

// Won't do Video-Sys mem Blits.

pHALInfo->ddCaps.dwVSBCaps = 0;

pHALInfo->ddCaps.dwVSBCKeyCaps = 0;

pHALInfo->ddCaps.dwVSBFXCaps = 0;

for( i=0;i<DD_ROP_SPACE;i++ )

{

pHALInfo->ddCaps.dwVSBRops[i] = 0;

}

// Won't do Sys-Sys mem Blits

pHALInfo->ddCaps.dwSSBCaps = 0;

pHALInfo->ddCaps.dwSSBCKeyCaps = 0;

pHALInfo->ddCaps.dwSSBFXCaps = 0;

for( i=0;i<DD_ROP_SPACE;i++ )

{

pHALInfo->ddCaps.dwSSBRops[i] = 0;

}

//

// bit depths supported for alpha and Z

//

#if 0

// No alpha blending for overlays, so I'm not sure what these should be.

// Because we support 32bpp overlays, it's just that you can't use the

// alpha bits for blending. Pass.

pHALInfo->ddCaps.dwAlphaBltConstBitDepths = DDBD_2 |

DDBD_4 |

DDBD_8;

pHALInfo->ddCaps.dwAlphaBltPixelBitDepths = DDBD_1 |

DDBD_8;

pHALInfo->ddCaps.dwAlphaBltSurfaceBitDepths = DDBD_1 |

DDBD_2 |

DDBD_4 |

DDBD_8;

//

// ROPS supported

//

for( i=0;i<DD_ROP_SPACE;i++ )

{

pHALInfo->ddCaps.dwRops[i] = rops[i];

}

#endif

return true;

} // getDDHALInfo

#endif

static DECLCALLBACK(void) vboxVHWASurfBltCompletion(PPDEV ppdev, VBOXVHWACMD * pCmd, void * pContext)

{

VBOXVHWACMD_SURF_BLT * pBody = VBOXVHWACMD_BODY(pCmd, VBOXVHWACMD_SURF_BLT);

PVBOXVHWASURFDESC pSrcDesc = (PVBOXVHWASURFDESC)pBody->SrcGuestSurfInfo;

PVBOXVHWASURFDESC pDestDesc = (PVBOXVHWASURFDESC)pBody->DstGuestSurfInfo;

ASMAtomicDecU32(&pSrcDesc->cPendingBltsSrc);

ASMAtomicDecU32(&pDestDesc->cPendingBltsDst);

vbvaVHWACommandRelease(ppdev, pCmd);

}

static DECLCALLBACK(void) vboxVHWASurfFlipCompletion(PPDEV ppdev, VBOXVHWACMD * pCmd, void * pContext)

{

VBOXVHWACMD_SURF_FLIP * pBody = VBOXVHWACMD_BODY(pCmd, VBOXVHWACMD_SURF_FLIP);

PVBOXVHWASURFDESC pCurrDesc = (PVBOXVHWASURFDESC)pBody->CurrGuestSurfInfo;

PVBOXVHWASURFDESC pTargDesc = (PVBOXVHWASURFDESC)pBody->TargGuestSurfInfo;

ASMAtomicDecU32(&pCurrDesc->cPendingFlipsCurr);

ASMAtomicDecU32(&pTargDesc->cPendingFlipsTarg);

vbvaVHWACommandRelease(ppdev, pCmd);

}

#endif

#endif /* VBOX_WITH_DDRAW */