reactos/win32ss/gdi/eng/pdevobj.c

/*
 * COPYRIGHT:        See COPYING in the top level directory
 * PROJECT:          ReactOS kernel
 * PURPOSE:          Support for physical devices
 * FILE:             win32ss/gdi/eng/pdevobj.c
 * PROGRAMER:        Timo Kreuzer (timo.kreuzer@reactos.org)
 */

#include <win32k.h>
#define NDEBUG
#include <debug.h>

PPDEVOBJ gppdevPrimary = NULL;

static PPDEVOBJ gppdevList = NULL;
static HSEMAPHORE ghsemPDEV;

INIT_FUNCTION
NTSTATUS
NTAPI
InitPDEVImpl(VOID)
{
    ghsemPDEV = EngCreateSemaphore();
    if (!ghsemPDEV) return STATUS_INSUFFICIENT_RESOURCES;
    return STATUS_SUCCESS;
}

#if DBG
PPDEVOBJ
NTAPI
DbgLookupDHPDEV(DHPDEV dhpdev)
{
    PPDEVOBJ ppdev;

    /* Lock PDEV list */
    EngAcquireSemaphoreShared(ghsemPDEV);

    /* Walk through the list of PDEVs */
    for (ppdev = gppdevList;  ppdev; ppdev = ppdev->ppdevNext)
    {
        /* Compare with the given DHPDEV */
        if (ppdev->dhpdev == dhpdev) break;
    }

    /* Unlock PDEV list */
    EngReleaseSemaphore(ghsemPDEV);

    return ppdev;
}
#endif

PPDEVOBJ
PDEVOBJ_AllocPDEV(VOID)
{
    PPDEVOBJ ppdev;

    ppdev = ExAllocatePoolWithTag(PagedPool, sizeof(PDEVOBJ), GDITAG_PDEV);
    if (!ppdev)
        return NULL;

    RtlZeroMemory(ppdev, sizeof(PDEVOBJ));

    ppdev->hsemDevLock = EngCreateSemaphore();
    if (ppdev->hsemDevLock == NULL)
    {
        ExFreePoolWithTag(ppdev, GDITAG_PDEV);
        return NULL;
    }

    /* Allocate EDD_DIRECTDRAW_GLOBAL for our ReactX driver */
    ppdev->pEDDgpl = ExAllocatePoolWithTag(PagedPool, sizeof(EDD_DIRECTDRAW_GLOBAL), GDITAG_PDEV);
    if (ppdev->pEDDgpl)
        RtlZeroMemory(ppdev->pEDDgpl, sizeof(EDD_DIRECTDRAW_GLOBAL));

    ppdev->cPdevRefs = 1;

    return ppdev;
}

static
VOID
PDEVOBJ_vDeletePDEV(
    PPDEVOBJ ppdev)
{
    EngDeleteSemaphore(ppdev->hsemDevLock);
    if (ppdev->pEDDgpl)
        ExFreePoolWithTag(ppdev->pEDDgpl, GDITAG_PDEV);
    ExFreePoolWithTag(ppdev, GDITAG_PDEV);
}

VOID
NTAPI
PDEVOBJ_vRelease(PPDEVOBJ ppdev)
{
    /* Lock loader */
    EngAcquireSemaphore(ghsemPDEV);

    /* Decrease reference count */
    --ppdev->cPdevRefs;

    ASSERT(ppdev->cPdevRefs >= 0) ;

    /* Check if references are left */
    if (ppdev->cPdevRefs == 0)
    {
        /* Do we have a surface? */
        if (ppdev->pSurface)
        {
            /* Release the surface and let the driver free it */
            SURFACE_ShareUnlockSurface(ppdev->pSurface);
            ppdev->pfn.DisableSurface(ppdev->dhpdev);
        }

        /* Do we have a palette? */
        if(ppdev->ppalSurf)
        {
            PALETTE_ShareUnlockPalette(ppdev->ppalSurf);
        }

        /* Check if the PDEV was enabled */
        if (ppdev->dhpdev != NULL)
        {
            /* Disable the PDEV */
            ppdev->pfn.DisablePDEV(ppdev->dhpdev);
        }

        /* Remove it from list */
        if( ppdev == gppdevList )
            gppdevList = ppdev->ppdevNext ;
        else
        {
            PPDEVOBJ ppdevCurrent = gppdevList;
            BOOL found = FALSE ;
            while (!found && ppdevCurrent->ppdevNext)
            {
                if (ppdevCurrent->ppdevNext == ppdev)
                    found = TRUE;
                else
                    ppdevCurrent = ppdevCurrent->ppdevNext ;
            }
            if(found)
                ppdevCurrent->ppdevNext = ppdev->ppdevNext;
        }

        /* Is this the primary one ? */
        if (ppdev == gppdevPrimary)
            gppdevPrimary = NULL;

        /* Free it */
        PDEVOBJ_vDeletePDEV(ppdev);
    }

    /* Unlock loader */
    EngReleaseSemaphore(ghsemPDEV);

}

BOOL
NTAPI
PDEVOBJ_bEnablePDEV(
    PPDEVOBJ ppdev,
    PDEVMODEW pdevmode,
    PWSTR pwszLogAddress)
{
    PFN_DrvEnablePDEV pfnEnablePDEV;
    ULONG i;

    DPRINT("PDEVOBJ_bEnablePDEV()\n");

    /* Get the DrvEnablePDEV function */
    pfnEnablePDEV = ppdev->pldev->pfn.EnablePDEV;

    /* Call the drivers DrvEnablePDEV function */
    ppdev->dhpdev = pfnEnablePDEV(pdevmode,
                                  pwszLogAddress,
                                  HS_DDI_MAX,
                                  ppdev->ahsurf,
                                  sizeof(GDIINFO),
                                  (PULONG)&ppdev->gdiinfo,
                                  sizeof(DEVINFO),
                                  &ppdev->devinfo,
                                  (HDEV)ppdev,
                                  ppdev->pGraphicsDevice->pwszDescription,
                                  ppdev->pGraphicsDevice->DeviceObject);
    if (ppdev->dhpdev == NULL)
    {
        DPRINT1("Failed to enable PDEV\n");
        return FALSE;
    }

    /* Fix up some values */
    if (ppdev->gdiinfo.ulLogPixelsX == 0)
        ppdev->gdiinfo.ulLogPixelsX = 96;

    if (ppdev->gdiinfo.ulLogPixelsY == 0)
        ppdev->gdiinfo.ulLogPixelsY = 96;

    /* Set raster caps */
    ppdev->gdiinfo.flRaster = RC_OP_DX_OUTPUT | RC_GDI20_OUTPUT | RC_BIGFONT;
    if ((ppdev->gdiinfo.ulTechnology != DT_PLOTTER) && (ppdev->gdiinfo.ulTechnology != DT_CHARSTREAM))
        ppdev->gdiinfo.flRaster |= RC_STRETCHDIB | RC_STRETCHBLT | RC_DIBTODEV | RC_DI_BITMAP | RC_BITMAP64 | RC_BITBLT;
    if (ppdev->gdiinfo.ulTechnology == DT_RASDISPLAY)
        ppdev->gdiinfo.flRaster |= RC_FLOODFILL;
    if (ppdev->devinfo.flGraphicsCaps & GCAPS_PALMANAGED)
        ppdev->gdiinfo.flRaster |= RC_PALETTE;

    /* Setup Palette */
    ppdev->ppalSurf = PALETTE_ShareLockPalette(ppdev->devinfo.hpalDefault);

    /* Setup hatch brushes */
    for (i = 0; i < HS_DDI_MAX; i++)
    {
        if (ppdev->ahsurf[i] == NULL)
            ppdev->ahsurf[i] = gahsurfHatch[i];
    }

    DPRINT("PDEVOBJ_bEnablePDEV - dhpdev = %p\n", ppdev->dhpdev);

    return TRUE;
}

VOID
NTAPI
PDEVOBJ_vCompletePDEV(
    PPDEVOBJ ppdev)
{
    /* Call the drivers DrvCompletePDEV function */
    ppdev->pldev->pfn.CompletePDEV(ppdev->dhpdev, (HDEV)ppdev);
}

PSURFACE
NTAPI
PDEVOBJ_pSurface(
    PPDEVOBJ ppdev)
{
    HSURF hsurf;

    /* Check if there is no surface for this PDEV yet */
    if (ppdev->pSurface == NULL)
    {
        /* Call the drivers DrvEnableSurface */
        hsurf = ppdev->pldev->pfn.EnableSurface(ppdev->dhpdev);
        if (hsurf== NULL)
        {
            DPRINT1("Failed to create PDEV surface!\n");
            return NULL;
        }

        /* Get a reference to the surface */
        ppdev->pSurface = SURFACE_ShareLockSurface(hsurf);
        NT_ASSERT(ppdev->pSurface != NULL);
    }

    /* Increment reference count */
    GDIOBJ_vReferenceObjectByPointer(&ppdev->pSurface->BaseObject);

    DPRINT("PDEVOBJ_pSurface() returning %p\n", ppdev->pSurface);
    return ppdev->pSurface;
}

VOID
NTAPI
PDEVOBJ_vRefreshModeList(
    PPDEVOBJ ppdev)
{
    PGRAPHICS_DEVICE pGraphicsDevice;
    PDEVMODEINFO pdminfo, pdmiNext;
    DEVMODEW dmDefault;
    DEVMODEW dmCurrent;

    /* Lock the PDEV */
    EngAcquireSemaphore(ppdev->hsemDevLock);

    pGraphicsDevice = ppdev->pGraphicsDevice;

    /* Remember our default mode */
    dmDefault = *pGraphicsDevice->pDevModeList[pGraphicsDevice->iDefaultMode].pdm;
    dmCurrent = *ppdev->pdmwDev;

    /* Clear out the modes */
    for (pdminfo = pGraphicsDevice->pdevmodeInfo;
         pdminfo;
         pdminfo = pdmiNext)
    {
        pdmiNext = pdminfo->pdmiNext;
        ExFreePoolWithTag(pdminfo, GDITAG_DEVMODE);
    }
    pGraphicsDevice->pdevmodeInfo = NULL;
    ExFreePoolWithTag(pGraphicsDevice->pDevModeList, GDITAG_GDEVICE);
    pGraphicsDevice->pDevModeList = NULL;

    /* Now re-populate the list */
    if (!EngpPopulateDeviceModeList(pGraphicsDevice, &dmDefault))
    {
        DPRINT1("FIXME: EngpPopulateDeviceModeList failed, we just destroyed a perfectly good mode list\n");
    }

    ppdev->pdmwDev = PDEVOBJ_pdmMatchDevMode(ppdev, &dmCurrent);

    /* Unlock PDEV */
    EngReleaseSemaphore(ppdev->hsemDevLock);
}

PDEVMODEW
NTAPI
PDEVOBJ_pdmMatchDevMode(
    PPDEVOBJ ppdev,
    PDEVMODEW pdm)
{
    PGRAPHICS_DEVICE pGraphicsDevice;
    PDEVMODEW pdmCurrent;
    ULONG i;
    DWORD dwFields;

    pGraphicsDevice = ppdev->pGraphicsDevice;

    for (i = 0; i < pGraphicsDevice->cDevModes; i++)
    {
        pdmCurrent = pGraphicsDevice->pDevModeList[i].pdm;

        /* Compare asked DEVMODE fields
         * Only compare those that are valid in both DEVMODE structs */
        dwFields = pdmCurrent->dmFields & pdm->dmFields ;

        /* For now, we only need those */
        if ((dwFields & DM_BITSPERPEL) &&
            (pdmCurrent->dmBitsPerPel != pdm->dmBitsPerPel)) continue;
        if ((dwFields & DM_PELSWIDTH) &&
            (pdmCurrent->dmPelsWidth != pdm->dmPelsWidth)) continue;
        if ((dwFields & DM_PELSHEIGHT) &&
            (pdmCurrent->dmPelsHeight != pdm->dmPelsHeight)) continue;
        if ((dwFields & DM_DISPLAYFREQUENCY) &&
            (pdmCurrent->dmDisplayFrequency != pdm->dmDisplayFrequency)) continue;

        /* Match! Return the DEVMODE */
        return pdmCurrent;
    }

    /* Nothing found */
    return NULL;
}

static
PPDEVOBJ
EngpCreatePDEV(
    PUNICODE_STRING pustrDeviceName,
    PDEVMODEW pdm)
{
    PGRAPHICS_DEVICE pGraphicsDevice;
    PPDEVOBJ ppdev;
    DPRINT("EngpCreatePDEV(%wZ, %p)\n", pustrDeviceName, pdm);

    /* Try to find the GRAPHICS_DEVICE */
    if (pustrDeviceName)
    {
        pGraphicsDevice = EngpFindGraphicsDevice(pustrDeviceName, 0, 0);
        if (!pGraphicsDevice)
        {
            DPRINT1("No GRAPHICS_DEVICE found for %ls!\n",
                    pustrDeviceName ? pustrDeviceName->Buffer : 0);
            return NULL;
        }
    }
    else
    {
        pGraphicsDevice = gpPrimaryGraphicsDevice;
    }

    /* Allocate a new PDEVOBJ */
    ppdev = PDEVOBJ_AllocPDEV();
    if (!ppdev)
    {
        DPRINT1("failed to allocate a PDEV\n");
        return NULL;
    }

    /* If no DEVMODEW is given, ... */
    if (!pdm)
    {
        /* ... use the device's default one */
        pdm = pGraphicsDevice->pDevModeList[pGraphicsDevice->iDefaultMode].pdm;
        DPRINT("Using iDefaultMode = %lu\n", pGraphicsDevice->iDefaultMode);
    }

    /* Try to get a diplay driver */
    ppdev->pldev = EngLoadImageEx(pdm->dmDeviceName, LDEV_DEVICE_DISPLAY);
    if (!ppdev->pldev)
    {
        DPRINT1("Could not load display driver '%ls', '%ls'\n",
                pGraphicsDevice->pDiplayDrivers,
                pdm->dmDeviceName);
        PDEVOBJ_vRelease(ppdev);
        return NULL;
    }

    /* Copy the function table */
    ppdev->pfn = ppdev->pldev->pfn;

    /* Set MovePointer function */
    ppdev->pfnMovePointer = ppdev->pfn.MovePointer;
    if (!ppdev->pfnMovePointer)
        ppdev->pfnMovePointer = EngMovePointer;

    ppdev->pGraphicsDevice = pGraphicsDevice;

    // DxEngGetHdevData asks for Graphics DeviceObject in hSpooler field
    ppdev->hSpooler = ppdev->pGraphicsDevice->DeviceObject;

    // Should we change the ative mode of pGraphicsDevice ?
    ppdev->pdmwDev = PDEVOBJ_pdmMatchDevMode(ppdev, pdm) ;

    /* FIXME! */
    ppdev->flFlags = PDEV_DISPLAY;

    /* HACK: Don't use the pointer */
    ppdev->Pointer.Exclude.right = -1;

    /* Call the driver to enable the PDEV */
    if (!PDEVOBJ_bEnablePDEV(ppdev, pdm, NULL))
    {
        DPRINT1("Failed to enable PDEV!\n");
        PDEVOBJ_vRelease(ppdev);
        return NULL;
    }

    /* FIXME: this must be done in a better way */
    pGraphicsDevice->StateFlags |= DISPLAY_DEVICE_ATTACHED_TO_DESKTOP;

    /* Tell the driver that the PDEV is ready */
    PDEVOBJ_vCompletePDEV(ppdev);

    /* Return the PDEV */
    return ppdev;
}

FORCEINLINE
VOID
SwitchPointer(
    _Inout_ PVOID pvPointer1,
    _Inout_ PVOID pvPointer2)
{
    PVOID *ppvPointer1 = pvPointer1;
    PVOID *ppvPointer2 = pvPointer2;
    PVOID pvTemp;

    pvTemp = *ppvPointer1;
    *ppvPointer1 = *ppvPointer2;
    *ppvPointer2 = pvTemp;
}

VOID
NTAPI
PDEVOBJ_vSwitchPdev(
    PPDEVOBJ ppdev,
    PPDEVOBJ ppdev2)
{
    union
    {
        DRIVER_FUNCTIONS pfn;
        GDIINFO gdiinfo;
        DEVINFO devinfo;
        DWORD StateFlags;
    } temp;

    /* Exchange driver functions */
    temp.pfn = ppdev->pfn;
    ppdev->pfn = ppdev2->pfn;
    ppdev2->pfn = temp.pfn;

    /* Exchange LDEVs */
    SwitchPointer(&ppdev->pldev, &ppdev2->pldev);

    /* Exchange DHPDEV */
    SwitchPointer(&ppdev->dhpdev, &ppdev2->dhpdev);

    /* Exchange surfaces and associate them with their new PDEV */
    SwitchPointer(&ppdev->pSurface, &ppdev2->pSurface);
    ppdev->pSurface->SurfObj.hdev = (HDEV)ppdev;
    ppdev2->pSurface->SurfObj.hdev = (HDEV)ppdev2;

    /* Exchange devinfo */
    temp.devinfo = ppdev->devinfo;
    ppdev->devinfo = ppdev2->devinfo;
    ppdev2->devinfo = temp.devinfo;

    /* Exchange gdiinfo */
    temp.gdiinfo = ppdev->gdiinfo;
    ppdev->gdiinfo = ppdev2->gdiinfo;
    ppdev2->gdiinfo = temp.gdiinfo;

    /* Exchange DEVMODE */
    SwitchPointer(&ppdev->pdmwDev, &ppdev2->pdmwDev);

    /* Exchange state flags */
    temp.StateFlags = ppdev->pGraphicsDevice->StateFlags;
    ppdev->pGraphicsDevice->StateFlags = ppdev2->pGraphicsDevice->StateFlags;
    ppdev2->pGraphicsDevice->StateFlags = temp.StateFlags;

    /* Notify each driver instance of its new HDEV association */
    ppdev->pfn.CompletePDEV(ppdev->dhpdev, (HDEV)ppdev);
    ppdev2->pfn.CompletePDEV(ppdev2->dhpdev, (HDEV)ppdev2);
}


BOOL
NTAPI
PDEVOBJ_bSwitchMode(
    PPDEVOBJ ppdev,
    PDEVMODEW pdm)
{
    UNICODE_STRING ustrDevice;
    PPDEVOBJ ppdevTmp;
    PSURFACE pSurface;
    BOOL retval = FALSE;

    /* Lock the PDEV */
    EngAcquireSemaphore(ppdev->hsemDevLock);

    /* And everything else */
    EngAcquireSemaphore(ghsemPDEV);

    DPRINT1("PDEVOBJ_bSwitchMode, ppdev = %p, pSurface = %p\n", ppdev, ppdev->pSurface);

    // Lookup the GraphicsDevice + select DEVMODE
    // pdm = PDEVOBJ_pdmMatchDevMode(ppdev, pdm);

    /* 1. Temporarily disable the current PDEV and reset video to its default mode */
    if (!ppdev->pfn.AssertMode(ppdev->dhpdev, FALSE))
    {
        DPRINT1("DrvAssertMode(FALSE) failed\n");
        goto leave;
    }

    /* 2. Create new PDEV */
    RtlInitUnicodeString(&ustrDevice, ppdev->pGraphicsDevice->szWinDeviceName);
    ppdevTmp = EngpCreatePDEV(&ustrDevice, pdm);
    if (!ppdevTmp)
    {
        DPRINT1("Failed to create a new PDEV\n");
        goto leave2;
    }

    /* 3. Create a new surface */
    pSurface = PDEVOBJ_pSurface(ppdevTmp);
    if (!pSurface)
    {
        DPRINT1("PDEVOBJ_pSurface failed\n");
        PDEVOBJ_vRelease(ppdevTmp);
        goto leave2;
    }

    /* 4. Get DirectDraw information */
    /* 5. Enable DirectDraw Not traced */
    /* 6. Copy old PDEV state to new PDEV instance */

    /* 7. Switch the PDEVs */
    PDEVOBJ_vSwitchPdev(ppdev, ppdevTmp);

    /* 8. Disable DirectDraw */

    PDEVOBJ_vRelease(ppdevTmp);

    /* Update primary display capabilities */
    if(ppdev == gppdevPrimary)
    {
        PDEVOBJ_vGetDeviceCaps(ppdev, &GdiHandleTable->DevCaps);
    }

    /* Success! */
    retval = TRUE;

leave2:
    /* Set the new video mode, or restore the original one in case of failure */
    if (!ppdev->pfn.AssertMode(ppdev->dhpdev, TRUE))
    {
        DPRINT1("DrvAssertMode(TRUE) failed\n");
    }

leave:
    /* Unlock everything else */
    EngReleaseSemaphore(ghsemPDEV);
    /* Unlock the PDEV */
    EngReleaseSemaphore(ppdev->hsemDevLock);

    DPRINT1("leave, ppdev = %p, pSurface = %p\n", ppdev, ppdev->pSurface);

    return retval;
}


PPDEVOBJ
NTAPI
EngpGetPDEV(
    _In_opt_ PUNICODE_STRING pustrDeviceName)
{
    UNICODE_STRING ustrCurrent;
    PPDEVOBJ ppdev;
    PGRAPHICS_DEVICE pGraphicsDevice;

    /* Acquire PDEV lock */
    EngAcquireSemaphore(ghsemPDEV);

    /* Did the caller pass a device name? */
    if (pustrDeviceName)
    {
        /* Loop all present PDEVs */
        for (ppdev = gppdevList; ppdev; ppdev = ppdev->ppdevNext)
        {
            /* Get a pointer to the GRAPHICS_DEVICE */
            pGraphicsDevice = ppdev->pGraphicsDevice;

            /* Compare the name */
            RtlInitUnicodeString(&ustrCurrent, pGraphicsDevice->szWinDeviceName);
            if (RtlEqualUnicodeString(pustrDeviceName, &ustrCurrent, FALSE))
            {
                /* Found! */
                break;
            }
        }
    }
    else
    {
        /* Otherwise use the primary PDEV */
        ppdev = gppdevPrimary;
    }

    /* Did we find one? */
    if (ppdev)
    {
        /* Yes, reference the PDEV */
        InterlockedIncrement(&ppdev->cPdevRefs);
    }
    else
    {
        /* No, create a new PDEV for the given device */
        ppdev = EngpCreatePDEV(pustrDeviceName, NULL);
        if (ppdev)
        {
            /* Insert the PDEV into the list */
            ppdev->ppdevNext = gppdevList;
            gppdevList = ppdev;

            /* Set as primary PDEV, if we don't have one yet */
            if (!gppdevPrimary)
            {
                gppdevPrimary = ppdev;
                ppdev->pGraphicsDevice->StateFlags |= DISPLAY_DEVICE_PRIMARY_DEVICE;
            }
        }
    }

    /* Release PDEV lock */
    EngReleaseSemaphore(ghsemPDEV);

    return ppdev;
}

INT
NTAPI
PDEVOBJ_iGetColorManagementCaps(PPDEVOBJ ppdev)
{
    INT ret = CM_NONE;

    if (ppdev->flFlags & PDEV_DISPLAY)
    {
        if (ppdev->devinfo.iDitherFormat == BMF_8BPP ||
            ppdev->devinfo.flGraphicsCaps2 & GCAPS2_CHANGEGAMMARAMP)
            ret = CM_GAMMA_RAMP;
    }

    if (ppdev->devinfo.flGraphicsCaps & GCAPS_CMYKCOLOR)
        ret |= CM_CMYK_COLOR;
    if (ppdev->devinfo.flGraphicsCaps & GCAPS_ICM)
        ret |= CM_DEVICE_ICM;

    return ret;
}

VOID
NTAPI
PDEVOBJ_vGetDeviceCaps(
    IN PPDEVOBJ ppdev,
    OUT PDEVCAPS pDevCaps)
{
    PGDIINFO pGdiInfo = &ppdev->gdiinfo;

    pDevCaps->ulVersion = pGdiInfo->ulVersion;
    pDevCaps->ulTechnology = pGdiInfo->ulTechnology;
    pDevCaps->ulHorzSizeM = (pGdiInfo->ulHorzSize + 500) / 1000;
    pDevCaps->ulVertSizeM = (pGdiInfo->ulVertSize + 500) / 1000;
    pDevCaps->ulHorzSize = pGdiInfo->ulHorzSize;
    pDevCaps->ulVertSize = pGdiInfo->ulVertSize;
    pDevCaps->ulHorzRes = pGdiInfo->ulHorzRes;
    pDevCaps->ulVertRes = pGdiInfo->ulVertRes;
    pDevCaps->ulBitsPixel = pGdiInfo->cBitsPixel;
    if (pDevCaps->ulBitsPixel == 15) pDevCaps->ulBitsPixel = 16;
    pDevCaps->ulPlanes = pGdiInfo->cPlanes;
    pDevCaps->ulNumPens = pGdiInfo->ulNumColors;
    if (pDevCaps->ulNumPens != -1) pDevCaps->ulNumPens *= 5;
    pDevCaps->ulNumFonts = 0; // PDEVOBJ_cFonts(ppdev);
    pDevCaps->ulNumColors = pGdiInfo->ulNumColors;
    pDevCaps->ulRasterCaps = pGdiInfo->flRaster;
    pDevCaps->ulAspectX = pGdiInfo->ulAspectX;
    pDevCaps->ulAspectY = pGdiInfo->ulAspectY;
    pDevCaps->ulAspectXY = pGdiInfo->ulAspectXY;
    pDevCaps->ulLogPixelsX = pGdiInfo->ulLogPixelsX;
    pDevCaps->ulLogPixelsY = pGdiInfo->ulLogPixelsY;
    pDevCaps->ulSizePalette = pGdiInfo->ulNumPalReg;
    pDevCaps->ulColorRes = pGdiInfo->ulDACRed +
                           pGdiInfo->ulDACGreen +
                           pGdiInfo->ulDACBlue;
    pDevCaps->ulPhysicalWidth = pGdiInfo->szlPhysSize.cx;
    pDevCaps->ulPhysicalHeight = pGdiInfo->szlPhysSize.cy;
    pDevCaps->ulPhysicalOffsetX = pGdiInfo->ptlPhysOffset.x;
    pDevCaps->ulPhysicalOffsetY = pGdiInfo->ptlPhysOffset.y;
    pDevCaps->ulTextCaps = pGdiInfo->flTextCaps;
    pDevCaps->ulTextCaps |= (TC_SO_ABLE|TC_UA_ABLE|TC_CP_STROKE|TC_OP_STROKE|TC_OP_CHARACTER);
    if (pGdiInfo->ulTechnology != DT_PLOTTER)
        pDevCaps->ulTextCaps |= TC_VA_ABLE;
    pDevCaps->ulVRefresh = pGdiInfo->ulVRefresh;
    pDevCaps->ulDesktopHorzRes = pGdiInfo->ulHorzRes;
    pDevCaps->ulDesktopVertRes = pGdiInfo->ulVertRes;
    pDevCaps->ulBltAlignment = pGdiInfo->ulBltAlignment;
    pDevCaps->ulPanningHorzRes = pGdiInfo->ulPanningHorzRes;
    pDevCaps->ulPanningVertRes = pGdiInfo->ulPanningVertRes;
    pDevCaps->xPanningAlignment = pGdiInfo->xPanningAlignment;
    pDevCaps->yPanningAlignment = pGdiInfo->yPanningAlignment;
    pDevCaps->ulShadeBlend = pGdiInfo->flShadeBlend;
    pDevCaps->ulColorMgmtCaps = PDEVOBJ_iGetColorManagementCaps(ppdev);
}


/** Exported functions ********************************************************/

_Must_inspect_result_ _Ret_z_
LPWSTR
APIENTRY
EngGetDriverName(_In_ HDEV hdev)
{
    PPDEVOBJ ppdev = (PPDEVOBJ)hdev;

    ASSERT(ppdev);
    ASSERT(ppdev->pldev);
    ASSERT(ppdev->pldev->pGdiDriverInfo);
    ASSERT(ppdev->pldev->pGdiDriverInfo->DriverName.Buffer);

    return ppdev->pldev->pGdiDriverInfo->DriverName.Buffer;
}


INT
APIENTRY
NtGdiGetDeviceCaps(
    HDC hdc,
    INT Index)
{
    PDC pdc;
    DEVCAPS devcaps;

    /* Lock the given DC */
    pdc = DC_LockDc(hdc);
    if (!pdc)
    {
        EngSetLastError(ERROR_INVALID_HANDLE);
        return 0;
    }

    /* Get the data */
    PDEVOBJ_vGetDeviceCaps(pdc->ppdev, &devcaps);

    /* Unlock the DC */
    DC_UnlockDc(pdc);

    /* Return capability */
    switch (Index)
    {
        case DRIVERVERSION:
            return devcaps.ulVersion;

        case TECHNOLOGY:
            return devcaps.ulTechnology;

        case HORZSIZE:
            return devcaps.ulHorzSize;

        case VERTSIZE:
            return devcaps.ulVertSize;

        case HORZRES:
            return devcaps.ulHorzRes;

        case VERTRES:
            return devcaps.ulVertRes;

        case LOGPIXELSX:
            return devcaps.ulLogPixelsX;

        case LOGPIXELSY:
            return devcaps.ulLogPixelsY;

        case BITSPIXEL:
            return devcaps.ulBitsPixel;

        case PLANES:
            return devcaps.ulPlanes;

        case NUMBRUSHES:
            return -1;

        case NUMPENS:
            return devcaps.ulNumPens;

        case NUMFONTS:
            return devcaps.ulNumFonts;

        case NUMCOLORS:
            return devcaps.ulNumColors;

        case ASPECTX:
            return devcaps.ulAspectX;

        case ASPECTY:
            return devcaps.ulAspectY;

        case ASPECTXY:
            return devcaps.ulAspectXY;

        case CLIPCAPS:
            return CP_RECTANGLE;

        case SIZEPALETTE:
            return devcaps.ulSizePalette;

        case NUMRESERVED:
            return 20;

        case COLORRES:
            return devcaps.ulColorRes;

        case DESKTOPVERTRES:
            return devcaps.ulVertRes;

        case DESKTOPHORZRES:
            return devcaps.ulHorzRes;

        case BLTALIGNMENT:
            return devcaps.ulBltAlignment;

        case SHADEBLENDCAPS:
            return devcaps.ulShadeBlend;

        case COLORMGMTCAPS:
            return devcaps.ulColorMgmtCaps;

        case PHYSICALWIDTH:
            return devcaps.ulPhysicalWidth;

        case PHYSICALHEIGHT:
            return devcaps.ulPhysicalHeight;

        case PHYSICALOFFSETX:
            return devcaps.ulPhysicalOffsetX;

        case PHYSICALOFFSETY:
            return devcaps.ulPhysicalOffsetY;

        case VREFRESH:
            return devcaps.ulVRefresh;

        case RASTERCAPS:
            return devcaps.ulRasterCaps;

        case CURVECAPS:
            return (CC_CIRCLES | CC_PIE | CC_CHORD | CC_ELLIPSES | CC_WIDE |
                    CC_STYLED | CC_WIDESTYLED | CC_INTERIORS | CC_ROUNDRECT);

        case LINECAPS:
            return (LC_POLYLINE | LC_MARKER | LC_POLYMARKER | LC_WIDE |
                    LC_STYLED | LC_WIDESTYLED | LC_INTERIORS);

        case POLYGONALCAPS:
            return (PC_POLYGON | PC_RECTANGLE | PC_WINDPOLYGON | PC_SCANLINE |
                    PC_WIDE | PC_STYLED | PC_WIDESTYLED | PC_INTERIORS);

        case TEXTCAPS:
            return devcaps.ulTextCaps;

        case CAPS1:
        case PDEVICESIZE:
        case SCALINGFACTORX:
        case SCALINGFACTORY:
        default:
            return 0;
    }

    return 0;
}

_Success_(return!=FALSE)
BOOL
APIENTRY
NtGdiGetDeviceCapsAll(
    IN HDC hDC,
    OUT PDEVCAPS pDevCaps)
{
    PDC pdc;
    DEVCAPS devcaps;
    BOOL bResult = TRUE;

    /* Lock the given DC */
    pdc = DC_LockDc(hDC);
    if (!pdc)
    {
        EngSetLastError(ERROR_INVALID_HANDLE);
        return FALSE;
    }

    /* Get the data */
    PDEVOBJ_vGetDeviceCaps(pdc->ppdev, &devcaps);

    /* Unlock the DC */
    DC_UnlockDc(pdc);

    /* Copy data to caller */
    _SEH2_TRY
    {
        ProbeForWrite(pDevCaps, sizeof(DEVCAPS), 1);
        RtlCopyMemory(pDevCaps, &devcaps, sizeof(DEVCAPS));
    }
    _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
    {
        SetLastNtError(_SEH2_GetExceptionCode());
        bResult = FALSE;
    }
    _SEH2_END;

    return bResult;
}

DHPDEV
APIENTRY
NtGdiGetDhpdev(
    IN HDEV hdev)
{
    PPDEVOBJ ppdev;
    DHPDEV dhpdev = NULL;

    /* Check parameter */
    if (!hdev || (PCHAR)hdev < (PCHAR)MmSystemRangeStart)
        return NULL;

    /* Lock PDEV list */
    EngAcquireSemaphoreShared(ghsemPDEV);

    /* Walk through the list of PDEVs */
    for (ppdev = gppdevList;  ppdev; ppdev = ppdev->ppdevNext)
    {
        /* Compare with the given HDEV */
        if (ppdev == (PPDEVOBJ)hdev)
        {
            /* Found the PDEV! Get it's dhpdev and break */
            dhpdev = ppdev->dhpdev;
            break;
        }
    }

    /* Unlock PDEV list */
    EngReleaseSemaphore(ghsemPDEV);

    return dhpdev;
}

PSIZEL
FASTCALL
PDEVOBJ_sizl(PPDEVOBJ ppdev, PSIZEL psizl)
{
    if (ppdev->flFlags & PDEV_META_DEVICE)
    {
        psizl->cx = ppdev->ulHorzRes;
        psizl->cy = ppdev->ulVertRes;
    }
    else
    {
        psizl->cx = ppdev->gdiinfo.ulHorzRes;
        psizl->cy = ppdev->gdiinfo.ulVertRes;
    }
    return psizl;
}