reactos/win32ss/gdi/eng/surface.c
Pierre Schweitzer 321bcc056d Create the AHCI branch for Aman's work
svn path=/branches/GSoC_2016/AHCI/; revision=71203
2016-04-24 20:17:09 +00:00

632 lines
15 KiB
C

/*
* COPYRIGHT: See COPYING in the top level directory
* PROJECT: ReactOS kernel
* PURPOSE: GDI Driver Surace Functions
* FILE: win32ss/gdi/eng/surface.c
* PROGRAMERS: Jason Filby
* Timo Kreuzer
* TESTING TO BE DONE:
* - Create a GDI bitmap with all formats, perform all drawing operations on them, render to VGA surface
* refer to \test\microwin\src\engine\devdraw.c for info on correct pixel plotting for various formats
*/
#include <win32k.h>
#define NDEBUG
#include <debug.h>
LONG giUniqueSurface = 0;
UCHAR
gajBitsPerFormat[11] =
{
0, /* 0: unused */
1, /* 1: BMF_1BPP */
4, /* 2: BMF_4BPP */
8, /* 3: BMF_8BPP */
16, /* 4: BMF_16BPP */
24, /* 5: BMF_24BPP */
32, /* 6: BMF_32BPP */
4, /* 7: BMF_4RLE */
8, /* 8: BMF_8RLE */
0, /* 9: BMF_JPEG */
0, /* 10: BMF_PNG */
};
ULONG
FASTCALL
BitmapFormat(ULONG cBits, ULONG iCompression)
{
switch (iCompression)
{
case BI_RGB:
/* Fall through */
case BI_BITFIELDS:
if (cBits <= 1) return BMF_1BPP;
if (cBits <= 4) return BMF_4BPP;
if (cBits <= 8) return BMF_8BPP;
if (cBits <= 16) return BMF_16BPP;
if (cBits <= 24) return BMF_24BPP;
if (cBits <= 32) return BMF_32BPP;
return 0;
case BI_RLE4:
return BMF_4RLE;
case BI_RLE8:
return BMF_8RLE;
default:
return 0;
}
}
VOID
NTAPI
SURFACE_vCleanup(PVOID ObjectBody)
{
PSURFACE psurf = (PSURFACE)ObjectBody;
PVOID pvBits = psurf->SurfObj.pvBits;
/* Check if the surface has bits */
if (pvBits)
{
/* Only bitmaps can have bits */
ASSERT(psurf->SurfObj.iType == STYPE_BITMAP);
/* Check if it is a DIB section */
if (psurf->hDIBSection)
{
/* Unmap the section view */
EngUnmapSectionView(pvBits, psurf->dwOffset, psurf->hSecure);
}
else if (psurf->SurfObj.fjBitmap & BMF_USERMEM)
{
/* Bitmap was allocated from usermode memory */
EngFreeUserMem(pvBits);
}
else if (psurf->SurfObj.fjBitmap & BMF_KMSECTION)
{
/* Bitmap was allocated from a kernel section */
if (!EngFreeSectionMem(NULL, pvBits))
{
DPRINT1("EngFreeSectionMem failed for %p!\n", pvBits);
// Should we BugCheck here?
ASSERT(FALSE);
}
}
else if (psurf->SurfObj.fjBitmap & BMF_POOLALLOC)
{
/* Free a pool allocation */
EngFreeMem(pvBits);
}
}
/* Free palette */
if(psurf->ppal)
{
PALETTE_ShareUnlockPalette(psurf->ppal);
}
}
PSURFACE
NTAPI
SURFACE_AllocSurface(
_In_ USHORT iType,
_In_ ULONG cx,
_In_ ULONG cy,
_In_ ULONG iFormat,
_In_ ULONG fjBitmap,
_In_opt_ ULONG cjWidth,
_In_opt_ ULONG cjBufSize,
_In_opt_ PVOID pvBits)
{
ULONG cBitsPixel, cjBits, cjObject;
PSURFACE psurf;
SURFOBJ *pso;
PVOID pvSection;
NT_ASSERT(!pvBits || (iType == STYPE_BITMAP));
NT_ASSERT((iFormat <= BMF_32BPP) || (cjBufSize != 0));
NT_ASSERT((LONG)cy > 0);
/* Verify format */
if ((iFormat < BMF_1BPP) || (iFormat > BMF_PNG))
{
DPRINT1("Invalid bitmap format: %lu\n", iFormat);
return NULL;
}
/* Get bits per pixel from the format */
cBitsPixel = gajBitsPerFormat[iFormat];
/* Are bits and a width in bytes given? */
if (pvBits && cjWidth)
{
/* Align the width (Windows compatibility, drivers expect that) */
cjWidth = WIDTH_BYTES_ALIGN32((cjWidth << 3) / cBitsPixel, cBitsPixel);
}
else
{
/* Calculate width from the bitmap width in pixels */
cjWidth = WIDTH_BYTES_ALIGN32(cx, cBitsPixel);
}
/* Is this an uncompressed format? */
if (iFormat <= BMF_32BPP)
{
/* Calculate the correct bitmap size in bytes */
if (!NT_SUCCESS(RtlULongMult(cjWidth, cy, &cjBits)))
{
DPRINT1("Overflow calculating size: cjWidth %lu, cy %lu\n",
cjWidth, cy);
return NULL;
}
/* Did we get a buffer and size? */
if ((pvBits != NULL) && (cjBufSize != 0))
{
/* Make sure the buffer is large enough */
if (cjBufSize < cjBits)
{
DPRINT1("Buffer is too small, required: %lu, got %lu\n",
cjBits, cjBufSize);
return NULL;
}
}
}
else
{
/* Compressed format, use the provided size */
NT_ASSERT(cjBufSize != 0);
cjBits = cjBufSize;
}
/* Check if we need an extra large object */
if ((iType == STYPE_BITMAP) && (pvBits == NULL) &&
!(fjBitmap & BMF_USERMEM) && !(fjBitmap & BMF_KMSECTION))
{
/* Allocate an object large enough to hold the bits */
cjObject = sizeof(SURFACE) + cjBits;
}
else
{
/* Otherwise just allocate the SURFACE structure */
cjObject = sizeof(SURFACE);
}
/* Check for arithmetic overflow */
if (cjObject < sizeof(SURFACE))
{
/* Fail! */
DPRINT1("Overflow calculating cjObject: cjBits %lu\n", cjBits);
return NULL;
}
/* Allocate a SURFACE object */
psurf = (PSURFACE)GDIOBJ_AllocObjWithHandle(GDI_OBJECT_TYPE_BITMAP, cjObject);
if (!psurf)
{
return NULL;
}
/* Initialize the basic fields */
pso = &psurf->SurfObj;
pso->hsurf = psurf->BaseObject.hHmgr;
pso->sizlBitmap.cx = cx;
pso->sizlBitmap.cy = cy;
pso->iBitmapFormat = iFormat;
pso->iType = iType;
pso->fjBitmap = (USHORT)fjBitmap;
pso->iUniq = InterlockedIncrement(&giUniqueSurface);
pso->cjBits = cjBits;
/* Check if we need a bitmap buffer */
if (iType == STYPE_BITMAP)
{
/* Check if we got one or if we need to allocate one */
if (pvBits != NULL)
{
/* Use the caller provided buffer */
pso->pvBits = pvBits;
}
else if (fjBitmap & BMF_USERMEM)
{
/* User mode memory was requested */
pso->pvBits = EngAllocUserMem(cjBits, 0);
/* Check for failure */
if (!pso->pvBits)
{
GDIOBJ_vDeleteObject(&psurf->BaseObject);
return NULL;
}
}
else if (fjBitmap & BMF_KMSECTION)
{
/* Use a kernel mode section */
pso->pvBits = EngAllocSectionMem(&pvSection,
(fjBitmap & BMF_NOZEROINIT) ?
0 : FL_ZERO_MEMORY,
cjBits, TAG_DIB);
/* Check for failure */
if (!pso->pvBits)
{
GDIOBJ_vDeleteObject(&psurf->BaseObject);
return NULL;
}
/* Free the section already, but keep the mapping */
EngFreeSectionMem(pvSection, NULL);
}
else
{
/* Buffer is after the object */
pso->pvBits = psurf + 1;
/* Zero the buffer, except requested otherwise */
if (!(fjBitmap & BMF_NOZEROINIT))
{
RtlZeroMemory(pso->pvBits, cjBits);
}
}
/* Set pvScan0 and lDelta */
if (fjBitmap & BMF_TOPDOWN)
{
/* Topdown is the normal way */
pso->pvScan0 = pso->pvBits;
pso->lDelta = cjWidth;
}
else
{
/* Inversed bitmap (bottom up) */
pso->pvScan0 = ((PCHAR)pso->pvBits + pso->cjBits - cjWidth);
pso->lDelta = -(LONG)cjWidth;
}
}
else
{
/* There are no bitmap bits */
pso->pvScan0 = pso->pvBits = NULL;
pso->lDelta = 0;
}
/* Assign a default palette and increment its reference count */
SURFACE_vSetPalette(psurf, appalSurfaceDefault[iFormat]);
return psurf;
}
HBITMAP
APIENTRY
EngCreateBitmap(
_In_ SIZEL sizl,
_In_ LONG lWidth,
_In_ ULONG iFormat,
_In_ ULONG fl,
_In_opt_ PVOID pvBits)
{
PSURFACE psurf;
HBITMAP hbmp;
/* Allocate a surface */
psurf = SURFACE_AllocSurface(STYPE_BITMAP,
sizl.cx,
sizl.cy,
iFormat,
fl,
lWidth,
0,
pvBits);
if (!psurf)
{
DPRINT1("SURFACE_AllocSurface failed.\n");
return NULL;
}
/* Get the handle for the bitmap */
hbmp = (HBITMAP)psurf->SurfObj.hsurf;
/* Set public ownership */
GDIOBJ_vSetObjectOwner(&psurf->BaseObject, GDI_OBJ_HMGR_PUBLIC);
/* Unlock the surface and return */
SURFACE_UnlockSurface(psurf);
return hbmp;
}
/*
* @implemented
*/
HBITMAP
APIENTRY
EngCreateDeviceBitmap(
_In_ DHSURF dhsurf,
_In_ SIZEL sizl,
_In_ ULONG iFormat)
{
PSURFACE psurf;
HBITMAP hbmp;
/* Allocate a surface */
psurf = SURFACE_AllocSurface(STYPE_DEVBITMAP,
sizl.cx,
sizl.cy,
iFormat,
0,
0,
0,
NULL);
if (!psurf)
{
DPRINT1("SURFACE_AllocSurface failed.\n");
return NULL;
}
/* Set the device handle */
psurf->SurfObj.dhsurf = dhsurf;
/* Set public ownership */
GDIOBJ_vSetObjectOwner(&psurf->BaseObject, GDI_OBJ_HMGR_PUBLIC);
/* Get the handle for the bitmap */
hbmp = (HBITMAP)psurf->SurfObj.hsurf;
/* Unlock the surface and return */
SURFACE_UnlockSurface(psurf);
return hbmp;
}
HSURF
APIENTRY
EngCreateDeviceSurface(
_In_ DHSURF dhsurf,
_In_ SIZEL sizl,
_In_ ULONG iFormat)
{
PSURFACE psurf;
HSURF hsurf;
/* Allocate a surface */
psurf = SURFACE_AllocSurface(STYPE_DEVICE,
sizl.cx,
sizl.cy,
iFormat,
0,
0,
0,
NULL);
if (!psurf)
{
DPRINT1("SURFACE_AllocSurface failed.\n");
return NULL;
}
/* Set the device handle */
psurf->SurfObj.dhsurf = dhsurf;
/* Set public ownership */
GDIOBJ_vSetObjectOwner(&psurf->BaseObject, GDI_OBJ_HMGR_PUBLIC);
/* Get the handle for the surface */
hsurf = psurf->SurfObj.hsurf;
/* Unlock the surface and return */
SURFACE_UnlockSurface(psurf);
return hsurf;
}
BOOL
APIENTRY
EngAssociateSurface(
_In_ HSURF hsurf,
_In_ HDEV hdev,
_In_ FLONG flHooks)
{
SURFOBJ *pso;
PSURFACE psurf;
PDEVOBJ* ppdev;
PPALETTE ppal;
ppdev = (PDEVOBJ*)hdev;
/* Lock the surface */
psurf = SURFACE_ShareLockSurface(hsurf);
if (!psurf)
{
return FALSE;
}
pso = &psurf->SurfObj;
/* Associate the hdev */
pso->hdev = hdev;
pso->dhpdev = ppdev->dhpdev;
/* Hook up specified functions */
psurf->flags &= ~HOOK_FLAGS;
psurf->flags |= (flHooks & HOOK_FLAGS);
/* Assign the PDEV's palette */
ppal = PALETTE_ShareLockPalette(ppdev->devinfo.hpalDefault);
SURFACE_vSetPalette(psurf, ppal);
PALETTE_ShareUnlockPalette(ppal);
SURFACE_ShareUnlockSurface(psurf);
return TRUE;
}
BOOL
APIENTRY
EngModifySurface(
_In_ HSURF hsurf,
_In_ HDEV hdev,
_In_ FLONG flHooks,
_In_ FLONG flSurface,
_In_ DHSURF dhsurf,
_In_ PVOID pvScan0,
_In_ LONG lDelta,
_Reserved_ PVOID pvReserved)
{
SURFOBJ *pso;
PSURFACE psurf;
PDEVOBJ* ppdev;
PPALETTE ppal;
/* Lock the surface */
psurf = SURFACE_ShareLockSurface(hsurf);
if (psurf == NULL)
{
DPRINT1("Failed to reference surface %p\n", hsurf);
return FALSE;
}
ppdev = (PDEVOBJ*)hdev;
pso = &psurf->SurfObj;
pso->dhsurf = dhsurf;
/* Associate the hdev */
pso->hdev = hdev;
pso->dhpdev = ppdev->dhpdev;
/* Hook up specified functions */
psurf->flags &= ~HOOK_FLAGS;
psurf->flags |= (flHooks & HOOK_FLAGS);
/* Assign the PDEV's palette */
ppal = PALETTE_ShareLockPalette(ppdev->devinfo.hpalDefault);
SURFACE_vSetPalette(psurf, ppal);
PALETTE_ShareUnlockPalette(ppal);
/* Update surface flags */
if (flSurface & MS_NOTSYSTEMMEMORY)
pso->fjBitmap |= BMF_NOTSYSMEM;
else
pso->fjBitmap &= ~BMF_NOTSYSMEM;
if (flSurface & MS_SHAREDACCESS)
psurf->flags |= SHAREACCESS_SURFACE;
else
psurf->flags &= ~SHAREACCESS_SURFACE;
/* Check if the caller passed bitmap bits */
if ((pvScan0 != NULL) && (lDelta != 0))
{
/* Update the fields */
pso->pvScan0 = pvScan0;
pso->lDelta = lDelta;
/* This is a bitmap now! */
pso->iType = STYPE_BITMAP;
/* Check memory layout */
if (lDelta > 0)
{
/* Topdown is the normal way */
pso->cjBits = lDelta * pso->sizlBitmap.cy;
pso->pvBits = pso->pvScan0;
pso->fjBitmap |= BMF_TOPDOWN;
}
else
{
/* Inversed bitmap (bottom up) */
pso->cjBits = (-lDelta) * pso->sizlBitmap.cy;
pso->pvBits = (PCHAR)pso->pvScan0 - pso->cjBits - lDelta;
pso->fjBitmap &= ~BMF_TOPDOWN;
}
}
else
{
/* Set bits to NULL */
pso->pvBits = NULL;
pso->pvScan0 = NULL;
pso->lDelta = 0;
/* Set appropriate surface type */
if (pso->iType != STYPE_DEVICE)
pso->iType = STYPE_DEVBITMAP;
}
SURFACE_ShareUnlockSurface(psurf);
return TRUE;
}
BOOL
APIENTRY
EngDeleteSurface(
_In_ _Post_ptr_invalid_ HSURF hsurf)
{
PSURFACE psurf;
psurf = SURFACE_ShareLockSurface(hsurf);
if (!psurf)
{
DPRINT1("Could not reference surface %p to delete\n", hsurf);
return FALSE;
}
GDIOBJ_vDeleteObject(&psurf->BaseObject);
return TRUE;
}
BOOL
APIENTRY
EngEraseSurface(
_In_ SURFOBJ *pso,
_In_ RECTL *prcl,
_In_ ULONG iColor)
{
ASSERT(pso);
ASSERT(prcl);
return FillSolid(pso, prcl, iColor);
}
/*
* @implemented
*/
SURFOBJ * APIENTRY
NtGdiEngLockSurface(IN HSURF hsurf)
{
return EngLockSurface(hsurf);
}
SURFOBJ *
APIENTRY
EngLockSurface(
_In_ HSURF hsurf)
{
SURFACE *psurf = SURFACE_ShareLockSurface(hsurf);
return psurf ? &psurf->SurfObj : NULL;
}
__kernel_entry
NTSTATUS
APIENTRY
NtGdiEngUnlockSurface(
_In_ SURFOBJ *pso)
{
UNIMPLEMENTED;
ASSERT(FALSE);
return STATUS_NOT_IMPLEMENTED;
}
VOID
APIENTRY
EngUnlockSurface(
_In_ _Post_ptr_invalid_ SURFOBJ *pso)
{
if (pso != NULL)
{
SURFACE *psurf = CONTAINING_RECORD(pso, SURFACE, SurfObj);
SURFACE_ShareUnlockSurface(psurf);
}
}
/* EOF */