Leaked source code of windows server 2003
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/****************************************************************************/
// ncmapi.c
//
// RDP Cursor Manager API functions.
//
// Copyright (C) 1996-2000 Microsoft Corporation
/****************************************************************************/
#include <precmpdd.h>
#pragma hdrstop
#define TRC_FILE "ncmapi"
#include <adcg.h>
#include <ncmdisp.h>
#include <nschdisp.h>
#define DC_INCLUDE_DATA
#include <ndddata.c>
#undef DC_INCLUDE_DATA
#include <ncmdata.c>
#include <nchdisp.h>
/****************************************************************************/
/* Name: CM_DDInit */
/* */
/* Purpose: Initialises the display driver component of the cursor */
/* manager. */
/* */
/* Returns: TRUE if successful, FALSE otherwise. */
/* */
/* Params: IN ppDev - pointer to pDev for work bitmap */
/****************************************************************************/
BOOL RDPCALL CM_DDInit(PDD_PDEV ppDev)
{
BOOL rc = TRUE;
SIZEL bitmapSize;
DC_BEGIN_FN("CM_DDInit");
/************************************************************************/
/* Allocate the work bitmap, at the local device resolution. Note that */
/* we create it "top down" rather than the default of "bottom up" to */
/* simplify copying data from the bitmap (we don't have to work out */
/* offsets into the data - we can copy from the beginning). */
/************************************************************************/
bitmapSize.cx = CM_MAX_CURSOR_WIDTH;
bitmapSize.cy = CM_MAX_CURSOR_HEIGHT;
cmWorkBitmap24 = EngCreateBitmap(bitmapSize,
TS_BYTES_IN_SCANLINE(bitmapSize.cx, 24), BMF_24BPP, BMF_TOPDOWN,
NULL);
#ifdef DC_HICOLOR
cmWorkBitmap16 = EngCreateBitmap(bitmapSize,
TS_BYTES_IN_SCANLINE(bitmapSize.cx, 16), BMF_16BPP, BMF_TOPDOWN,
NULL);
if (cmWorkBitmap16 == NULL)
{
/********************************************************************/
/* We can carry on with reduced function without this one */
/********************************************************************/
TRC_ERR((TB, "Failed to create 16bpp work bitmap"));
pddShm->cm.cmSendAnyColor = FALSE;
}
#endif
if (cmWorkBitmap24 != NULL) {
TRC_NRM((TB, "Created work bitmap successfully"));
// Reset the cursor stamp.
cmNextCursorStamp = 0;
}
else {
TRC_ERR((TB, "Failed to create work bitmaps"));
rc = FALSE;
}
DC_END_FN();
return rc;
}
/****************************************************************************/
/* Name: CM_Update */
/* */
/* Purpose: The capabilities may have changed */
/****************************************************************************/
void RDPCALL CM_Update(void)
{
PCHCACHEDATA pCacheData;
DC_BEGIN_FN("CM_Update");
/************************************************************************/
/* Create the cursor cache. */
/************************************************************************/
if (cmCursorCacheHandle == NULL) {
if (pddShm->cm.cmCacheSize) {
pCacheData = (PCHCACHEDATA)EngAllocMem(0,
CH_CalculateCacheSize(pddShm->cm.cmCacheSize),
DD_ALLOC_TAG);
if (pCacheData != NULL) {
CH_InitCache(pCacheData, pddShm->cm.cmCacheSize, NULL,
FALSE, FALSE, NULL);
cmCursorCacheHandle = pCacheData;
}
else {
TRC_ERR((TB, "Failed to create cache: cEntries(%u)",
pddShm->cm.cmCacheSize));
}
}
else {
TRC_ERR((TB, "Zero size Cursor Cache"));
}
}
// Else just clear it for synchonization purposes.
else {
CH_ClearCache(cmCursorCacheHandle);
}
DC_END_FN();
} /* CM_Update */
/****************************************************************************/
/* Name: CM_DDDisc */
/* */
/* Purpose: Disconnects the display driver component of the cursor */
/* manager. */
/****************************************************************************/
void RDPCALL CM_DDDisc(void)
{
DC_BEGIN_FN("CM_DDDisc");
/************************************************************************/
/* Free up the cursor cache */
/************************************************************************/
if (cmCursorCacheHandle != 0) {
TRC_NRM((TB, "Destroying CM cache"));
CH_ClearCache(cmCursorCacheHandle);
EngFreeMem(cmCursorCacheHandle);
cmCursorCacheHandle = 0;
}
DC_END_FN();
} /* CM_DDDisc */
/****************************************************************************/
/* Name: CM_DDTerm */
/* */
/* Purpose: Terminates the display driver component of the cursor */
/* manager. */
/* */
/* Returns: TRUE if successful, FALSE otherwise. */
/****************************************************************************/
void RDPCALL CM_DDTerm(void)
{
DC_BEGIN_FN("CM_DDTerm");
/************************************************************************/
/* Destroy the work bitmaps. Despite its name, EngDeleteSurface is the */
/* correct function to do this. */
/************************************************************************/
#ifdef DC_HICOLOR
if (cmWorkBitmap24)
{
if (!EngDeleteSurface((HSURF)cmWorkBitmap24))
{
TRC_ERR((TB, "Failed to delete 24bpp work bitmap"));
}
}
if (cmWorkBitmap16)
{
if (!EngDeleteSurface((HSURF)cmWorkBitmap16))
{
TRC_ERR((TB, "Failed to delete 16bpp work bitmap"));
}
}
#else
if (cmWorkBitmap24 != NULL) {
if (!EngDeleteSurface((HSURF)cmWorkBitmap24)) {
TRC_ERR((TB, "Failed to delete work bitmap"));
}
}
#endif
/************************************************************************/
/* Free up the cursor cache */
/************************************************************************/
if (cmCursorCacheHandle != 0) {
TRC_NRM((TB, "Destroying CM cache"));
CH_ClearCache(cmCursorCacheHandle);
EngFreeMem(cmCursorCacheHandle);
cmCursorCacheHandle = 0;
}
TRC_NRM((TB, "CM terminated"));
DC_END_FN();
} /* CM_DDTerm */
/****************************************************************************/
/* CM_InitShm */
/* */
/* Initializes CM Shared Memory. */
/****************************************************************************/
void RDPCALL CM_InitShm(void)
{
DC_BEGIN_FN("CM_InitShm");
// Set up initial contents of Shm memory, since it is not zeroed on
// init. Don't set up the initially unused cursor shape data.
// NOTE: cmCursorShapeData is specifically placed at the end of
// CM_SHARED_DATA to allow this memset to work. If you change
// the shared mem struct be sure this gets changed.
memset(&pddShm->cm, 0, (unsigned)FIELDOFFSET(CM_SHARED_DATA,
cmCursorShapeData.data));
// Set the last known position to something impossible. The IM
// periodic processing will not move the client's mouse until a
// sensible value is found here, ie until the client has sent us a
// mouse position and it has percolated through to the DD. This
// avoids the problem of the mouse leaping to 0,0 on connection.
pddShm->cm.cmCursorPos.x = 0xffffffff;
DC_END_FN();
}
/****************************************************************************/
/* */
/* DrvMovePointer - see NT DDK documentation. */
/* */
/****************************************************************************/
VOID DrvMovePointer(SURFOBJ *pso, LONG x, LONG y, RECTL *prcl)
{
DC_BEGIN_FN(("DrvMovePointer"));
//
// Win32k hides the hardware cursor by calling the MovePointer
// entry point with (-1,-1). Treat this as a procedural move
// and pass it on to the real worker function
//
// All other paths are handled directly by win32k calling
// DrvMovePointerEx with the right flags
//
if (-1 == x && -1 == y) {
DrvMovePointerEx(pso, x, y, MP_PROCEDURAL);
}
DC_END_FN();
}
//
// DrvMovePointerEx
//
// Params:
// x,y - new mouse position.
// ulFlags - source of move (see winddits.h).
//
// This function replaces the regular DrvMovePointer entry point
// by also sending us an event source parameter.
//
// This allows us to determine if we should ignore the update (e.g
// if it originates from the primary stack). Or send it down to the
// client in the case of a server initiated move or a shadow move.
//
// We ignore updates from the primary stack because by definition
// those came from the client so it doesn't need feedback from the
// server.
//
BOOL DrvMovePointerEx(SURFOBJ *pso, LONG x, LONG y, ULONG ulFlags)
{
BOOL fTriggerUpdate = FALSE;
PDD_PDEV ppDev = (PDD_PDEV)pso->dhpdev;
DC_BEGIN_FN("CM_DrvMovePointerEx");
if (pddShm != NULL) {
if ((ulFlags & MP_TERMSRV_SHADOW) ||
(ulFlags & MP_PROCEDURAL))
{
if (x == -1) {
// -1 means hide the pointer.
TRC_NRM((TB, "Hide the pointer"));
pddShm->cm.cmHidden = TRUE;
}
else {
// Pointer is not hidden.
if (pddShm->cm.cmHidden) {
TRC_NRM((TB, "Unhide the pointer"));
}
pddShm->cm.cmHidden = FALSE;
//
// We always update the position for server initated moves.
//
pddShm->cm.cmCursorPos.x = x;
pddShm->cm.cmCursorPos.y = y;
//
// Send an update so we don't need to wait
// for the next output flush.
//
fTriggerUpdate = TRUE;
// Set the cursor moved flag.
pddShm->cm.cmCursorMoved = TRUE;
}
}
else
{
TRC_ALT((TB,"Discarding move (%d,%d) - src 0x%x",
x,y, ulFlags));
}
if (fTriggerUpdate)
{
//
// Tell the scheduler to send an update
//
SCH_DDOutputAvailable(ppDev, FALSE);
}
}
else {
TRC_DBG((TB, "Ignoring move to %d %d as no shr mem yet", x,y));
}
DC_END_FN();
return TRUE;
}
/****************************************************************************/
/* */
/* DrvSetPointerShape - see winddi.h */
/* */
/****************************************************************************/
ULONG DrvSetPointerShape(SURFOBJ *pso,
SURFOBJ *psoMask,
SURFOBJ *psoColor,
XLATEOBJ *pxlo,
LONG xHot,
LONG yHot,
LONG x,
LONG y,
RECTL *prcl,
FLONG fl)
{
ULONG rc = SPS_ACCEPT_NOEXCLUDE;
SURFOBJ *pWorkSurf;
PDD_PDEV ppDev = (PDD_PDEV)pso->dhpdev;
XLATEOBJ workXlo;
SURFOBJ *psoToUse;
PCM_CURSOR_SHAPE_DATA pCursorShapeData;
RECTL destRectl;
POINTL sourcePt;
unsigned ii;
LONG lineLen;
LONG colorLineLen;
PBYTE srcPtr;
PBYTE dstPtr;
#ifdef DC_HICOLOR
unsigned targetBpp;
#endif
ULONG palMono[2];
ULONG palBGR[256];
unsigned iCacheEntry;
void *UserDefined;
CHDataKeyContext CHContext;
DC_BEGIN_FN("DrvSetPointerShape");
/************************************************************************/
// Trace useful info about the cursor
/************************************************************************/
TRC_DBG((TB, "pso %#hlx psoMask %#hlx psoColor %#hlx pxlo %#hlx",
pso, psoMask, psoColor, pxlo));
TRC_DBG((TB, "hot spot (%d, %d) x, y (%d, %d)", xHot, yHot, x, y));
TRC_DBG((TB, "Flags %#hlx", fl));
/************************************************************************/
/* check for the shared memory */
/************************************************************************/
if (pddShm != NULL && cmCursorCacheHandle != NULL)
{
/********************************************************************/
// Check to see if the WD got the last cursor we passed it.
//
// Potentially, we might get called and then called again before the
// WD gets round to sending the first cursor. This doesn't matter
// for a cursor that is already cached - its just a form of spoiling!
// But if it was a cursor definition packet that didn't get sent,
// then later on when we try to use it again, we will send the client
// instructions to use a cache entry for which it doesn't have any
// bits!
/********************************************************************/
if (pddShm->cm.cmBitsWaiting)
{
TRC_ALT((TB, "WD did not pick up cursor bits - removing entry %d",
pddShm->cm.cmCacheEntry));
CH_RemoveCacheEntry(cmCursorCacheHandle,
pddShm->cm.cmCacheEntry);
}
/************************************************************************/
/* Returning SPS_ACCEPT_NOEXCLUDE means we can ignore prcl. */
/************************************************************************/
DC_IGNORE_PARAMETER(prcl);
DC_IGNORE_PARAMETER(x);
DC_IGNORE_PARAMETER(y);
/************************************************************************/
/* Set up the position information - in particular, the cursor can be */
/* unhidden via this function */
/************************************************************************/
if (x == -1) {
/********************************************************************/
/* -1 means hide the pointer. */
/********************************************************************/
TRC_NRM((TB, "Hide the pointer"));
pddShm->cm.cmHidden = TRUE;
}
else {
if (pddShm->cm.cmHidden) {
TRC_NRM((TB, "Unhide the pointer"));
}
pddShm->cm.cmHidden = FALSE;
}
// Set up a local pointer to the cursor shape data.
pCursorShapeData = &(pddShm->cm.cmCursorShapeData);
// Check mask pointer and cursor size. For no mask or too-large pointer,
// we send a null cursor. Note that the bitmap we are passed contains
// TWO masks, one 'above' the other, and so is in fact twice the
// height of the cursor, so we divide cy by 2.
if (psoMask == NULL ||
(psoMask->sizlBitmap.cx > CM_MAX_CURSOR_WIDTH) ||
((psoMask->sizlBitmap.cy / 2) > CM_MAX_CURSOR_HEIGHT)) {
// Note that NULL cursor is not the same as hiding the cursor using
// DrvMovePointer(), it is a transparent shape that cannot be
// changed without another DrvSetPointerShape() call.
TRC_NRM((TB, "Transparent or too-large cursor: psoMask=%p, "
"width=%u, height=%u", psoMask,
(psoMask != NULL ? psoMask->sizlBitmap.cx : 0),
(psoMask != NULL ? psoMask->sizlBitmap.cy / 2 : 0)));
CM_SET_NULL_CURSOR(pCursorShapeData);
pddShm->cm.cmHidden = FALSE;
pddShm->cm.cmCacheHit = FALSE;
pddShm->cm.cmCursorStamp = cmNextCursorStamp++;
// We set a null cursor. Now tell GDI to simulate it.
// do this if it's alpha or if a mask is specified which
// means the cursor is too big per the test above
if ( fl & SPS_ALPHA || psoMask) {
rc = SPS_DECLINE;
SCH_DDOutputAvailable(ppDev, TRUE);
}
DC_QUIT;
}
/************************************************************************/
// Now we look to see if the cursor is one we've sent before.
// We have to cache both the mask and any color information as
// potentially we could have the same _shape_ cursor but with different
// colors.
/************************************************************************/
CH_CreateKeyFromFirstData(&CHContext, psoMask->pvBits, psoMask->cjBits);
if (psoColor != NULL)
CH_CreateKeyFromNextData(&CHContext, psoColor->pvBits,
psoColor->cjBits);
/************************************************************************/
/* Now we can look for the cursor in the cache */
/************************************************************************/
if (CH_SearchCache(cmCursorCacheHandle, CHContext.Key1, CHContext.Key2,
&UserDefined, &iCacheEntry))
{
TRC_NRM((TB, "Found cached cursor %d", iCacheEntry));
/********************************************************************/
/* Flag a cache hit */
/********************************************************************/
pddShm->cm.cmCacheHit = TRUE;
pddShm->cm.cmCacheEntry = iCacheEntry;
}
else
{
/********************************************************************/
/* If we didn't find it, then let's cache it */
/********************************************************************/
pddShm->cm.cmCacheHit = FALSE;
iCacheEntry = CH_CacheKey(cmCursorCacheHandle, CHContext.Key1,
CHContext.Key2, NULL);
pddShm->cm.cmCacheEntry = iCacheEntry;
TRC_NRM((TB, "Cache new cursor: iEntry(%u)", iCacheEntry));
/********************************************************************/
// Tell the WD that there are bits waiting for it.
// We do this here no matter if we DC_QUIT later, to make sure
// we clean up the new cache entry on the next call if the WD has
// not picked up the bits.
/********************************************************************/
pddShm->cm.cmBitsWaiting = TRUE;
/********************************************************************/
/* We've been passed a system cursor. Fill in the header for our */
/* local cursor. We can get the hot spot position and cursor size */
/* and width easily. Note that the bitmap we are passed contains */
/* TWO masks, one 'above' the other, and so is in fact twice the */
/* height of the cursor */
/********************************************************************/
pCursorShapeData->hdr.ptHotSpot.x = xHot;
pCursorShapeData->hdr.ptHotSpot.y = yHot;
TRC_NRM((TB, "Pointer mask is %#hlx by %#hlx pixels (lDelta: %#hlx)",
psoMask->sizlBitmap.cx,
psoMask->sizlBitmap.cy,
psoMask->lDelta));
pCursorShapeData->hdr.cx = (WORD)psoMask->sizlBitmap.cx;
pCursorShapeData->hdr.cy = (WORD)psoMask->sizlBitmap.cy / 2;
/********************************************************************/
/* lDelta may be negative for an inverted cursor */
/********************************************************************/
lineLen = (psoMask->lDelta >= 0 ? psoMask->lDelta : -psoMask->lDelta);
/********************************************************************/
/* set up the common parts of the shape header */
/********************************************************************/
pCursorShapeData->hdr.cPlanes = 1;
pCursorShapeData->hdr.cbMaskRowWidth =
(WORD)(((psoMask->sizlBitmap.cx + 15) & ~15) / 8);
/********************************************************************/
/* Check to see what format we want the cursor in */
/********************************************************************/
if (pddShm->cm.cmNativeColor)
{
TRC_NRM((TB, "Using native bpp %d", ppDev->cClientBitsPerPel));
/****************************************************************/
/* If we've been passed a mono cursor, we just get the bits as */
/* for the AND mask, flipping as we go */
/****************************************************************/
if (NULL == psoColor)
{
unsigned targetRowWidth;
TRC_NRM((TB, "Monochrome pointer"));
/************************************************************/
/* Get the AND mask - this is always mono. Note that we */
/* have to flip it too */
/************************************************************/
TRC_NRM((TB, "Copy %d bytes of 1bpp AND mask",
psoMask->cjBits));
targetRowWidth = ((psoMask->sizlBitmap.cx + 15) & ~15) / 8;
dstPtr = pCursorShapeData->data;
srcPtr = (BYTE *)psoMask->pvScan0
+ psoMask->cjBits / 2
- lineLen;
for (ii = pCursorShapeData->hdr.cy; ii > 0 ; ii--)
{
memcpy(dstPtr, srcPtr, targetRowWidth);
srcPtr -= lineLen;
dstPtr += targetRowWidth;
}
/************************************************************/
/* now the XOR mask */
/************************************************************/
pCursorShapeData->hdr.cBitsPerPel = 1;
dstPtr = &(pCursorShapeData->data[targetRowWidth *
pCursorShapeData->hdr.cy]);
srcPtr = (BYTE *)psoMask->pvScan0
+ psoMask->cjBits - lineLen;
pCursorShapeData->hdr.cbColorRowWidth = targetRowWidth;
for (ii = pCursorShapeData->hdr.cy; ii > 0 ; ii--)
{
memcpy(dstPtr, srcPtr, targetRowWidth);
srcPtr -= lineLen;
dstPtr += targetRowWidth;
}
}
else
{
unsigned targetMaskRowWidth;
TRC_NRM((TB, "Color pointer"));
/************************************************************/
/* Get the AND mask - this is always mono */
/************************************************************/
TRC_NRM((TB, "Copy %d bytes of 1bpp AND mask",
psoMask->cjBits));
targetMaskRowWidth = ((psoMask->sizlBitmap.cx + 15) & ~15) / 8;
dstPtr = pCursorShapeData->data;
srcPtr = (BYTE *)psoMask->pvScan0;
for (ii = pCursorShapeData->hdr.cy; ii > 0 ; ii--)
{
memcpy(dstPtr, srcPtr, targetMaskRowWidth);
srcPtr += lineLen;
dstPtr += targetMaskRowWidth;
}
/************************************************************/
/* and the XOR mask */
/************************************************************/
#ifndef DC_HICOLOR
pCursorShapeData->hdr.cBitsPerPel =
(BYTE)ppDev->cClientBitsPerPel;
#endif
colorLineLen = psoColor->lDelta >=0 ? psoColor->lDelta :
-psoColor->lDelta;
pCursorShapeData->hdr.cbColorRowWidth = colorLineLen;
#ifdef DC_HICOLOR
if (psoColor->iBitmapFormat < BMF_24BPP) {
pCursorShapeData->hdr.cBitsPerPel = 1 << psoColor->iBitmapFormat;
}
else if (psoColor->iBitmapFormat == BMF_24BPP) {
pCursorShapeData->hdr.cBitsPerPel = 24;
}
else if (psoColor->iBitmapFormat == BMF_32BPP) {
pCursorShapeData->hdr.cBitsPerPel = 32;
}
else {
TRC_ASSERT((FALSE), (TB, "Bitmap format not supported"));
DC_QUIT;
}
/********************************************************/
/* We've got a number of options at this point: */
/* */
/* - old clients only understand 8 or 24bpp cursors, so */
/* if the cursor is at 15/16bpp and its an old client, */
/* we need to convert it to 24bpp */
/* */
/* - 8bpp cursors assume the color information is in a */
/* color table; if we're running in hicolor, there */
/* won't be one, so we have to convert the cursor to a */
/* hicolor depth */
/* */
/* - anything else, we can just copy the bytes across */
/* and send them */
/* */
/********************************************************/
if ((!pddShm->cm.cmSendAnyColor &&
((pCursorShapeData->hdr.cBitsPerPel == 15) ||
(pCursorShapeData->hdr.cBitsPerPel == 16)))
|| ((pCursorShapeData->hdr.cBitsPerPel == 8) &&
(ppDev->cClientBitsPerPel > 8)))
{
/****************************************************/
/* if we can send at any old color...
/****************************************************/
if (pddShm->cm.cmSendAnyColor)
{
/************************************************/
/* ...we'll convert to the client session color */
/* depth */
/************************************************/
targetBpp = ppDev->cClientBitsPerPel;
}
else
{
/************************************************/
/* otherwise we'll convert to 24bpp */
/************************************************/
targetBpp = 24;
}
TRC_NRM((TB, "Convert %dbpp cursor to %d...",
pCursorShapeData->hdr.cBitsPerPel, targetBpp));
/****************************************************/
/* Use the supplied xlate object to convert to the */
/* client bpp */
/****************************************************/
if (targetBpp == 24)
{
pWorkSurf = EngLockSurface((HSURF)cmWorkBitmap24);
pCursorShapeData->hdr.cBitsPerPel = 24;
}
else
{
pWorkSurf = EngLockSurface((HSURF)cmWorkBitmap16);
pCursorShapeData->hdr.cBitsPerPel = 16;
}
if (NULL == pWorkSurf)
{
TRC_ERR((TB, "Failed to lock work surface"));
DC_QUIT;
}
TRC_DBG((TB, "Locked surface"));
/****************************************************/
/* Set up the 'to' rectangle */
/****************************************************/
destRectl.top = 0;
destRectl.left = 0;
destRectl.right = psoColor->sizlBitmap.cx;
destRectl.bottom = psoColor->sizlBitmap.cy;
/****************************************************/
/* and the source start point */
/****************************************************/
sourcePt.x = 0;
sourcePt.y = 0;
if (!EngBitBlt(pWorkSurf,
psoColor,
NULL, /* mask surface */
NULL, /* clip object */
pxlo, /* XLATE object */
&destRectl,
&sourcePt,
NULL, /* mask origin */
NULL, /* brush */
NULL, /* brush origin */
0xcccc)) /* SRCCPY */
{
TRC_ERR((TB, "Failed to Blt to work bitmap"));
EngUnlockSurface(pWorkSurf);
DC_QUIT;
}
TRC_DBG((TB, "Got the bits into the work bitmap"));
/****************************************************/
/* Finally we extract the color AND mask from the */
/* work bitmap */
/****************************************************/
TRC_NRM((TB, "Copy %d bytes of color",
pWorkSurf->cjBits));
memcpy(&(pCursorShapeData->data[targetMaskRowWidth *
pCursorShapeData->hdr.cy]),
pWorkSurf->pvBits,
pWorkSurf->cjBits);
pCursorShapeData->hdr.cbColorRowWidth = pWorkSurf->lDelta;
EngUnlockSurface(pWorkSurf);
}
else
{
#endif
TRC_NRM((TB, "Copy %d bytes of %ubpp AND mask (lDelta %u)",
colorLineLen * pCursorShapeData->hdr.cy,
pCursorShapeData->hdr.cBitsPerPel,
colorLineLen));
dstPtr = &(pCursorShapeData->data[targetMaskRowWidth *
pCursorShapeData->hdr.cy]);
srcPtr = (BYTE *)psoColor->pvScan0;
for (ii = pCursorShapeData->hdr.cy; ii > 0 ; ii--)
{
memcpy(dstPtr, srcPtr, colorLineLen);
srcPtr += psoColor->lDelta;
dstPtr += colorLineLen;
}
#ifdef DC_HICOLOR
}
#endif
// {
// memcpy(dstPtr, srcPtr, lineLen);
// srcPtr += colorLineLen;
// dstPtr += colorLineLen;
// }
}
}
else
{
/****************************************************************/
// Now we need to blt the bitmap in to our work bitmap at
// 24bpp and get the bits from there.
/****************************************************************/
TRC_NRM((TB, "Forcing 24bpp"));
pCursorShapeData->hdr.cBitsPerPel = 24;
/****************************************************************/
/* Get the AND mask - this is always mono */
/****************************************************************/
TRC_NRM((TB, "Copy %d bytes of 1bpp AND mask", psoMask->cjBits/2))
dstPtr = pCursorShapeData->data;
srcPtr = (BYTE *)psoMask->pvScan0;
for (ii = pCursorShapeData->hdr.cy; ii > 0 ; ii--)
{
memcpy(dstPtr, srcPtr, lineLen);
srcPtr += lineLen;
dstPtr += lineLen;
}
/****************************************************************/
/* If we've been passed a mono cursor, we need to set up our */
/* own translation object, complete with color table */
/****************************************************************/
if (NULL == psoColor)
{
TRC_NRM((TB, "Monochrome pointer"));
// Row Width should be LONG aligned
pCursorShapeData->hdr.cbColorRowWidth =
(psoMask->sizlBitmap.cx *
pCursorShapeData->hdr.cBitsPerPel / 8 + 3) & ~3;
palMono[0] = 0;
palMono[1] = 0xFFFFFFFF;
workXlo.iUniq = 0;
workXlo.flXlate = XO_TABLE;
workXlo.iSrcType = PAL_INDEXED;
workXlo.iDstType = PAL_RGB;
workXlo.cEntries = 2;
workXlo.pulXlate = palMono;
/************************************************************/
/* Set up the 'to' rectangle */
/************************************************************/
destRectl.top = 0;
destRectl.left = 0;
destRectl.right = psoMask->sizlBitmap.cx;
destRectl.bottom = psoMask->sizlBitmap.cy / 2;
/************************************************************/
/* the source AND mask is the 'lower' half of the supplied */
/* bitmap */
/************************************************************/
sourcePt.x = 0;
sourcePt.y = psoMask->sizlBitmap.cy / 2;
/************************************************************/
/* and set up a pointer to the correct SO to use */
/************************************************************/
psoToUse = psoMask;
}
else
{
/************************************************************/
/* check that we're at 8bpp - this won't work if not */
/************************************************************/
TRC_ASSERT( (ppDev->cProtocolBitsPerPel == 8),
(TB, "Palette at %d bpp",
ppDev->cProtocolBitsPerPel) );
colorLineLen = psoColor->lDelta >= 0 ? psoColor->lDelta :
-psoColor->lDelta;
pCursorShapeData->hdr.cbColorRowWidth = colorLineLen *
pCursorShapeData->hdr.cBitsPerPel / 8;
if (psoColor->iBitmapFormat <= BMF_8BPP) {
/************************************************************/
/* For color cursors, the supplied XLATEOBJ is set up to */
/* convert from the cursor bpp to the screen bpp - which in */
/* most cases for us is a no-op since we will most often be */
/* at 8bpp (the maximum color depth we support). However, */
/* we actually need to convert to 24bpp for the wire */
/* format, which requires a change to the XLATEOBJ. We */
/* can't do this in place, since the XLATEOBJ we are passed */
/* seems to be used elsewhere - not least to display the */
/* desktop icons - so we set up our own */
/************************************************************/
workXlo.iUniq = 0; /* don't cache */
/************************************************************/
/* Set up to use the current palette (which is fortunately */
/* held in the DD_PDEV structure) */
/************************************************************/
workXlo.flXlate = XO_TABLE; /* we provide a lookup table */
/* to do the translation */
workXlo.iSrcType = PAL_INDEXED;/* pel values in the src bmp */
/* are indices into the table*/
workXlo.iDstType = PAL_RGB; /* entries in the table are */
/* RGB values for the dst bmp*/
workXlo.cEntries = 1 << ppDev->cProtocolBitsPerPel;
/* which has this many entries */
/************************************************************/
/* Now set up the palette to use in the XLATEOBJ. We have */
/* the current palette stored in the DD_PDEV structure - */
/* unfortunately it is in RGB format and we need BGR... */
/************************************************************/
for (ii = 0 ; ii < workXlo.cEntries; ii++)
{
palBGR[ii] = (ppDev->Palette[ii].peRed << 16)
| (ppDev->Palette[ii].peGreen << 8)
| (ppDev->Palette[ii].peBlue);
}
workXlo.pulXlate = palBGR;
/************************************************************/
/* Set up the 'to' rectangle */
/************************************************************/
destRectl.top = 0;
destRectl.left = 0;
destRectl.right = psoColor->sizlBitmap.cx;
destRectl.bottom = psoColor->sizlBitmap.cy;
/************************************************************/
/* and the source start point */
/************************************************************/
sourcePt.x = 0;
sourcePt.y = 0;
/************************************************************/
/* set up a pointer to the correct SO to use */
/************************************************************/
psoToUse = psoColor;
}
else {
// We got a high color cursor to translate to 24bpp workbitmap
// can't easily simulate the XLATEOBJ, since this is TS4 code path
// only, we will just let it fall back to GDI bitmap cursor!
CM_SET_NULL_CURSOR(pCursorShapeData);
pddShm->cm.cmHidden = FALSE;
pddShm->cm.cmCacheHit = FALSE;
pddShm->cm.cmCursorStamp = cmNextCursorStamp++;
rc = SPS_DECLINE;
SCH_DDOutputAvailable(ppDev, TRUE);
DC_QUIT;
}
}
// Lock the work bitmap to get a surface to pass to EngBitBlt.
pWorkSurf = EngLockSurface((HSURF)cmWorkBitmap24);
if (pWorkSurf != NULL) {
BOOL RetVal;
TRC_DBG((TB, "Locked surface"));
// Do the blt.
RetVal = EngBitBlt(pWorkSurf,
psoToUse,
NULL, /* mask surface */
NULL, /* clip object */
&workXlo, /* XLATE object */
&destRectl,
&sourcePt,
NULL, /* mask origin */
NULL, /* brush */
NULL, /* brush origin */
0xcccc); /* SRCCPY */
EngUnlockSurface(pWorkSurf);
if (RetVal) {
TRC_DBG((TB, "Got the bits into the work bitmap"));
}
else {
TRC_ERR((TB, "Failed to Blt to work bitmap"));
goto FailBlt;
}
}
else {
TRC_ERR((TB, "Failed to lock work surface"));
FailBlt:
// Set the cursor bits to all black. On the client,
// this will be seen as the correct mask but a black
// region inside where the cursor color bits would have
// been.
memset(pWorkSurf->pvBits, 0, pWorkSurf->cjBits);
// We do not DC_QUIT here, we want to complete the cursor
// creation even if the output is mostly wrong, since
// we've already cached the bits.
}
/****************************************************************/
/* Finally we extract the color AND mask from the work bitmap */
/****************************************************************/
TRC_NRM((TB, "Copy %d bytes of color", pWorkSurf->cjBits));
memcpy(&(pCursorShapeData->data[psoMask->cjBits / 2]),
pWorkSurf->pvBits,
pWorkSurf->cjBits);
}
}
/************************************************************************/
/* Set the cursor stamp */
/************************************************************************/
pddShm->cm.cmCursorStamp = cmNextCursorStamp++;
/************************************************************************/
/* Tell the scheduler that we have some new cursor info */
/************************************************************************/
SCH_DDOutputAvailable(ppDev, FALSE);
}
else {
TRC_ERR((TB, "shared memory is not allocated or invalid cursor handle: "
"pddshm=%p, cmCursorCacheHandle=%p", pddShm, cmCursorCacheHandle));
}
DC_EXIT_POINT:
DC_END_FN();
return(rc);
} /* DrvSetPointerShape */