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windows-nt/Source/XPSP1/NT/drivers/video/ms/weitek/disp/thunk.c

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2020-09-26 03:20:57 -05:00
/******************************Module*Header*******************************\
* Module Name: thunk.c
*
* This module exists solely for testing, to make it is easy to instrument
* all the driver's Drv calls.
*
* Note that most of this stuff will only be compiled in a checked (debug)
* build.
*
* Copyright (c) 1993-1995 Microsoft Corporation
\**************************************************************************/
#include "precomp.h"
////////////////////////////////////////////////////////////////////////////
#if DBG
// This entire module is only enabled for Checked builds
#define SYNCH_ENTER() 0 // do nothing
#define SYNCH_LEAVE() 0 // do nothing
////////////////////////////////////////////////////////////////////////////
BOOL gbNull = FALSE; // Set to TRUE with the debugger to test the speed
// of NT with an inifinitely fast display driver
// (actually, almost infinitely fast since we're
// not hooking all the calls we could be)
DHPDEV DbgEnablePDEV(
DEVMODEW* pDevmode,
PWSTR pwszLogAddress,
ULONG cPatterns,
HSURF* ahsurfPatterns,
ULONG cjGdiInfo,
ULONG* pGdiInfo,
ULONG cjDevInfo,
DEVINFO* pDevInfo,
HDEV hdev,
PWSTR pwszDeviceName,
HANDLE hDriver)
{
DHPDEV bRet;
SYNCH_ENTER();
DISPDBG((5, "DrvEnablePDEV"));
bRet = DrvEnablePDEV(
pDevmode,
pwszLogAddress,
cPatterns,
ahsurfPatterns,
cjGdiInfo,
pGdiInfo,
cjDevInfo,
pDevInfo,
hdev,
pwszDeviceName,
hDriver);
DISPDBG((6, "DrvEnablePDEV done"));
SYNCH_LEAVE();
return(bRet);
}
VOID DbgCompletePDEV(
DHPDEV dhpdev,
HDEV hdev)
{
SYNCH_ENTER();
DISPDBG((5, "DrvCompletePDEV"));
DrvCompletePDEV(
dhpdev,
hdev);
DISPDBG((6, "DrvCompletePDEV done"));
SYNCH_LEAVE();
}
VOID DbgDisablePDEV(DHPDEV dhpdev)
{
PDEV* ppdev;
BOOL bNeedSync;
ppdev = (PDEV*) dhpdev;
bNeedSync = ppdev->bEnabled;
//
// If a PDEV has not been disabled by DrvAssertMode
// then this call is synchronized as access to the
// hardware may occur. If the PDEV has been disabled
// by DrvAssertMode then access to the hardware is not
// allowed (all hardware access needs to be done in the
// DrvAssertMode handling) and synchronization is not done
// as drawing may be occurring in a different PDEV.
//
if (bNeedSync)
{
SYNCH_ENTER();
}
DISPDBG((5, "DrvDisable"));
DrvDisablePDEV(dhpdev);
DISPDBG((6, "DrvDisable done"));
if (bNeedSync)
{
SYNCH_LEAVE();
}
}
HSURF DbgEnableSurface(DHPDEV dhpdev)
{
HSURF h;
SYNCH_ENTER();
DISPDBG((5, "DrvEnableSurface"));
h = DrvEnableSurface(dhpdev);
DISPDBG((6, "DrvEnableSurface done"));
SYNCH_LEAVE();
return(h);
}
VOID DbgDisableSurface(DHPDEV dhpdev)
{
PDEV* ppdev;
BOOL bNeedSync;
ppdev = (PDEV*) dhpdev;
bNeedSync = ppdev->bEnabled;
//
// If a PDEV has not been disabled by DrvAssertMode
// then this call is synchronized as access to the
// hardware may occur. If the PDEV has been disabled
// by DrvAssertMode then access to the hardware is not
// allowed (all hardware access needs to be done in the
// DrvAssertMode handling) and synchronization is not done
// as drawing may be occurring in a different PDEV.
//
if (bNeedSync)
{
SYNCH_ENTER();
}
DISPDBG((5, "DrvDisableSurface"));
DrvDisableSurface(dhpdev);
DISPDBG((6, "DrvDisableSurface done"));
if (bNeedSync)
{
SYNCH_LEAVE();
}
}
BOOL DbgAssertMode(
DHPDEV dhpdev,
BOOL bEnable)
{
BOOL b;
SYNCH_ENTER();
DISPDBG((5, "DrvAssertMode"));
b = DrvAssertMode(dhpdev,bEnable);
DISPDBG((6, "DrvAssertMode done"));
SYNCH_LEAVE();
return (b);
}
//
// We do not SYNCH_ENTER since we have not initalized the driver.
// We just want to get the list of modes from the miniport.
//
ULONG DbgGetModes(
HANDLE hDriver,
ULONG cjSize,
DEVMODEW* pdm)
{
ULONG u;
DISPDBG((5, "DrvGetModes"));
u = DrvGetModes(
hDriver,
cjSize,
pdm);
DISPDBG((6, "DrvGetModes done"));
return(u);
}
VOID DbgMovePointer(SURFOBJ *pso,LONG x,LONG y,RECTL *prcl)
{
if (gbNull)
return;
// Note: Because we set GCAPS_ASYNCMOVE, we don't want to do a
// SYNCH_ENTER/LEAVE here.
DISPDBG((5, "DrvMovePointer"));
DrvMovePointer(pso,x,y,prcl);
DISPDBG((6, "DrvMovePointer done"));
}
ULONG DbgSetPointerShape(
SURFOBJ* pso,
SURFOBJ* psoMask,
SURFOBJ* psoColor,
XLATEOBJ* pxlo,
LONG xHot,
LONG yHot,
LONG x,
LONG y,
RECTL* prcl,
FLONG fl)
{
ULONG u;
if (gbNull)
return(SPS_ACCEPT_NOEXCLUDE);
SYNCH_ENTER();
DISPDBG((5, "DrvSetPointerShape"));
u = DrvSetPointerShape(
pso,
psoMask,
psoColor,
pxlo,
xHot,
yHot,
x,
y,
prcl,
fl);
DISPDBG((6, "DrvSetPointerShape done"));
SYNCH_LEAVE();
return(u);
}
ULONG DbgDitherColor(
DHPDEV dhpdev,
ULONG iMode,
ULONG rgb,
ULONG* pul)
{
ULONG u;
if (gbNull)
return(DCR_DRIVER);
//
// No need to Synchronize Dither color.
//
DISPDBG((5, "DrvDitherColor"));
u = DrvDitherColor(
dhpdev,
iMode,
rgb,
pul);
DISPDBG((6, "DrvDitherColor done"));
return(u);
}
BOOL DbgSetPalette(
DHPDEV dhpdev,
PALOBJ* ppalo,
FLONG fl,
ULONG iStart,
ULONG cColors)
{
BOOL u;
if (gbNull)
return(TRUE);
SYNCH_ENTER();
DISPDBG((5, "DrvSetPalette"));
u = DrvSetPalette(
dhpdev,
ppalo,
fl,
iStart,
cColors);
DISPDBG((6, "DrvSetPalette done"));
SYNCH_LEAVE();
return(u);
}
BOOL DbgCopyBits(
SURFOBJ* psoDst,
SURFOBJ* psoSrc,
CLIPOBJ* pco,
XLATEOBJ* pxlo,
RECTL* prclDst,
POINTL* pptlSrc)
{
BOOL u;
if (gbNull)
return(TRUE);
SYNCH_ENTER();
DISPDBG((5, "DrvCopyBits"));
u = DrvCopyBits(
psoDst,
psoSrc,
pco,
pxlo,
prclDst,
pptlSrc);
DISPDBG((6, "DrvCopyBits done"));
SYNCH_LEAVE();
return(u);
}
BOOL DbgBitBlt(
SURFOBJ* psoDst,
SURFOBJ* psoSrc,
SURFOBJ* psoMask,
CLIPOBJ* pco,
XLATEOBJ* pxlo,
RECTL* prclDst,
POINTL* pptlSrc,
POINTL* pptlMask,
BRUSHOBJ* pbo,
POINTL* pptlBrush,
ROP4 rop4)
{
BOOL u;
if (gbNull)
return(TRUE);
SYNCH_ENTER();
DISPDBG((5, "DrvBitBlt"));
u = DrvBitBlt(
psoDst,
psoSrc,
psoMask,
pco,
pxlo,
prclDst,
pptlSrc,
pptlMask,
pbo,
pptlBrush,
rop4);
DISPDBG((6, "DrvBitBlt done"));
SYNCH_LEAVE();
return(u);
}
BOOL DbgTextOut(
SURFOBJ* pso,
STROBJ* pstro,
FONTOBJ* pfo,
CLIPOBJ* pco,
RECTL* prclExtra,
RECTL* prclOpaque,
BRUSHOBJ* pboFore,
BRUSHOBJ* pboOpaque,
POINTL* pptlOrg,
MIX mix)
{
BOOL u;
if (gbNull)
return(TRUE);
SYNCH_ENTER();
DISPDBG((5, "DrvTextOut"));
u = DrvTextOut(
pso,
pstro,
pfo,
pco,
prclExtra,
prclOpaque,
pboFore,
pboOpaque,
pptlOrg,
mix);
DISPDBG((6, "DrvTextOut done"));
SYNCH_LEAVE();
return(u);
}
BOOL DbgStrokePath(
SURFOBJ* pso,
PATHOBJ* ppo,
CLIPOBJ* pco,
XFORMOBJ* pxo,
BRUSHOBJ* pbo,
POINTL* pptlBrushOrg,
LINEATTRS* plineattrs,
MIX mix)
{
BOOL u;
if (gbNull)
return(TRUE);
SYNCH_ENTER();
DISPDBG((5, "DrvStrokePath"));
u = DrvStrokePath(
pso,
ppo,
pco,
pxo,
pbo,
pptlBrushOrg,
plineattrs,
mix);
DISPDBG((6, "DrvStrokePath done"));
SYNCH_LEAVE();
return(u);
}
BOOL DbgFillPath(
SURFOBJ* pso,
PATHOBJ* ppo,
CLIPOBJ* pco,
BRUSHOBJ* pbo,
POINTL* pptlBrushOrg,
MIX mix,
FLONG flOptions)
{
BOOL u;
if (gbNull)
return(TRUE);
SYNCH_ENTER();
DISPDBG((5, "DrvFillPath"));
u = DrvFillPath(pso,
ppo,
pco,
pbo,
pptlBrushOrg,
mix,
flOptions);
DISPDBG((6, "DrvFillPath done"));
SYNCH_LEAVE();
return(u);
}
BOOL DbgPaint(
SURFOBJ* pso,
CLIPOBJ* pco,
BRUSHOBJ* pbo,
POINTL* pptlBrushOrg,
MIX mix)
{
BOOL u;
if (gbNull)
return(TRUE);
SYNCH_ENTER();
DISPDBG((5, "DrvPaint"));
u = DrvPaint(
pso,
pco,
pbo,
pptlBrushOrg,
mix);
DISPDBG((6, "DrvPaint done"));
SYNCH_LEAVE();
return(u);
}
BOOL DbgRealizeBrush(
BRUSHOBJ* pbo,
SURFOBJ* psoTarget,
SURFOBJ* psoPattern,
SURFOBJ* psoMask,
XLATEOBJ* pxlo,
ULONG iHatch)
{
BOOL u;
// Note: The only time DrvRealizeBrush is called by GDI is when we've
// called BRUSHOBJ_pvGetRbrush in the middle of a DrvBitBlt
// call, and GDI had to call us back. Since we're still in the
// middle of DrvBitBlt, synchronization has already taken care of.
// For the same reason, this will never be called when 'gbNull'
// is TRUE, so it doesn't even make sense to check gbNull...
DISPDBG((5, "DrvRealizeBrush"));
u = DrvRealizeBrush(
pbo,
psoTarget,
psoPattern,
psoMask,
pxlo,
iHatch);
DISPDBG((6, "DrvRealizeBrush done"));
return(u);
}
HBITMAP DbgCreateDeviceBitmap(DHPDEV dhpdev, SIZEL sizl, ULONG iFormat)
{
HBITMAP hbm;
if (gbNull) // I would pretend to have created a
return(FALSE); // bitmap when gbNull is set, by we
// would need some code to back this
// up so that the system wouldn't
// crash...
SYNCH_ENTER();
DISPDBG((5, "DrvCreateDeviceBitmap"));
hbm = DrvCreateDeviceBitmap(dhpdev, sizl, iFormat);
DISPDBG((6, "DrvCreateDeviceBitmap done"));
SYNCH_LEAVE();
return(hbm);
}
VOID DbgDeleteDeviceBitmap(DHSURF dhsurf)
{
SYNCH_ENTER();
DISPDBG((5, "DrvDeleteDeviceBitmap"));
DrvDeleteDeviceBitmap(dhsurf);
DISPDBG((6, "DrvDeleteDeviceBitmap done"));
SYNCH_LEAVE();
}
VOID DbgDestroyFont(FONTOBJ* pfo)
{
SYNCH_ENTER();
DISPDBG((5, "DrvDestroyFont"));
DrvDestroyFont(pfo);
DISPDBG((6, "DrvDestroyFont done"));
SYNCH_LEAVE();
}
BOOL DbgStretchBlt(
SURFOBJ* psoDst,
SURFOBJ* psoSrc,
SURFOBJ* psoMask,
CLIPOBJ* pco,
XLATEOBJ* pxlo,
COLORADJUSTMENT* pca,
POINTL* pptlHTOrg,
RECTL* prclDst,
RECTL* prclSrc,
POINTL* pptlMask,
ULONG iMode)
{
BOOL u;
if (gbNull)
return(TRUE);
SYNCH_ENTER();
DISPDBG((5, "DrvStretchBlt"));
{
// Our DrvStretchBlt routine calls back to EngStretchBlt, which
// calls back to our DrvCopyBits routine -- so we have to be
// re-entrant for synchronization...
SYNCH_LEAVE();
}
u = DrvStretchBlt(psoDst, psoSrc, psoMask, pco, pxlo, pca, pptlHTOrg,
prclDst, prclSrc, pptlMask, iMode);
{
SYNCH_ENTER();
}
DISPDBG((6, "DrvStretchBlt done"));
SYNCH_LEAVE();
return(u);
}
VOID DbgSynchronize(
DHPDEV dhpdev,
RECTL* prcl)
{
SYNCH_ENTER();
DISPDBG((5, "DrvSynchronize"));
DrvSynchronize(dhpdev, prcl);
DISPDBG((6, "DrvSynchronize done"));
SYNCH_LEAVE();
}
#endif
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