VirtualBox

source: vbox/trunk/src/VBox/Additions/WINNT/Graphics/Display/enable.c@ 24646

Last change on this file since 24646 was 22868, checked in by vboxsync, 15 years ago

Windows guest display driver: fixed incorrect creation of the screen bitmap and surface in DrvEnableSurface.

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File size: 44.2 KB
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1/******************************Module*Header*******************************\
2*
3 * Copyright (C) 2006-2007 Sun Microsystems, Inc.
4 *
5 * This file is part of VirtualBox Open Source Edition (OSE), as
6 * available from http://www.virtualbox.org. This file is free software;
7 * you can redistribute it and/or modify it under the terms of the GNU
8 * General Public License (GPL) as published by the Free Software
9 * Foundation, in version 2 as it comes in the "COPYING" file of the
10 * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
11 * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
12 *
13 * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa
14 * Clara, CA 95054 USA or visit http://www.sun.com if you need
15 * additional information or have any questions.
16*/
17/*
18* Based in part on Microsoft DDK sample code
19*
20* *******************
21* * GDI SAMPLE CODE *
22* *******************
23*
24* Module Name: enable.c
25*
26* This module contains the functions that enable and disable the
27* driver, the pdev, and the surface.
28*
29* Copyright (c) 1992-1998 Microsoft Corporation
30\**************************************************************************/
31
32#include "driver.h"
33#include "dd.h"
34#include <VBoxDisplay.h>
35
36// The driver function table with all function index/address pairs
37
38// Hook functions to track dirty rectangles and generate RDP orders.
39// NT4 functions
40DRVFN gadrvfn_nt4[] = {
41 { INDEX_DrvEnablePDEV, (PFN) DrvEnablePDEV }, // 0
42 { INDEX_DrvCompletePDEV, (PFN) DrvCompletePDEV }, // 1
43 { INDEX_DrvDisablePDEV, (PFN) DrvDisablePDEV }, // 2
44 { INDEX_DrvEnableSurface, (PFN) DrvEnableSurface }, // 3
45 { INDEX_DrvDisableSurface, (PFN) DrvDisableSurface }, // 4
46 { INDEX_DrvAssertMode, (PFN) DrvAssertMode }, // 5
47 { INDEX_DrvOffset, (PFN) DrvOffset }, // 6
48 { INDEX_DrvDisableDriver, (PFN) DrvDisableDriver }, // 8
49// { INDEX_DrvCreateDeviceBitmap, (PFN) DrvCreateDeviceBitmap }, // 10
50// { INDEX_DrvDeleteDeviceBitmap, (PFN) DrvDeleteDeviceBitmap }, // 11
51 { INDEX_DrvRealizeBrush, (PFN) DrvRealizeBrush }, // 12
52 { INDEX_DrvDitherColor, (PFN) DrvDitherColor }, // 13
53 { INDEX_DrvStrokePath, (PFN) DrvStrokePath }, // 14
54 { INDEX_DrvFillPath, (PFN) DrvFillPath }, // 15
55 { INDEX_DrvPaint, (PFN) DrvPaint }, // 17
56 { INDEX_DrvBitBlt, (PFN) DrvBitBlt }, // 18
57 { INDEX_DrvCopyBits, (PFN) DrvCopyBits }, // 19
58 { INDEX_DrvStretchBlt, (PFN) DrvStretchBlt, }, // 20
59 { INDEX_DrvSetPalette, (PFN) DrvSetPalette }, // 22
60 { INDEX_DrvTextOut, (PFN) DrvTextOut }, // 23
61 { INDEX_DrvEscape, (PFN) DrvEscape }, // 24
62 { INDEX_DrvSetPointerShape, (PFN) DrvSetPointerShape }, // 29
63 { INDEX_DrvMovePointer, (PFN) DrvMovePointer }, // 30
64 { INDEX_DrvLineTo, (PFN) DrvLineTo }, // 31
65 { INDEX_DrvSynchronize, (PFN) DrvSynchronize }, // 38
66 { INDEX_DrvSaveScreenBits, (PFN) DrvSaveScreenBits }, // 40
67 { INDEX_DrvGetModes, (PFN) DrvGetModes }, // 41
68#ifdef VBOX_WITH_DDRAW
69 { INDEX_DrvGetDirectDrawInfo, (PFN) DrvGetDirectDrawInfo }, // 59 0x3b
70 { INDEX_DrvEnableDirectDraw, (PFN) DrvEnableDirectDraw }, // 60 0x3c
71 { INDEX_DrvDisableDirectDraw, (PFN) DrvDisableDirectDraw }, // 61 0x3d
72#endif
73};
74/* Experimental begin */
75BOOL APIENTRY DrvResetPDEV(DHPDEV dhpdevOld, DHPDEV dhpdevNew)
76{
77 DISPDBG((0, "Experimental %s: %p, %p\n", __FUNCTION__, dhpdevOld, dhpdevNew));
78 return TRUE;
79}
80
81BOOL DrvNineGrid (PVOID x1, PVOID x2, PVOID x3, PVOID x4, PVOID x5, PVOID x6, PVOID x7, PVOID x8, PVOID x9)
82{
83 DISPDBG((0, "Experimental %s: %p, %p, %p, %p, %p, %p, %p, %p, %p\n", __FUNCTION__, x1, x2, x3, x4, x5, x6, x7, x8, x9));
84 return FALSE;
85}
86
87VOID APIENTRY DrvDestroyFont(FONTOBJ *pfo)
88{
89 DISPDBG((0, "Experimental %s: %p\n", __FUNCTION__, pfo));
90}
91
92ULONG APIENTRY DrvEscape(SURFOBJ *pso, ULONG iEsc, ULONG cjIn, PVOID pvIn, ULONG cjOut, PVOID pvOut)
93{
94 PDEV* ppdev = (PDEV*) pso->dhpdev;
95
96 DISPDBG((0, "%s: %p, %p, %p, %p, %p, %p\n", __FUNCTION__, pso, iEsc, cjIn, pvIn, cjOut, pvOut));
97
98 switch(iEsc)
99 {
100#ifdef VBOX_WITH_OPENGL
101 case OPENGL_GETINFO:
102 {
103 if ( cjOut >= sizeof(OPENGL_INFO)
104 && pvOut)
105 {
106 POPENGL_INFO pInfo = (POPENGL_INFO)pvOut;
107
108 pInfo->dwVersion = 2;
109 pInfo->dwDriverVersion = 1;
110 pInfo->szDriverName[0] = 'V';
111 pInfo->szDriverName[1] = 'B';
112 pInfo->szDriverName[2] = 'o';
113 pInfo->szDriverName[3] = 'x';
114 pInfo->szDriverName[4] = 'O';
115 pInfo->szDriverName[5] = 'G';
116 pInfo->szDriverName[6] = 'L';
117 pInfo->szDriverName[7] = 0;
118
119 DISPDBG((0, "OPENGL_GETINFO\n"));
120 return cjOut;
121 }
122 else
123 DISPDBG((0, "OPENGL_GETINFO invalid size %d\n", cjOut)); /* It doesn't matter that we fail here. Opengl32 will fall back to software rendering when this escape is not supported. */
124 break;
125 }
126#endif
127
128 case VBOXESC_ISVRDPACTIVE:
129 {
130 ULONG ret = 0;
131
132#ifndef VBOX_WITH_HGSMI
133 if (ppdev && ppdev->pInfo && vboxHwBufferBeginUpdate (ppdev))
134 {
135 if (ppdev->vbva.pVbvaMemory->fu32ModeFlags
136 & VBVA_F_MODE_VRDP)
137 {
138 ret = 1;
139 }
140 DISPDBG((0, "VBOXESC_ISVRDPACTIVE -> %d (%x)\n", ret, ppdev->vbva.pVbvaMemory->fu32ModeFlags));
141 vboxHwBufferEndUpdate (ppdev);
142 }
143 else
144 DISPDBG((0, "VBOXESC_ISVRDPACTIVE -> 0\n"));
145#else
146 if (ppdev && ppdev->pVBVA)
147 {
148 if (ppdev->pVBVA->u32HostEvents & VBVA_F_MODE_VRDP)
149 {
150 ret = 1;
151 }
152 DISPDBG((0, "VBOXESC_ISVRDPACTIVE -> %d (%x)\n", ret, ppdev->pVBVA->u32HostEvents));
153 }
154 else
155 DISPDBG((0, "VBOXESC_ISVRDPACTIVE -> 0\n"));
156#endif /* VBOX_WITH_HGSMI */
157 return ret;
158 }
159
160 case VBOXESC_SETVISIBLEREGION:
161 {
162 LPRGNDATA lpRgnData = (LPRGNDATA)pvIn;
163
164 DISPDBG((0, "VBOXESC_SETVISIBLEREGION\n"));
165
166 if ( cjIn >= sizeof(RGNDATAHEADER)
167 && pvIn
168 && lpRgnData->rdh.dwSize == sizeof(RGNDATAHEADER)
169 && lpRgnData->rdh.iType == RDH_RECTANGLES
170 && cjIn == lpRgnData->rdh.nCount * sizeof(RECT) + sizeof(RGNDATAHEADER))
171 {
172 DWORD ulReturn, i;
173 PRTRECT pRTRect;
174 RECT *pRect = (RECT *)&lpRgnData->Buffer;
175
176 pRTRect = (PRTRECT) EngAllocMem(0, lpRgnData->rdh.nCount*sizeof(RTRECT), ALLOC_TAG);
177 for (i=0;i<lpRgnData->rdh.nCount;i++)
178 {
179 DISPDBG((0, "New visible rectangle (%d,%d) (%d,%d)\n", pRect[i].left, pRect[i].bottom, pRect[i].right, pRect[i].top));
180 pRTRect[i].xLeft = pRect[i].left;
181 pRTRect[i].yBottom = pRect[i].bottom;
182 pRTRect[i].xRight = pRect[i].right;
183 pRTRect[i].yTop = pRect[i].top;
184 }
185
186 if (EngDeviceIoControl(ppdev->hDriver,
187 IOCTL_VIDEO_VBOX_SETVISIBLEREGION,
188 pRTRect,
189 lpRgnData->rdh.nCount*sizeof(RTRECT),
190 NULL,
191 0,
192 &ulReturn))
193 {
194 DISPDBG((0, "DISP DrvAssertMode failed IOCTL_VIDEO_VBOX_SETVISIBLEREGION\n"));
195 return 0;
196 }
197 else
198 {
199 DISPDBG((0, "DISP IOCTL_VIDEO_VBOX_SETVISIBLEREGION successful\n"));
200 return 1;
201 }
202
203 }
204 else
205 {
206 if (pvIn)
207 DISPDBG((0, "check failed rdh.dwSize=%x iType=%d size=%d expected size=%d\n", lpRgnData->rdh.dwSize, lpRgnData->rdh.iType, cjIn, lpRgnData->rdh.nCount * sizeof(RECT) + sizeof(RGNDATAHEADER)));
208 }
209
210 break;
211 }
212
213 case QUERYESCSUPPORT:
214 if ( cjIn == sizeof(DWORD)
215 && pvIn)
216 {
217 DWORD nEscapeQuery = *(DWORD *)pvIn;
218
219 switch(nEscapeQuery)
220 {
221#ifdef VBOX_WITH_OPENGL
222 case OPENGL_GETINFO:
223 return 1;
224#endif
225 default:
226 DISPDBG((0, "QUERYESCSUPPORT %d unsupported\n", nEscapeQuery));
227 break;
228 }
229 }
230 else
231 DISPDBG((0, "QUERYESCSUPPORT invalid size %d\n", cjOut));
232 break;
233
234 default:
235 DISPDBG((0, "Unsupported Escape %d\n", iEsc));
236 break;
237 }
238 return 0;
239}
240
241BOOL DrvConnect (PVOID x1, PVOID x2, PVOID x3, PVOID x4)
242{
243 DISPDBG((0, "Experimental %s: %p, %p, %p, %p\n", __FUNCTION__, x1, x2, x3, x4));
244 return TRUE;
245}
246
247BOOL DrvDisconnect (PVOID x1, PVOID x2)
248{
249 DISPDBG((0, "Experimental %s: %p, %p\n", __FUNCTION__, x1, x2));
250 return FALSE;
251}
252
253BOOL DrvReconnect (PVOID x1, PVOID x2)
254{
255 DISPDBG((0, "Experimental %s: %p, %p\n", __FUNCTION__, x1, x2));
256 return FALSE;
257}
258
259BOOL DrvShadowConnect (PVOID x1, PVOID x2)
260{
261 DISPDBG((0, "Experimental %s: %p, %p\n", __FUNCTION__, x1, x2));
262 return FALSE;
263}
264
265BOOL DrvShadowDisconnect (PVOID x1, PVOID x2)
266{
267 DISPDBG((0, "Experimental %s: %p, %p\n", __FUNCTION__, x1, x2));
268 return FALSE;
269}
270
271
272/* Experimental end */
273
274// W2K,XP functions
275DRVFN gadrvfn_nt5[] = {
276 { INDEX_DrvEnablePDEV, (PFN) DrvEnablePDEV }, // 0 0x0
277 { INDEX_DrvCompletePDEV, (PFN) DrvCompletePDEV }, // 1 0x1
278 { INDEX_DrvDisablePDEV, (PFN) DrvDisablePDEV }, // 2 0x2
279 { INDEX_DrvEnableSurface, (PFN) DrvEnableSurface }, // 3 0x3
280 { INDEX_DrvDisableSurface, (PFN) DrvDisableSurface }, // 4 0x4
281 { INDEX_DrvAssertMode, (PFN) DrvAssertMode }, // 5 0x5
282 { INDEX_DrvDisableDriver, (PFN) DrvDisableDriver }, // 8 0x8
283// { INDEX_DrvCreateDeviceBitmap, (PFN) DrvCreateDeviceBitmap }, // 10
284// { INDEX_DrvDeleteDeviceBitmap, (PFN) DrvDeleteDeviceBitmap }, // 11
285 { INDEX_DrvRealizeBrush, (PFN) DrvRealizeBrush }, // 12 0xc
286 { INDEX_DrvDitherColor, (PFN) DrvDitherColor }, // 13 0xd
287 { INDEX_DrvStrokePath, (PFN) DrvStrokePath }, // 14 0xe
288 { INDEX_DrvFillPath, (PFN) DrvFillPath }, // 15 0xf
289// { INDEX_DrvStrokeAndFillPath, (PFN) DrvStrokeAndFillPath }, // 16 0x10
290 { INDEX_DrvPaint, (PFN) DrvPaint }, // 17 0x11
291 { INDEX_DrvBitBlt, (PFN) DrvBitBlt }, // 18 0x12
292 { INDEX_DrvCopyBits, (PFN) DrvCopyBits }, // 19 0x13
293 { INDEX_DrvStretchBlt, (PFN) DrvStretchBlt, }, // 20 0x14
294 { INDEX_DrvSetPalette, (PFN) DrvSetPalette }, // 22 0x16
295 { INDEX_DrvTextOut, (PFN) DrvTextOut }, // 23 0x17
296 { INDEX_DrvEscape, (PFN) DrvEscape }, // 24 0x18
297 { INDEX_DrvSetPointerShape, (PFN) DrvSetPointerShape }, // 29 0x1d
298 { INDEX_DrvMovePointer, (PFN) DrvMovePointer }, // 30 0x1e
299 { INDEX_DrvLineTo, (PFN) DrvLineTo }, // 31 0x1f
300 { INDEX_DrvSynchronize, (PFN) DrvSynchronize }, // 38 0x26
301 { INDEX_DrvSaveScreenBits, (PFN) DrvSaveScreenBits }, // 40 0x28
302 { INDEX_DrvGetModes, (PFN) DrvGetModes }, // 41 0x29
303#ifdef VBOX_WITH_DDRAW
304 { INDEX_DrvGetDirectDrawInfo, (PFN) DrvGetDirectDrawInfo }, // 59 0x3b
305 { INDEX_DrvEnableDirectDraw, (PFN) DrvEnableDirectDraw }, // 60 0x3c
306 { INDEX_DrvDisableDirectDraw, (PFN) DrvDisableDirectDraw }, // 61 0x3d
307 { INDEX_DrvDeriveSurface, (PFN) DrvDeriveSurface }, // 85 0x55
308#endif
309 { INDEX_DrvNotify, (PFN) DrvNotify }, // 87 0x57
310// /* Experimental. */
311// { 0x7, (PFN) DrvResetPDEV }, // 0x7
312// { 0x5b, (PFN) DrvNineGrid }, // 0x5b
313// { 0x2b, (PFN) DrvDestroyFont }, // 0x2b
314// { 0x18, (PFN) DrvEscape }, // 0x18
315// { 0x4d, (PFN) DrvConnect }, // 0x4d
316// { 0x4e, (PFN) DrvDisconnect }, // 0x4e
317// { 0x4f, (PFN) DrvReconnect }, // 0x4f
318// { 0x50, (PFN) DrvShadowConnect }, // 0x50
319// { 0x51, (PFN) DrvShadowDisconnect }, // 0x51
320
321};
322
323// Required hook bits will be set up according to DDI version
324static ULONG gflHooks = 0;
325 BOOL g_bOnNT40 = TRUE; /* assume NT4 guest by default */
326
327#define HOOKS_BMF8BPP gflHooks
328#define HOOKS_BMF16BPP gflHooks
329#define HOOKS_BMF24BPP gflHooks
330#define HOOKS_BMF32BPP gflHooks
331
332#ifndef VBOX_WITH_HGSMI
333HSEMAPHORE ghsemHwBuffer = 0;
334#endif /* !VBOX_WITH_HGSMI */
335
336/******************************Public*Routine******************************\
337* DrvEnableDriver
338*
339* Enables the driver by retrieving the drivers function table and version.
340*
341\**************************************************************************/
342
343BOOL DrvEnableDriver(ULONG iEngineVersion, ULONG cj, PDRVENABLEDATA pded)
344{
345// Engine Version is passed down so future drivers can support previous
346// engine versions. A next generation driver can support both the old
347// and new engine conventions if told what version of engine it is
348// working with. For the first version the driver does nothing with it.
349
350 DISPDBG((0, "VBoxDisp::DrvEnableDriver called. iEngine version = %08X\n", iEngineVersion));
351
352 // Set up hook flags to intercept all functions which can generate VRDP orders
353 gflHooks = HOOK_BITBLT | HOOK_TEXTOUT | HOOK_FILLPATH |
354 HOOK_COPYBITS | HOOK_STROKEPATH | HOOK_LINETO | /* HOOK_STROKEANDFILLPATH | */
355#ifdef VBOX_NEW_SURFACE_CODE
356 HOOK_PAINT | HOOK_STRETCHBLT | HOOK_SYNCHRONIZE;
357#else
358 HOOK_PAINT | HOOK_STRETCHBLT | HOOK_SYNCHRONIZEACCESS;
359#endif
360 // Set up g_bOnNT40 based on the value in iEngineVersion
361 if(iEngineVersion >= DDI_DRIVER_VERSION_NT5)
362 g_bOnNT40 = FALSE;
363
364// Fill in as much as we can.
365
366 if (cj >= sizeof(DRVENABLEDATA))
367 pded->pdrvfn = (iEngineVersion >= DDI_DRIVER_VERSION_NT5)?
368 gadrvfn_nt5:
369 gadrvfn_nt4;
370
371
372 if (cj >= (sizeof(ULONG) * 2))
373 pded->c = (iEngineVersion >= DDI_DRIVER_VERSION_NT5)?
374 sizeof(gadrvfn_nt5) / sizeof(DRVFN):
375 sizeof(gadrvfn_nt4) / sizeof(DRVFN);
376
377// DDI version this driver was targeted for is passed back to engine.
378// Future graphic's engine may break calls down to old driver format.
379
380 if (cj >= sizeof(ULONG))
381 pded->iDriverVersion = (iEngineVersion >= DDI_DRIVER_VERSION_NT5)?
382 DDI_DRIVER_VERSION_NT5:
383 DDI_DRIVER_VERSION_NT4;
384
385#ifndef VBOX_WITH_HGSMI
386 if (!ghsemHwBuffer)
387 {
388 ghsemHwBuffer = EngCreateSemaphore ();
389 }
390#endif /* !VBOX_WITH_HGSMI */
391
392 return(TRUE);
393}
394
395/******************************Public*Routine******************************\
396* DrvDisableDriver
397*
398* Tells the driver it is being disabled. Release any resources allocated in
399* DrvEnableDriver.
400*
401\**************************************************************************/
402
403VOID DrvDisableDriver(VOID)
404{
405 DISPDBG((0, "VBoxDisp::DrvDisableDriver called.\n"));
406
407#ifndef VBOX_WITH_HGSMI
408 if (ghsemHwBuffer)
409 {
410 EngDeleteSemaphore (ghsemHwBuffer);
411 ghsemHwBuffer = NULL;
412 }
413#endif /* !VBOX_WITH_HGSMI */
414
415 return;
416}
417
418/******************************Public*Routine******************************\
419* DrvEnablePDEV
420*
421* DDI function, Enables the Physical Device.
422*
423* Return Value: device handle to pdev.
424*
425\**************************************************************************/
426
427DHPDEV DrvEnablePDEV(
428DEVMODEW *pDevmode, // Pointer to DEVMODE
429PWSTR pwszLogAddress, // Logical address
430ULONG cPatterns, // number of patterns
431HSURF *ahsurfPatterns, // return standard patterns
432ULONG cjGdiInfo, // Length of memory pointed to by pGdiInfo
433ULONG *pGdiInfo, // Pointer to GdiInfo structure
434ULONG cjDevInfo, // Length of following PDEVINFO structure
435DEVINFO *pDevInfo, // physical device information structure
436HDEV hdev, // HDEV, used for callbacks
437PWSTR pwszDeviceName, // DeviceName - not used
438HANDLE hDriver) // Handle to base driver
439{
440 GDIINFO GdiInfo;
441 DEVINFO DevInfo;
442 PPDEV ppdev = (PPDEV) NULL;
443
444 DISPDBG((0, "VBoxDisp::DrvEnablePDEV called\n"));
445
446 UNREFERENCED_PARAMETER(pwszLogAddress);
447 UNREFERENCED_PARAMETER(pwszDeviceName);
448
449 RtlZeroMemory(&DevInfo, sizeof (DEVINFO));
450 RtlZeroMemory(&GdiInfo, sizeof (GDIINFO));
451
452 // Allocate a physical device structure.
453
454 ppdev = (PPDEV) EngAllocMem(0, sizeof(PDEV), ALLOC_TAG);
455
456 if (ppdev == (PPDEV) NULL)
457 {
458 DISPDBG((0, "DISP DrvEnablePDEV failed EngAllocMem\n"));
459 return((DHPDEV) 0);
460 }
461
462 memset(ppdev, 0, sizeof(PDEV));
463
464 // Save the screen handle in the PDEV.
465
466 ppdev->hDriver = hDriver;
467
468 // Get the current screen mode information. Set up device caps and devinfo.
469
470 if (!bInitPDEV(ppdev, pDevmode, &GdiInfo, &DevInfo))
471 {
472 DISPDBG((0,"DISP DrvEnablePDEV failed\n"));
473 goto error_free;
474 }
475
476 // Initialize the cursor information.
477
478 if (!bInitPointer(ppdev, &DevInfo))
479 {
480 // Not a fatal error...
481 DISPDBG((0, "DrvEnablePDEV failed bInitPointer\n"));
482 }
483
484 // Initialize palette information.
485
486 if (!bInitPaletteInfo(ppdev, &DevInfo))
487 {
488 DISPDBG((0, "DrvEnablePDEV failed bInitPalette\n"));
489 goto error_free;
490 }
491
492// // Start a thread that will process notifications from VMMDev
493// if (!bInitNotificationThread(ppdev))
494// {
495// DISPDBG((0, "DrvEnablePDEV failed bInitNotificationThread\n"));
496// goto error_free;
497// }
498
499 // Copy the devinfo into the engine buffer.
500
501 DISPDBG((0, "VBoxDisp::DrvEnablePDEV: sizeof(DEVINFO) = %d, cjDevInfo = %d, alpha = %d\n", sizeof(DEVINFO), cjDevInfo, DevInfo.flGraphicsCaps2 & GCAPS2_ALPHACURSOR));
502
503// @todo seems to be not necessary. these bits are initialized in screen.c DevInfo.flGraphicsCaps |= GCAPS_OPAQUERECT |
504// GCAPS_DITHERONREALIZE |
505// GCAPS_PALMANAGED |
506// GCAPS_ALTERNATEFILL |
507// GCAPS_WINDINGFILL |
508// GCAPS_MONO_DITHER |
509// GCAPS_COLOR_DITHER |
510// GCAPS_ASYNCMOVE;
511//
512// DevInfo.flGraphicsCaps |= GCAPS_DITHERONREALIZE;
513
514 DevInfo.flGraphicsCaps2 |= GCAPS2_RESERVED1; /* @todo figure out what is this. */
515
516 memcpy(pDevInfo, &DevInfo, min(sizeof(DEVINFO), cjDevInfo));
517
518 // Set the pdevCaps with GdiInfo we have prepared to the list of caps for this
519 // pdev.
520
521 memcpy(pGdiInfo, &GdiInfo, min(cjGdiInfo, sizeof(GDIINFO)));
522
523 DISPDBG((0, "VBoxDisp::DrvEnablePDEV completed %x\n", ppdev));
524
525 return((DHPDEV) ppdev);
526
527 // Error case for failure.
528error_free:
529 EngFreeMem(ppdev);
530 return((DHPDEV) 0);
531}
532
533/******************************Public*Routine******************************\
534* DrvCompletePDEV
535*
536* Store the HPDEV, the engines handle for this PDEV, in the DHPDEV.
537*
538\**************************************************************************/
539
540VOID DrvCompletePDEV(DHPDEV dhpdev, HDEV hdev)
541{
542 DISPDBG((0, "VBoxDisp::DrvCompletePDEV called %x\n", dhpdev));
543 ((PPDEV) dhpdev)->hdevEng = hdev;
544}
545
546/******************************Public*Routine******************************\
547* DrvDisablePDEV
548*
549* Release the resources allocated in DrvEnablePDEV. If a surface has been
550* enabled DrvDisableSurface will have already been called.
551*
552\**************************************************************************/
553
554VOID DrvDisablePDEV(DHPDEV dhpdev)
555{
556 DISPDBG((0, "VBoxDisp::DrvDisablePDEV called %x\n", dhpdev));
557// vStopNotificationThread ((PPDEV) dhpdev);
558 vDisablePalette((PPDEV) dhpdev);
559
560 EngFreeMem(dhpdev);
561}
562
563/******************************Public*Routine******************************\
564* VOID DrvOffset
565*
566* DescriptionText
567*
568\**************************************************************************/
569
570BOOL DrvOffset(SURFOBJ *pso, LONG x, LONG y, FLONG flReserved)
571{
572 PDEV* ppdev = (PDEV*) pso->dhpdev;
573
574 DISPDBG((0, "VBoxDisp::DrvOffset %x %x %x\n", x, y, flReserved));
575
576 // Add back last offset that we subtracted. I could combine the next
577 // two statements, but I thought this was more clear. It's not
578 // performance critical anyway.
579
580 ppdev->pjScreen += ((ppdev->ptlOrg.y * ppdev->lDeltaScreen) +
581 (ppdev->ptlOrg.x * ((ppdev->ulBitCount+1) >> 3)));
582
583 // Subtract out new offset
584
585 ppdev->pjScreen -= ((y * ppdev->lDeltaScreen) +
586 (x * ((ppdev->ulBitCount+1) >> 3)));
587
588 ppdev->ptlOrg.x = x;
589 ppdev->ptlOrg.y = y;
590
591 return(TRUE);
592}
593
594/******************************Public*Routine******************************\
595* DrvEnableSurface
596*
597* Enable the surface for the device. Hook the calls this driver supports.
598*
599* Return: Handle to the surface if successful, 0 for failure.
600*
601\**************************************************************************/
602
603HSURF DrvEnableSurface(DHPDEV dhpdev)
604{
605 PPDEV ppdev;
606 HSURF hsurf;
607 SIZEL sizl;
608 ULONG ulBitmapType;
609 FLONG flHooks;
610#ifdef VBOX_NEW_SURFACE_CODE
611 PVBOXSURF psurf;
612#endif
613 DISPDBG((0, "DISP DrvEnableSurface called\n"));
614
615 // Create engine bitmap around frame buffer.
616
617 ppdev = (PPDEV) dhpdev;
618
619 ppdev->ptlOrg.x = 0;
620 ppdev->ptlOrg.y = 0;
621
622 if (!bInitSURF(ppdev, TRUE))
623 {
624 DISPDBG((0, "DISP DrvEnableSurface failed bInitSURF\n"));
625 return(FALSE);
626 }
627
628 DISPDBG((0, "DISP DrvEnableSurface bInitSURF success\n"));
629
630 sizl.cx = ppdev->cxScreen;
631 sizl.cy = ppdev->cyScreen;
632
633 if (ppdev->ulBitCount == 8)
634 {
635 if (!bInit256ColorPalette(ppdev)) {
636 DISPDBG((0, "DISP DrvEnableSurface failed to init the 8bpp palette\n"));
637 return(FALSE);
638 }
639 ulBitmapType = BMF_8BPP;
640 flHooks = HOOKS_BMF8BPP;
641 }
642 else if (ppdev->ulBitCount == 16)
643 {
644 ulBitmapType = BMF_16BPP;
645 flHooks = HOOKS_BMF16BPP;
646 }
647 else if (ppdev->ulBitCount == 24)
648 {
649 ulBitmapType = BMF_24BPP;
650 flHooks = HOOKS_BMF24BPP;
651 }
652 else
653 {
654 ulBitmapType = BMF_32BPP;
655 flHooks = HOOKS_BMF32BPP;
656 }
657
658#ifdef VBOX_NEW_SURFACE_CODE
659 psurf = (PVBOXSURF)EngAllocMem(0, sizeof(VBOXSURF), ALLOC_TAG);
660 if (psurf == NULL)
661 {
662 DISPDBG((0, "DrvEnableSurface: failed pdsurf memory allocation\n"));
663 goto l_Failure;
664 }
665 ppdev->pdsurfScreen = psurf;
666 psurf->ppdev = ppdev;
667
668 //
669 // On NT4.0 we create a GDI managed bitmap as the primay surface. But
670 // on NT5.0 we create a device managed primary.
671 //
672 // On NT4.0 we still use our driver's accleration capabilities by
673 // doing a trick with EngLockSurface on the GDI managed primary.
674 //
675
676 if(g_bOnNT40)
677 {
678 hsurf = (HSURF) EngCreateBitmap(sizl,
679 ppdev->lDeltaScreen,
680 ulBitmapType,
681 (ppdev->lDeltaScreen > 0) ? BMF_TOPDOWN : 0,
682 (PVOID)(ppdev->pjScreen));
683 }
684 else
685 {
686 hsurf = (HSURF)EngCreateDeviceSurface((DHSURF)psurf, sizl,
687 ulBitmapType);
688 }
689
690 if ( hsurf == 0 )
691 {
692 DISPDBG((0, "DrvEnableSurface: failed EngCreateDeviceBitmap\n"));
693 goto l_Failure;
694 }
695
696 //
697 // On NT5.0 we call EngModifSurface to expose our device surface to
698 // GDI. We cant do this on NT4.0 hence we call EngAssociateSurface.
699 //
700
701 if(g_bOnNT40)
702 {
703 //
704 // We have to associate the surface we just created with our physical
705 // device so that GDI can get information related to the PDEV when
706 // it's drawing to the surface (such as, for example, the length of
707 // styles on the device when simulating styled lines).
708 //
709
710 //
711 // On NT4.0 we dont want to be called to Synchronize Access
712 //
713 LONG myflHooks = flHooks;
714 myflHooks &= ~HOOK_SYNCHRONIZE;
715
716 if (!EngAssociateSurface(hsurf, ppdev->hdevEng, myflHooks))
717 {
718 DISPDBG((0, "DrvEnableSurface: failed EngAssociateSurface\n"));
719 goto l_Failure;
720 }
721
722 //
723 // Jam in the value of dhsurf into screen SURFOBJ. We do this to
724 // make sure the driver acclerates Drv calls we hook and not
725 // punt them back to GDI as the SURFOBJ's dhsurf = 0.
726 //
727 ppdev->psoScreenBitmap = EngLockSurface(hsurf);
728 if(ppdev->psoScreenBitmap == 0)
729 {
730 DISPDBG((0, "DrvEnableSurface: failed EngLockSurface\n"));
731 goto l_Failure;
732 }
733
734 ppdev->psoScreenBitmap->dhsurf = (DHSURF)hsurf;
735
736 }
737 else
738 {
739 //
740 // Tell GDI about the screen surface. This will enable GDI to render
741 // directly to the screen.
742 //
743
744 if ( !EngModifySurface(hsurf,
745 ppdev->hdevEng,
746 flHooks,
747 MS_NOTSYSTEMMEMORY,
748 (DHSURF)psurf,
749 ppdev->pjScreen,
750 ppdev->lDeltaScreen,
751 NULL))
752 {
753 DISPDBG((0, "DrvEnableSurface: failed EngModifySurface"));
754 goto l_Failure;
755 }
756 }
757 ppdev->hsurfScreen = hsurf;
758 ppdev->flHooks = flHooks;
759 ppdev->ulBitmapType = ulBitmapType;
760#else
761 /* Create a GDI bitmap which will be used to draw with Eng* functions. */
762 ppdev->hsurfScreenBitmap = (HSURF)EngCreateBitmap(sizl,
763 ppdev->lDeltaScreen,
764 ulBitmapType,
765 (ppdev->lDeltaScreen > 0) ? BMF_TOPDOWN : 0,
766 (PVOID) (ppdev->pjScreen));
767
768 if (ppdev->hsurfScreenBitmap == (HSURF) 0)
769 {
770 DISPDBG((0, "DISP DrvEnableSurface failed EngCreateBitmap ppdev->hsurfScreenBitmap\n"));
771 goto l_Failure;
772 }
773 else
774 {
775 /* Get the GDI bitmap SURFOBJ, which will be passed to Eng*. */
776 ppdev->psoScreenBitmap = EngLockSurface(ppdev->hsurfScreenBitmap);
777
778 /* Create device managed surface, which will represent screen for GDI. */
779 ppdev->hsurfScreen = (HSURF)EngCreateDeviceSurface((DHSURF)ppdev, /* Handle assigned by the device. */
780 sizl,
781 ulBitmapType);
782
783 if (ppdev->hsurfScreen == (HSURF) 0)
784 {
785 DISPDBG((0, "DISP DrvEnableSurface failed EngCreateDeviceSurface ppdev->hsurfScreen\n"));
786 goto l_Failure;
787 }
788 else
789 {
790 /* Tell GDI that the driver will handle drawing operations on the screen surface. */
791 if (!EngAssociateSurface(ppdev->hsurfScreen, ppdev->hdevEng, flHooks))
792 {
793 DISPDBG((0, "DISP DrvEnableSurface failed EngAssociateSurface for Screen.\n"));
794 goto l_Failure;
795 }
796 else
797 {
798 ppdev->flHooks = flHooks;
799 ppdev->ulBitmapType = ulBitmapType;
800
801 DISPDBG((0, "DISP DrvEnableSurface success ppdev %p, ppdev->hsurfScreen %p\n", ppdev, ppdev->hsurfScreen));
802 }
803 }
804 }
805#endif /* VBOX_NEW_SURFACE_CODE */
806 return ppdev->hsurfScreen;
807
808l_Failure:
809
810 DrvDisableSurface(dhpdev);
811
812 return((HSURF)0);
813}
814
815/******************************Public*Routine******************************\
816* DrvDisableSurface
817*
818* Free resources allocated by DrvEnableSurface. Release the surface.
819*
820\**************************************************************************/
821
822VOID DrvDisableSurface(DHPDEV dhpdev)
823{
824 PPDEV ppdev = (PPDEV)dhpdev;
825
826 DISPDBG((0, "VBoxDisp::DrvDisableSurface called\n"));
827 if (ppdev->psoScreenBitmap)
828 {
829 EngUnlockSurface (ppdev->psoScreenBitmap);
830 ppdev->psoScreenBitmap = NULL;
831 }
832
833 if (ppdev->hsurfScreen)
834 {
835 EngDeleteSurface(ppdev->hsurfScreen);
836 ppdev->hsurfScreen = (HSURF)0;
837 }
838#ifdef VBOX_NEW_SURFACE_CODE
839 if (ppdev->pdsurfScreen)
840 {
841 EngFreeMem(ppdev->pdsurfScreen);
842 ppdev->pdsurfScreen = NULL;
843 }
844#else
845 if (ppdev->hsurfScreenBitmap)
846 {
847 EngDeleteSurface(ppdev->hsurfScreenBitmap);
848 ppdev->hsurfScreenBitmap = (HSURF)0;
849 }
850#endif
851
852 vDisableSURF(ppdev);
853}
854
855/******************************Public*Routine******************************\
856* DrvAssertMode
857*
858* This asks the device to reset itself to the mode of the pdev passed in.
859*
860\**************************************************************************/
861
862BOOL DrvAssertMode(DHPDEV dhpdev, BOOL bEnable)
863{
864 PPDEV ppdev = (PPDEV) dhpdev;
865 ULONG ulReturn;
866 PBYTE pjScreen;
867
868 DISPDBG((0, "DISP DrvAssertMode called bEnable = %d\n", bEnable));
869
870 if (bEnable)
871 {
872 pjScreen = ppdev->pjScreen;
873
874 if (!bInitSURF(ppdev, FALSE))
875 {
876 DISPDBG((0, "DISP DrvAssertMode failed bInitSURF\n"));
877 return (FALSE);
878 }
879
880#ifdef VBOX_NEW_SURFACE_CODE
881 todo
882#endif
883 if (pjScreen != ppdev->pjScreen)
884 {
885 HSURF hsurf;
886 SIZEL sizl;
887 SURFOBJ *pso;
888
889 DISPDBG((0, "DISP DrvAssertMode Screen pointer has changed!!!\n"));
890
891 sizl.cx = ppdev->cxScreen;
892 sizl.cy = ppdev->cyScreen;
893
894 hsurf = (HSURF) EngCreateBitmap(sizl,
895 ppdev->lDeltaScreen,
896 ppdev->ulBitmapType,
897 (ppdev->lDeltaScreen > 0) ? BMF_TOPDOWN : 0,
898 (PVOID) (ppdev->pjScreen));
899
900 if (hsurf == (HSURF) 0)
901 {
902 DISPDBG((0, "DISP DrvAssertMode failed EngCreateBitmap\n"));
903 return FALSE;
904 }
905
906 pso = EngLockSurface(hsurf);
907
908 if (ppdev->psoScreenBitmap)
909 {
910 EngUnlockSurface (ppdev->psoScreenBitmap);
911 ppdev->psoScreenBitmap = NULL;
912 }
913
914 if (ppdev->hsurfScreenBitmap)
915 {
916 EngDeleteSurface(ppdev->hsurfScreenBitmap);
917 ppdev->hsurfScreenBitmap = (HSURF)0;
918 }
919
920 ppdev->hsurfScreenBitmap = hsurf;
921 ppdev->psoScreenBitmap = pso;
922 }
923
924 if (!EngAssociateSurface(ppdev->hsurfScreenBitmap, ppdev->hdevEng, 0))
925 {
926 DISPDBG((0, "DISP DrvAssertMode failed EngAssociateSurface for ScreenBitmap.\n"));
927 return FALSE;
928 }
929
930 if (!EngAssociateSurface(ppdev->hsurfScreen, ppdev->hdevEng, ppdev->flHooks))
931 {
932 DISPDBG((0, "DISP DrvAssertMode failed EngAssociateSurface for Screen.\n"));
933 return FALSE;
934 }
935
936 return TRUE;
937 }
938 else
939 {
940#ifdef VBOX_WITH_VIDEOHWACCEL
941 /* tells we can not process host commands any more and ensures we've completed processing of the host VHWA commands */
942 vboxVHWADisable(ppdev);
943#endif
944
945#ifdef VBOX_WITH_HGSMI
946 /* Free the driver's VBVA resources. */
947 vboxVbvaDisable ((PPDEV) dhpdev);
948#endif
949
950 //
951 // We must give up the display.
952 // Call the kernel driver to reset the device to a known state.
953 //
954
955 if (EngDeviceIoControl(ppdev->hDriver,
956 IOCTL_VIDEO_RESET_DEVICE,
957 NULL,
958 0,
959 NULL,
960 0,
961 &ulReturn))
962 {
963 DISPDBG((0, "DISP DrvAssertMode failed IOCTL\n"));
964 return FALSE;
965 }
966 else
967 {
968 return TRUE;
969 }
970 }
971}
972
973#if 0
974/******************************Public*Routine**********************************\
975 * HBITMAP DrvCreateDeviceBitmap
976 *
977 * Function called by GDI to create a device-format-bitmap (DFB). We will
978 * always try to allocate the bitmap in off-screen; if we can't, we simply
979 * fail the call and GDI will create and manage the bitmap itself.
980 *
981 * Note: We do not have to zero the bitmap bits. GDI will automatically
982 * call us via DrvBitBlt to zero the bits (which is a security
983 * consideration).
984 *
985\******************************************************************************/
986
987HBITMAP
988DrvCreateDeviceBitmap(
989 DHPDEV dhpdev,
990 SIZEL sizl,
991 ULONG iFormat)
992{
993 DISPDBG((0, "DISP DrvCreateDeviceBitmap %x (%d,%d) %x\n", dhpdev, sizl.cx, sizl.cy, iFormat));
994 /* Let GDI manage the bitmap */
995 return (HBITMAP)0;
996}
997
998/******************************Public*Routine**********************************\
999 * VOID DrvDeleteDeviceBitmap
1000 *
1001 * Deletes a DFB.
1002 *
1003\******************************************************************************/
1004
1005VOID
1006DrvDeleteDeviceBitmap(
1007 DHSURF dhsurf)
1008{
1009 DISPDBG((0, "DISP DrvDeleteDeviceBitmap %x", dhsurf));
1010}
1011#endif /* 0 */
1012
1013/******************************Public*Routine******************************\
1014* DrvGetModes
1015*
1016* Returns the list of available modes for the device.
1017*
1018\**************************************************************************/
1019
1020ULONG DrvGetModes(HANDLE hDriver, ULONG cjSize, DEVMODEW *pdm)
1021{
1022
1023 DWORD cModes;
1024 DWORD cbOutputSize;
1025 PVIDEO_MODE_INFORMATION pVideoModeInformation, pVideoTemp;
1026 DWORD cOutputModes = cjSize / (sizeof(DEVMODEW) + DRIVER_EXTRA_SIZE);
1027 DWORD cbModeSize;
1028
1029 DISPDBG((3, "DrvGetModes\n"));
1030
1031 cModes = getAvailableModes(hDriver,
1032 (PVIDEO_MODE_INFORMATION *) &pVideoModeInformation,
1033 &cbModeSize);
1034
1035 if (cModes == 0)
1036 {
1037 DISPDBG((0, "DrvGetModes failed to get mode information"));
1038 return 0;
1039 }
1040
1041 if (pdm == NULL)
1042 {
1043 cbOutputSize = cModes * (sizeof(DEVMODEW) + DRIVER_EXTRA_SIZE);
1044 }
1045 else
1046 {
1047 //
1048 // Now copy the information for the supported modes back into the output
1049 // buffer
1050 //
1051
1052 cbOutputSize = 0;
1053
1054 pVideoTemp = pVideoModeInformation;
1055
1056 do
1057 {
1058 if (pVideoTemp->Length != 0)
1059 {
1060 if (cOutputModes == 0)
1061 {
1062 break;
1063 }
1064
1065 //
1066 // Zero the entire structure to start off with.
1067 //
1068
1069 memset(pdm, 0, sizeof(DEVMODEW));
1070
1071 //
1072 // Set the name of the device to the name of the DLL.
1073 //
1074
1075 memcpy(pdm->dmDeviceName, DLL_NAME, sizeof(DLL_NAME));
1076
1077 pdm->dmSpecVersion = DM_SPECVERSION;
1078 pdm->dmDriverVersion = DM_SPECVERSION;
1079 pdm->dmSize = sizeof(DEVMODEW);
1080 pdm->dmDriverExtra = DRIVER_EXTRA_SIZE;
1081
1082 pdm->dmBitsPerPel = pVideoTemp->NumberOfPlanes *
1083 pVideoTemp->BitsPerPlane;
1084 pdm->dmPelsWidth = pVideoTemp->VisScreenWidth;
1085 pdm->dmPelsHeight = pVideoTemp->VisScreenHeight;
1086 pdm->dmDisplayFrequency = pVideoTemp->Frequency;
1087 pdm->dmDisplayFlags = 0;
1088
1089 pdm->dmFields = DM_BITSPERPEL |
1090 DM_PELSWIDTH |
1091 DM_PELSHEIGHT |
1092 DM_DISPLAYFREQUENCY |
1093 DM_DISPLAYFLAGS ;
1094
1095 //
1096 // Go to the next DEVMODE entry in the buffer.
1097 //
1098
1099 cOutputModes--;
1100
1101 pdm = (LPDEVMODEW) ( ((ULONG_PTR)pdm) + sizeof(DEVMODEW)
1102 + DRIVER_EXTRA_SIZE);
1103
1104 cbOutputSize += (sizeof(DEVMODEW) + DRIVER_EXTRA_SIZE);
1105
1106 }
1107
1108 pVideoTemp = (PVIDEO_MODE_INFORMATION)
1109 (((PUCHAR)pVideoTemp) + cbModeSize);
1110
1111 } while (--cModes);
1112 }
1113
1114 EngFreeMem(pVideoModeInformation);
1115
1116 return cbOutputSize;
1117
1118}
1119
1120VOID DrvSynchronize(IN DHPDEV dhpdev,IN RECTL *prcl)
1121{
1122 DISPDBG((0, "VBoxDisp::DrvSynchronize\n"));
1123}
1124
1125/******************************Public*Routine******************************\
1126* DrvNotify
1127*
1128* Called by GDI to notify us of certain "interesting" events
1129*
1130* DN_DEVICE_ORIGIN is used to communicate the X/Y offsets of individual monitors
1131* when DualView is in effect.
1132*
1133\**************************************************************************/
1134
1135VOID DrvNotify(
1136SURFOBJ *pso,
1137ULONG iType,
1138PVOID pvData)
1139{
1140 PDEV* ppdev = (PDEV*) pso->dhpdev;
1141
1142 DISPDBG((0, "VBoxDisp::DrvNotify called.\n"));
1143
1144 switch(iType)
1145 {
1146 case DN_DEVICE_ORIGIN:
1147 ppdev->ptlDevOrg = *(PPOINTL)pvData;
1148#ifndef VBOX_WITH_HGSMI
1149 DISPDBG((3, "DN_DEVICE_ORIGIN: %d, %d (PSO = %p, pInfo = %p)\n", ppdev->ptlDevOrg.x,
1150 ppdev->ptlDevOrg.y, pso, ppdev->pInfo));
1151 if (ppdev->pInfo)
1152 {
1153 ppdev->pInfo->screen.xOrigin = ppdev->ptlDevOrg.x;
1154 ppdev->pInfo->screen.yOrigin = ppdev->ptlDevOrg.y;
1155 VBoxProcessDisplayInfo(ppdev);
1156 }
1157#else
1158 DISPDBG((3, "DN_DEVICE_ORIGIN: %d, %d (PSO = %p)\n", ppdev->ptlDevOrg.x,
1159 ppdev->ptlDevOrg.y, pso));
1160 VBoxProcessDisplayInfo(ppdev);
1161#endif /* VBOX_WITH_HGSMI */
1162 break;
1163 case DN_DRAWING_BEGIN:
1164 DISPDBG((3, "DN_DRAWING_BEGIN (PSO = %p)\n", pso));
1165 break;
1166 }
1167}
1168
1169#ifdef VBOX_WITH_DDRAW
1170//--------------------------Public Routine-------------------------------------
1171//
1172// HBITMAP DrvDeriveSurface
1173//
1174// This function derives and creates a GDI surface from the specified
1175// DirectDraw surface.
1176//
1177// Parameters
1178// pDirectDraw-----Points to a DD_DIRECTDRAW_GLOBAL structure that describes
1179// the DirectDraw object.
1180// pSurface--------Points to a DD_SURFACE_LOCAL structure that describes the
1181// DirectDraw surface around which to wrap a GDI surface.
1182//
1183// Return Value
1184// DrvDeriveSurface returns a handle to the created GDI surface upon success.
1185// It returns NULL if the call fails or if the driver cannot accelerate GDI
1186// drawing to the specified DirectDraw surface.
1187//
1188// Comments
1189// DrvDeriveSurface allows the driver to create a GDI surface around a
1190// DirectDraw video memory or AGP surface object in order to allow accelerated
1191// GDI drawing to the surface. If the driver does not hook this call, all GDI
1192// drawing to DirectDraw surfaces is done in software using the DIB engine.
1193//
1194// GDI calls DrvDeriveSurface with RGB surfaces only.
1195//
1196// The driver should call DrvCreateDeviceBitmap to create a GDI surface of the
1197// same size and format as that of the DirectDraw surface. Space for the
1198// actual pixels need not be allocated since it already exists.
1199//
1200//-----------------------------------------------------------------------------
1201HBITMAP DrvDeriveSurface(DD_DIRECTDRAW_GLOBAL* pDirectDraw, DD_SURFACE_LOCAL* pSurface)
1202{
1203 PPDEV pDev = (PPDEV)pDirectDraw->dhpdev;
1204 HBITMAP hbmDevice;
1205 DD_SURFACE_GLOBAL* pSurfaceGlobal;
1206
1207 DISPDBG((0, "%s: %p\n", __FUNCTION__, pDev));
1208
1209 pSurfaceGlobal = pSurface->lpGbl;
1210
1211 //
1212 // GDI should never call us for a non-RGB surface, but let's assert just
1213 // to make sure they're doing their job properly.
1214 //
1215 AssertMsg(!(pSurfaceGlobal->ddpfSurface.dwFlags & DDPF_FOURCC), ("GDI called us with a non-RGB surface!"));
1216
1217 // The GDI driver does not accelerate surfaces in AGP memory,
1218 // thus we fail the call
1219
1220 if (pSurface->ddsCaps.dwCaps & DDSCAPS_NONLOCALVIDMEM)
1221 {
1222 DISPDBG((0, "DrvDeriveSurface return NULL, surface in AGP memory\n"));
1223 return 0;
1224 }
1225
1226 // The GDI driver does not accelerate managed surface,
1227 // thus we fail the call
1228 if (pSurface->lpSurfMore->ddsCapsEx.dwCaps2 & DDSCAPS2_TEXTUREMANAGE)
1229 {
1230 DISPDBG((0, "DrvDeriveSurface return NULL, surface is managed\n"));
1231 return 0;
1232 }
1233
1234 //
1235 // The rest of our driver expects GDI calls to come in with the same
1236 // format as the primary surface. So we'd better not wrap a device
1237 // bitmap around an RGB format that the rest of our driver doesn't
1238 // understand. Also, we must check to see that it is not a surface
1239 // whose pitch does not match the primary surface.
1240 //
1241 // NOTE: Most surfaces created by this driver are allocated as 2D surfaces
1242 // whose lPitch's are equal to the screen pitch. However, overlay surfaces
1243 // are allocated such that there lPitch's are usually different then the
1244 // screen pitch. The hardware can not accelerate drawing operations to
1245 // these surfaces and thus we fail to derive these surfaces.
1246 //
1247 if ( (pSurfaceGlobal->ddpfSurface.dwRGBBitCount == pDev->ulBitCount) )
1248 {
1249 SIZEL sizel;
1250 DWORD ulBitmapType, flHooks;
1251
1252 sizel.cx = pSurfaceGlobal->wWidth;
1253 sizel.cy = pSurfaceGlobal->wHeight;
1254
1255 if (pDev->ulBitCount == 8)
1256 {
1257 ulBitmapType = BMF_8BPP;
1258 flHooks = HOOKS_BMF8BPP;
1259 }
1260 else if (pDev->ulBitCount == 16)
1261 {
1262 ulBitmapType = BMF_16BPP;
1263 flHooks = HOOKS_BMF16BPP;
1264 }
1265 else if (pDev->ulBitCount == 24)
1266 {
1267 ulBitmapType = BMF_24BPP;
1268 flHooks = HOOKS_BMF24BPP;
1269 }
1270 else
1271 {
1272 ulBitmapType = BMF_32BPP;
1273 flHooks = HOOKS_BMF32BPP;
1274 }
1275
1276 /* Create a bitmap that represents the DDRAW bits.
1277 * Important is to calculate the address of the bitmap.
1278 */
1279 hbmDevice = EngCreateBitmap(sizel,
1280 pSurfaceGlobal->lPitch,
1281 ulBitmapType,
1282 (pDev->lDeltaScreen > 0) ? BMF_TOPDOWN : 0,
1283 (PVOID) (pDev->pjScreen + pSurfaceGlobal->fpVidMem));
1284 if (hbmDevice)
1285 {
1286 if (pSurfaceGlobal->fpVidMem == 0)
1287 {
1288 /* Screen surface, mark it so it will be recognized by the driver.
1289 * and so the driver will be called on any operations on the surface
1290 * (required for VBVA and VRDP).
1291 */
1292 if (EngAssociateSurface((HSURF)hbmDevice, pDev->hdevEng, flHooks))
1293 {
1294 SURFOBJ *surfobj = EngLockSurface ((HSURF)hbmDevice);
1295 DISPDBG((0, "DrvDeriveSurface surfobj %x, hsurf = %x\n", surfobj, surfobj->hsurf));
1296
1297 surfobj->dhpdev = (DHPDEV)pDev;
1298
1299 EngUnlockSurface(surfobj);
1300
1301 DISPDBG((0, "DrvDeriveSurface return succeed %x at %x\n", hbmDevice, pSurfaceGlobal->fpVidMem));
1302 return(hbmDevice);
1303 }
1304 }
1305 else
1306 {
1307 DISPDBG((0, "DrvDeriveSurface return succeed %x at %x\n", hbmDevice, pSurfaceGlobal->fpVidMem));
1308 return(hbmDevice);
1309 }
1310
1311 DISPDBG((0, "DrvDeriveSurface: EngAssociateSurface failed\n"));
1312 EngDeleteSurface((HSURF)hbmDevice);
1313 }
1314 }
1315
1316 DISPDBG((0, "DrvDeriveSurface return NULL\n"));
1317 DISPDBG((0, "pSurfaceGlobal->ddpfSurface.dwRGBBitCount = %d, lPitch =%ld\n", pSurfaceGlobal->ddpfSurface.dwRGBBitCount,pSurfaceGlobal->lPitch));
1318
1319 return(0);
1320}
1321#endif /* VBOX_WITH_DDRAW */
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