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Implement EnumPrinterDataEx{A|W}.
[wine.git] / win32 / device.c
blob02a1940bdc348e73692944465fefb7e8d839c7f5
1 /*
2 * Win32 device functions
3 *
4 * Copyright 1998 Marcus Meissner
5 * Copyright 1998 Ulrich Weigand
6 * Copyright 1998 Patrik Stridvall
7 *
8 */
9
10 #include "config.h"
11
12 #include <errno.h>
13 #include <assert.h>
14 #include <stdlib.h>
15 #include <unistd.h>
16 #include <sys/types.h>
17 #include <sys/stat.h>
18 #ifdef HAVE_SYS_MMAN_H
19 #include <sys/mman.h>
20 #endif
21 #include <fcntl.h>
22 #include <string.h>
23 #include <stdarg.h>
24 #include <time.h>
25 #include "wine/port.h"
26 #include "windef.h"
27 #include "winbase.h"
28 #include "winreg.h"
29 #include "winerror.h"
30 #include "file.h"
31 #include "heap.h"
32 #include "winioctl.h"
33 #include "winnt.h"
34 #include "msdos.h"
35 #include "miscemu.h"
36 #include "stackframe.h"
37 #include "server.h"
38 #include "debugtools.h"
39
40 DEFAULT_DEBUG_CHANNEL(win32);
41
42
43 static BOOL DeviceIo_VTDAPI(DWORD dwIoControlCode,
44 LPVOID lpvInBuffer, DWORD cbInBuffer,
45 LPVOID lpvOutBuffer, DWORD cbOutBuffer,
46 LPDWORD lpcbBytesReturned,
47 LPOVERLAPPED lpOverlapped);
48 static BOOL DeviceIo_MONODEBG(DWORD dwIoControlCode,
49 LPVOID lpvInBuffer, DWORD cbInBuffer,
50 LPVOID lpvOutBuffer, DWORD cbOutBuffer,
51 LPDWORD lpcbBytesReturned,
52 LPOVERLAPPED lpOverlapped);
53 static BOOL DeviceIo_MMDEVLDR(DWORD dwIoControlCode,
54 LPVOID lpvInBuffer, DWORD cbInBuffer,
55 LPVOID lpvOutBuffer, DWORD cbOutBuffer,
56 LPDWORD lpcbBytesReturned,
57 LPOVERLAPPED lpOverlapped);
58
59 static DWORD VxDCall_VMM( DWORD service, CONTEXT86 *context );
60
61 static BOOL DeviceIo_IFSMgr(DWORD dwIoControlCode,
62 LPVOID lpvInBuffer, DWORD cbInBuffer,
63 LPVOID lpvOutBuffer, DWORD cbOutBuffer,
64 LPDWORD lpcbBytesReturned,
65 LPOVERLAPPED lpOverlapped);
66
67 static DWORD VxDCall_VWin32( DWORD service, CONTEXT86 *context );
68
69 static BOOL DeviceIo_VWin32(DWORD dwIoControlCode,
70 LPVOID lpvInBuffer, DWORD cbInBuffer,
71 LPVOID lpvOutBuffer, DWORD cbOutBuffer,
72 LPDWORD lpcbBytesReturned,
73 LPOVERLAPPED lpOverlapped);
74
75 static BOOL DeviceIo_PCCARD (DWORD dwIoControlCode,
76 LPVOID lpvInBuffer, DWORD cbInBuffer,
77 LPVOID lpvOutBuffer, DWORD cbOutBuffer,
78 LPDWORD lpcbBytesReturned,
79 LPOVERLAPPED lpOverlapped);
80
81 static BOOL DeviceIo_HASP (DWORD dwIoControlCode,
82 LPVOID lpvInBuffer, DWORD cbInBuffer,
83 LPVOID lpvOutBuffer, DWORD cbOutBuffer,
84 LPDWORD lpcbBytesReturned,
85 LPOVERLAPPED lpOverlapped);
86 /*
87 * VxD names are taken from the Win95 DDK
88 */
89
90 struct VxDInfo
91 {
92 LPCSTR name;
93 WORD id;
94 DWORD (*vxdcall)(DWORD, CONTEXT86 *);
95 BOOL (*deviceio)(DWORD, LPVOID, DWORD,
96 LPVOID, DWORD, LPDWORD, LPOVERLAPPED);
97 };
98
99 static const struct VxDInfo VxDList[] =
100 {
101 /* Standard VxD IDs */
102 { "VMM", 0x0001, VxDCall_VMM, NULL },
103 { "DEBUG", 0x0002, NULL, NULL },
104 { "VPICD", 0x0003, NULL, NULL },
105 { "VDMAD", 0x0004, NULL, NULL },
106 { "VTD", 0x0005, NULL, NULL },
107 { "V86MMGR", 0x0006, NULL, NULL },
108 { "PAGESWAP", 0x0007, NULL, NULL },
109 { "PARITY", 0x0008, NULL, NULL },
110 { "REBOOT", 0x0009, NULL, NULL },
111 { "VDD", 0x000A, NULL, NULL },
112 { "VSD", 0x000B, NULL, NULL },
113 { "VMD", 0x000C, NULL, NULL },
114 { "VKD", 0x000D, NULL, NULL },
115 { "VCD", 0x000E, NULL, NULL },
116 { "VPD", 0x000F, NULL, NULL },
117 { "BLOCKDEV", 0x0010, NULL, NULL },
118 { "VMCPD", 0x0011, NULL, NULL },
119 { "EBIOS", 0x0012, NULL, NULL },
120 { "BIOSXLAT", 0x0013, NULL, NULL },
121 { "VNETBIOS", 0x0014, NULL, NULL },
122 { "DOSMGR", 0x0015, NULL, NULL },
123 { "WINLOAD", 0x0016, NULL, NULL },
124 { "SHELL", 0x0017, NULL, NULL },
125 { "VMPOLL", 0x0018, NULL, NULL },
126 { "VPROD", 0x0019, NULL, NULL },
127 { "DOSNET", 0x001A, NULL, NULL },
128 { "VFD", 0x001B, NULL, NULL },
129 { "VDD2", 0x001C, NULL, NULL },
130 { "WINDEBUG", 0x001D, NULL, NULL },
131 { "TSRLOAD", 0x001E, NULL, NULL },
132 { "BIOSHOOK", 0x001F, NULL, NULL },
133 { "INT13", 0x0020, NULL, NULL },
134 { "PAGEFILE", 0x0021, NULL, NULL },
135 { "SCSI", 0x0022, NULL, NULL },
136 { "MCA_POS", 0x0023, NULL, NULL },
137 { "SCSIFD", 0x0024, NULL, NULL },
138 { "VPEND", 0x0025, NULL, NULL },
139 { "VPOWERD", 0x0026, NULL, NULL },
140 { "VXDLDR", 0x0027, NULL, NULL },
141 { "NDIS", 0x0028, NULL, NULL },
142 { "BIOS_EXT", 0x0029, NULL, NULL },
143 { "VWIN32", 0x002A, VxDCall_VWin32, DeviceIo_VWin32 },
144 { "VCOMM", 0x002B, NULL, NULL },
145 { "SPOOLER", 0x002C, NULL, NULL },
146 { "WIN32S", 0x002D, NULL, NULL },
147 { "DEBUGCMD", 0x002E, NULL, NULL },
148
149 { "VNB", 0x0031, NULL, NULL },
150 { "SERVER", 0x0032, NULL, NULL },
151 { "CONFIGMG", 0x0033, NULL, NULL },
152 { "DWCFGMG", 0x0034, NULL, NULL },
153 { "SCSIPORT", 0x0035, NULL, NULL },
154 { "VFBACKUP", 0x0036, NULL, NULL },
155 { "ENABLE", 0x0037, NULL, NULL },
156 { "VCOND", 0x0038, NULL, NULL },
157
158 { "EFAX", 0x003A, NULL, NULL },
159 { "DSVXD", 0x003B, NULL, NULL },
160 { "ISAPNP", 0x003C, NULL, NULL },
161 { "BIOS", 0x003D, NULL, NULL },
162 { "WINSOCK", 0x003E, NULL, NULL },
163 { "WSOCK", 0x003E, NULL, NULL },
164 { "WSIPX", 0x003F, NULL, NULL },
165 { "IFSMgr", 0x0040, NULL, DeviceIo_IFSMgr },
166 { "VCDFSD", 0x0041, NULL, NULL },
167 { "MRCI2", 0x0042, NULL, NULL },
168 { "PCI", 0x0043, NULL, NULL },
169 { "PELOADER", 0x0044, NULL, NULL },
170 { "EISA", 0x0045, NULL, NULL },
171 { "DRAGCLI", 0x0046, NULL, NULL },
172 { "DRAGSRV", 0x0047, NULL, NULL },
173 { "PERF", 0x0048, NULL, NULL },
174 { "AWREDIR", 0x0049, NULL, NULL },
175
176 /* Far East support */
177 { "ETEN", 0x0060, NULL, NULL },
178 { "CHBIOS", 0x0061, NULL, NULL },
179 { "VMSGD", 0x0062, NULL, NULL },
180 { "VPPID", 0x0063, NULL, NULL },
181 { "VIME", 0x0064, NULL, NULL },
182 { "VHBIOSD", 0x0065, NULL, NULL },
183
184 /* Multimedia OEM IDs */
185 { "VTDAPI", 0x0442, NULL, DeviceIo_VTDAPI },
186 { "MMDEVLDR", 0x044A, NULL, DeviceIo_MMDEVLDR },
187
188 /* Network Device IDs */
189 { "VNetSup", 0x0480, NULL, NULL },
190 { "VRedir", 0x0481, NULL, NULL },
191 { "VBrowse", 0x0482, NULL, NULL },
192 { "VSHARE", 0x0483, NULL, NULL },
193 { "IFSMgr", 0x0484, NULL, NULL },
194 { "MEMPROBE", 0x0485, NULL, NULL },
195 { "VFAT", 0x0486, NULL, NULL },
196 { "NWLINK", 0x0487, NULL, NULL },
197 { "VNWLINK", 0x0487, NULL, NULL },
198 { "NWSUP", 0x0487, NULL, NULL },
199 { "VTDI", 0x0488, NULL, NULL },
200 { "VIP", 0x0489, NULL, NULL },
201 { "VTCP", 0x048A, NULL, NULL },
202 { "VCache", 0x048B, NULL, NULL },
203 { "VUDP", 0x048C, NULL, NULL },
204 { "VAsync", 0x048D, NULL, NULL },
205 { "NWREDIR", 0x048E, NULL, NULL },
206 { "STAT80", 0x048F, NULL, NULL },
207 { "SCSIPORT", 0x0490, NULL, NULL },
208 { "FILESEC", 0x0491, NULL, NULL },
209 { "NWSERVER", 0x0492, NULL, NULL },
210 { "SECPROV", 0x0493, NULL, NULL },
211 { "NSCL", 0x0494, NULL, NULL },
212 { "WSTCP", 0x0495, NULL, NULL },
213 { "NDIS2SUP", 0x0496, NULL, NULL },
214 { "MSODISUP", 0x0497, NULL, NULL },
215 { "Splitter", 0x0498, NULL, NULL },
216 { "PPP", 0x0499, NULL, NULL },
217 { "VDHCP", 0x049A, NULL, NULL },
218 { "VNBT", 0x049B, NULL, NULL },
219 { "LOGGER", 0x049D, NULL, NULL },
220 { "EFILTER", 0x049E, NULL, NULL },
221 { "FFILTER", 0x049F, NULL, NULL },
222 { "TFILTER", 0x04A0, NULL, NULL },
223 { "AFILTER", 0x04A1, NULL, NULL },
224 { "IRLAMP", 0x04A2, NULL, NULL },
225
226 { "PCCARD", 0x097C, NULL, DeviceIo_PCCARD },
227 { "HASP95", 0x3721, NULL, DeviceIo_HASP },
228
229 /* WINE additions, ids unknown */
230 { "MONODEBG.VXD", 0x4242, NULL, DeviceIo_MONODEBG },
231
232 { NULL, 0, NULL, NULL }
233 };
234
235 /*
236 * VMM VxDCall service names are (mostly) taken from Stan Mitchell's
237 * "Inside the Windows 95 File System"
238 */
239
240 #define N_VMM_SERVICE 41
241
242 LPCSTR VMM_Service_Name[N_VMM_SERVICE] =
243 {
244 "PageReserve", /* 0x0000 */
245 "PageCommit", /* 0x0001 */
246 "PageDecommit", /* 0x0002 */
247 "PagerRegister", /* 0x0003 */
248 "PagerQuery", /* 0x0004 */
249 "HeapAllocate", /* 0x0005 */
250 "ContextCreate", /* 0x0006 */
251 "ContextDestroy", /* 0x0007 */
252 "PageAttach", /* 0x0008 */
253 "PageFlush", /* 0x0009 */
254 "PageFree", /* 0x000A */
255 "ContextSwitch", /* 0x000B */
256 "HeapReAllocate", /* 0x000C */
257 "PageModifyPermissions", /* 0x000D */
258 "PageQuery", /* 0x000E */
259 "GetCurrentContext", /* 0x000F */
260 "HeapFree", /* 0x0010 */
261 "RegOpenKey", /* 0x0011 */
262 "RegCreateKey", /* 0x0012 */
263 "RegCloseKey", /* 0x0013 */
264 "RegDeleteKey", /* 0x0014 */
265 "RegSetValue", /* 0x0015 */
266 "RegDeleteValue", /* 0x0016 */
267 "RegQueryValue", /* 0x0017 */
268 "RegEnumKey", /* 0x0018 */
269 "RegEnumValue", /* 0x0019 */
270 "RegQueryValueEx", /* 0x001A */
271 "RegSetValueEx", /* 0x001B */
272 "RegFlushKey", /* 0x001C */
273 "RegQueryInfoKey", /* 0x001D */
274 "GetDemandPageInfo", /* 0x001E */
275 "BlockOnID", /* 0x001F */
276 "SignalID", /* 0x0020 */
277 "RegLoadKey", /* 0x0021 */
278 "RegUnLoadKey", /* 0x0022 */
279 "RegSaveKey", /* 0x0023 */
280 "RegRemapPreDefKey", /* 0x0024 */
281 "PageChangePager", /* 0x0025 */
282 "RegQueryMultipleValues", /* 0x0026 */
283 "RegReplaceKey", /* 0x0027 */
284 "<KERNEL32.101>" /* 0x0028 -- What does this do??? */
285 };
286
287 /* PageReserve arena values */
288 #define PR_PRIVATE 0x80000400 /* anywhere in private arena */
289 #define PR_SHARED 0x80060000 /* anywhere in shared arena */
290 #define PR_SYSTEM 0x80080000 /* anywhere in system arena */
291
292 /* PageReserve flags */
293 #define PR_FIXED 0x00000008 /* don't move during PageReAllocate */
294 #define PR_4MEG 0x00000001 /* allocate on 4mb boundary */
295 #define PR_STATIC 0x00000010 /* see PageReserve documentation */
296
297 /* PageCommit default pager handle values */
298 #define PD_ZEROINIT 0x00000001 /* swappable zero-initialized pages */
299 #define PD_NOINIT 0x00000002 /* swappable uninitialized pages */
300 #define PD_FIXEDZERO 0x00000003 /* fixed zero-initialized pages */
301 #define PD_FIXED 0x00000004 /* fixed uninitialized pages */
302
303 /* PageCommit flags */
304 #define PC_FIXED 0x00000008 /* pages are permanently locked */
305 #define PC_LOCKED 0x00000080 /* pages are made present and locked*/
306 #define PC_LOCKEDIFDP 0x00000100 /* pages are locked if swap via DOS */
307 #define PC_WRITEABLE 0x00020000 /* make the pages writeable */
308 #define PC_USER 0x00040000 /* make the pages ring 3 accessible */
309 #define PC_INCR 0x40000000 /* increment "pagerdata" each page */
310 #define PC_PRESENT 0x80000000 /* make pages initially present */
311 #define PC_STATIC 0x20000000 /* allow commit in PR_STATIC object */
312 #define PC_DIRTY 0x08000000 /* make pages initially dirty */
313 #define PC_CACHEDIS 0x00100000 /* Allocate uncached pages - new for WDM */
314 #define PC_CACHEWT 0x00080000 /* Allocate write through cache pages - new for WDM */
315 #define PC_PAGEFLUSH 0x00008000 /* Touch device mapped pages on alloc - new for WDM */
316
317 /* PageCommitContig additional flags */
318 #define PCC_ZEROINIT 0x00000001 /* zero-initialize new pages */
319 #define PCC_NOLIN 0x10000000 /* don't map to any linear address */
320
321
322
323 HANDLE DEVICE_Open( LPCSTR filename, DWORD access,
324 LPSECURITY_ATTRIBUTES sa )
325 {
326 const struct VxDInfo *info;
327
328 for (info = VxDList; info->name; info++)
329 if (!strncasecmp( info->name, filename, strlen(info->name) ))
330 return FILE_CreateDevice( info->id | 0x10000, access, sa );
331
332 FIXME( "Unknown VxD %s. Try --winver nt40 or win31 !\n", filename);
333 SetLastError( ERROR_FILE_NOT_FOUND );
334 return 0;
335 }
336
337 static const struct VxDInfo *DEVICE_GetInfo( HANDLE handle )
338 {
339 const struct VxDInfo *info = NULL;
340 SERVER_START_REQ
341 {
342 struct get_file_info_request *req = server_alloc_req( sizeof(*req), 0 );
343
344 req->handle = handle;
345 if (!server_call( REQ_GET_FILE_INFO ) &&
346 (req->type == FILE_TYPE_UNKNOWN) &&
347 (req->attr & 0x10000))
348 {
349 for (info = VxDList; info->name; info++)
350 if (info->id == LOWORD(req->attr)) break;
351 }
352 }
353 SERVER_END_REQ;
354 return info;
355 }
356
357 /****************************************************************************
358 * DeviceIoControl (KERNEL32.188)
359 * This is one of those big ugly nasty procedure which can do
360 * a million and one things when it comes to devices. It can also be
361 * used for VxD communication.
362 *
363 * A return value of FALSE indicates that something has gone wrong which
364 * GetLastError can decypher.
365 */
366 BOOL WINAPI DeviceIoControl(HANDLE hDevice, DWORD dwIoControlCode,
367 LPVOID lpvInBuffer, DWORD cbInBuffer,
368 LPVOID lpvOutBuffer, DWORD cbOutBuffer,
369 LPDWORD lpcbBytesReturned,
370 LPOVERLAPPED lpOverlapped)
371 {
372 const struct VxDInfo *info;
373
374 TRACE( "(%d,%ld,%p,%ld,%p,%ld,%p,%p)\n",
375 hDevice,dwIoControlCode,lpvInBuffer,cbInBuffer,
376 lpvOutBuffer,cbOutBuffer,lpcbBytesReturned,lpOverlapped );
377
378 if (!(info = DEVICE_GetInfo( hDevice )))
379 {
380 SetLastError( ERROR_INVALID_PARAMETER );
381 return FALSE;
382 }
383
384 /* Check if this is a user defined control code for a VxD */
385 if( HIWORD( dwIoControlCode ) == 0 )
386 {
387 if ( info->deviceio )
388 {
389 return info->deviceio( dwIoControlCode,
390 lpvInBuffer, cbInBuffer,
391 lpvOutBuffer, cbOutBuffer,
392 lpcbBytesReturned, lpOverlapped );
393 }
394 else
395 {
396 /* FIXME: Set appropriate error */
397 FIXME( "Unimplemented control %ld for VxD device %s\n",
398 dwIoControlCode, info->name ? info->name : "???" );
399 }
400 }
401 else
402 {
403 switch( dwIoControlCode )
404 {
405 case FSCTL_DELETE_REPARSE_POINT:
406 case FSCTL_DISMOUNT_VOLUME:
407 case FSCTL_GET_COMPRESSION:
408 case FSCTL_GET_REPARSE_POINT:
409 case FSCTL_LOCK_VOLUME:
410 case FSCTL_QUERY_ALLOCATED_RANGES:
411 case FSCTL_SET_COMPRESSION:
412 case FSCTL_SET_REPARSE_POINT:
413 case FSCTL_SET_SPARSE:
414 case FSCTL_SET_ZERO_DATA:
415 case FSCTL_UNLOCK_VOLUME:
416 case IOCTL_DISK_CHECK_VERIFY:
417 case IOCTL_DISK_EJECT_MEDIA:
418 case IOCTL_DISK_FORMAT_TRACKS:
419 case IOCTL_DISK_GET_DRIVE_GEOMETRY:
420 case IOCTL_DISK_GET_DRIVE_LAYOUT:
421 case IOCTL_DISK_GET_MEDIA_TYPES:
422 case IOCTL_DISK_GET_PARTITION_INFO:
423 case IOCTL_DISK_LOAD_MEDIA:
424 case IOCTL_DISK_MEDIA_REMOVAL:
425 case IOCTL_DISK_PERFORMANCE:
426 case IOCTL_DISK_REASSIGN_BLOCKS:
427 case IOCTL_DISK_SET_DRIVE_LAYOUT:
428 case IOCTL_DISK_SET_PARTITION_INFO:
429 case IOCTL_DISK_VERIFY:
430 case IOCTL_SERIAL_LSRMST_INSERT:
431 case IOCTL_STORAGE_CHECK_VERIFY:
432 case IOCTL_STORAGE_EJECT_MEDIA:
433 case IOCTL_STORAGE_GET_MEDIA_TYPES:
434 case IOCTL_STORAGE_LOAD_MEDIA:
435 case IOCTL_STORAGE_MEDIA_REMOVAL:
436 FIXME( "unimplemented dwIoControlCode=%08lx\n", dwIoControlCode);
437 SetLastError( ERROR_CALL_NOT_IMPLEMENTED );
438 return FALSE;
439 break;
440 default:
441 FIXME( "ignored dwIoControlCode=%08lx\n",dwIoControlCode);
442 SetLastError( ERROR_CALL_NOT_IMPLEMENTED );
443 return FALSE;
444 break;
445 }
446 }
447 return FALSE;
448 }
449
450 /***********************************************************************
451 * DeviceIo_VTDAPI
452 */
453 static BOOL DeviceIo_VTDAPI(DWORD dwIoControlCode, LPVOID lpvInBuffer, DWORD cbInBuffer,
454 LPVOID lpvOutBuffer, DWORD cbOutBuffer,
455 LPDWORD lpcbBytesReturned,
456 LPOVERLAPPED lpOverlapped)
457 {
458 BOOL retv = TRUE;
459
460 switch (dwIoControlCode)
461 {
462 case 5:
463 if (lpvOutBuffer && (cbOutBuffer>=4))
464 *(DWORD*)lpvOutBuffer = GetTickCount();
465
466 if (lpcbBytesReturned)
467 *lpcbBytesReturned = 4;
468
469 break;
470
471 default:
472 FIXME( "Control %ld not implemented\n", dwIoControlCode);
473 retv = FALSE;
474 break;
475 }
476
477 return retv;
478 }
479
480 /***********************************************************************
481 * VxDCall0 (KERNEL32.1)
482 * VxDCall1 (KERNEL32.2)
483 * VxDCall2 (KERNEL32.3)
484 * VxDCall3 (KERNEL32.4)
485 * VxDCall4 (KERNEL32.5)
486 * VxDCall5 (KERNEL32.6)
487 * VxDCall6 (KERNEL32.7)
488 * VxDCall7 (KERNEL32.8)
489 * VxDCall8 (KERNEL32.9)
490 */
491 void VxDCall( DWORD service, CONTEXT86 *context )
492 {
493 DWORD ret = 0xffffffff; /* FIXME */
494 int i;
495
496 TRACE( "(%08lx, ...)\n", service);
497
498 for (i = 0; VxDList[i].name; i++)
499 if (VxDList[i].id == HIWORD(service))
500 break;
501
502 if (!VxDList[i].name)
503 FIXME( "Unknown VxD (%08lx)\n", service);
504 else if (!VxDList[i].vxdcall)
505 FIXME( "Unimplemented VxD (%08lx)\n", service);
506 else
507 ret = VxDList[i].vxdcall( service, context );
508
509 context->Eax = ret;
510 }
511
512
513 /***********************************************************************
514 * VxDCall_VMM
515 */
516 static DWORD VxDCall_VMM( DWORD service, CONTEXT86 *context )
517 {
518 switch ( LOWORD(service) )
519 {
520 case 0x0011: /* RegOpenKey */
521 {
522 HKEY hkey = (HKEY) stack32_pop( context );
523 LPCSTR lpszSubKey = (LPCSTR)stack32_pop( context );
524 LPHKEY retkey = (LPHKEY)stack32_pop( context );
525 return RegOpenKeyA( hkey, lpszSubKey, retkey );
526 }
527
528 case 0x0012: /* RegCreateKey */
529 {
530 HKEY hkey = (HKEY) stack32_pop( context );
531 LPCSTR lpszSubKey = (LPCSTR)stack32_pop( context );
532 LPHKEY retkey = (LPHKEY)stack32_pop( context );
533 return RegCreateKeyA( hkey, lpszSubKey, retkey );
534 }
535
536 case 0x0013: /* RegCloseKey */
537 {
538 HKEY hkey = (HKEY)stack32_pop( context );
539 return RegCloseKey( hkey );
540 }
541
542 case 0x0014: /* RegDeleteKey */
543 {
544 HKEY hkey = (HKEY) stack32_pop( context );
545 LPCSTR lpszSubKey = (LPCSTR)stack32_pop( context );
546 return RegDeleteKeyA( hkey, lpszSubKey );
547 }
548
549 case 0x0015: /* RegSetValue */
550 {
551 HKEY hkey = (HKEY) stack32_pop( context );
552 LPCSTR lpszSubKey = (LPCSTR)stack32_pop( context );
553 DWORD dwType = (DWORD) stack32_pop( context );
554 LPCSTR lpszData = (LPCSTR)stack32_pop( context );
555 DWORD cbData = (DWORD) stack32_pop( context );
556 return RegSetValueA( hkey, lpszSubKey, dwType, lpszData, cbData );
557 }
558
559 case 0x0016: /* RegDeleteValue */
560 {
561 HKEY hkey = (HKEY) stack32_pop( context );
562 LPSTR lpszValue = (LPSTR)stack32_pop( context );
563 return RegDeleteValueA( hkey, lpszValue );
564 }
565
566 case 0x0017: /* RegQueryValue */
567 {
568 HKEY hkey = (HKEY) stack32_pop( context );
569 LPSTR lpszSubKey = (LPSTR) stack32_pop( context );
570 LPSTR lpszData = (LPSTR) stack32_pop( context );
571 LPDWORD lpcbData = (LPDWORD)stack32_pop( context );
572 return RegQueryValueA( hkey, lpszSubKey, lpszData, lpcbData );
573 }
574
575 case 0x0018: /* RegEnumKey */
576 {
577 HKEY hkey = (HKEY) stack32_pop( context );
578 DWORD iSubkey = (DWORD)stack32_pop( context );
579 LPSTR lpszName = (LPSTR)stack32_pop( context );
580 DWORD lpcchName = (DWORD)stack32_pop( context );
581 return RegEnumKeyA( hkey, iSubkey, lpszName, lpcchName );
582 }
583
584 case 0x0019: /* RegEnumValue */
585 {
586 HKEY hkey = (HKEY) stack32_pop( context );
587 DWORD iValue = (DWORD) stack32_pop( context );
588 LPSTR lpszValue = (LPSTR) stack32_pop( context );
589 LPDWORD lpcchValue = (LPDWORD)stack32_pop( context );
590 LPDWORD lpReserved = (LPDWORD)stack32_pop( context );
591 LPDWORD lpdwType = (LPDWORD)stack32_pop( context );
592 LPBYTE lpbData = (LPBYTE) stack32_pop( context );
593 LPDWORD lpcbData = (LPDWORD)stack32_pop( context );
594 return RegEnumValueA( hkey, iValue, lpszValue, lpcchValue,
595 lpReserved, lpdwType, lpbData, lpcbData );
596 }
597
598 case 0x001A: /* RegQueryValueEx */
599 {
600 HKEY hkey = (HKEY) stack32_pop( context );
601 LPSTR lpszValue = (LPSTR) stack32_pop( context );
602 LPDWORD lpReserved = (LPDWORD)stack32_pop( context );
603 LPDWORD lpdwType = (LPDWORD)stack32_pop( context );
604 LPBYTE lpbData = (LPBYTE) stack32_pop( context );
605 LPDWORD lpcbData = (LPDWORD)stack32_pop( context );
606 return RegQueryValueExA( hkey, lpszValue, lpReserved,
607 lpdwType, lpbData, lpcbData );
608 }
609
610 case 0x001B: /* RegSetValueEx */
611 {
612 HKEY hkey = (HKEY) stack32_pop( context );
613 LPSTR lpszValue = (LPSTR) stack32_pop( context );
614 DWORD dwReserved = (DWORD) stack32_pop( context );
615 DWORD dwType = (DWORD) stack32_pop( context );
616 LPBYTE lpbData = (LPBYTE)stack32_pop( context );
617 DWORD cbData = (DWORD) stack32_pop( context );
618 return RegSetValueExA( hkey, lpszValue, dwReserved,
619 dwType, lpbData, cbData );
620 }
621
622 case 0x001C: /* RegFlushKey */
623 {
624 HKEY hkey = (HKEY)stack32_pop( context );
625 return RegFlushKey( hkey );
626 }
627
628 case 0x001D: /* RegQueryInfoKey */
629 {
630 /* NOTE: This VxDCall takes only a subset of the parameters that the
631 corresponding Win32 API call does. The implementation in Win95
632 ADVAPI32 sets all output parameters not mentioned here to zero. */
633
634 HKEY hkey = (HKEY) stack32_pop( context );
635 LPDWORD lpcSubKeys = (LPDWORD)stack32_pop( context );
636 LPDWORD lpcchMaxSubKey = (LPDWORD)stack32_pop( context );
637 LPDWORD lpcValues = (LPDWORD)stack32_pop( context );
638 LPDWORD lpcchMaxValueName = (LPDWORD)stack32_pop( context );
639 LPDWORD lpcchMaxValueData = (LPDWORD)stack32_pop( context );
640 return RegQueryInfoKeyA( hkey, NULL, NULL, NULL, lpcSubKeys, lpcchMaxSubKey,
641 NULL, lpcValues, lpcchMaxValueName, lpcchMaxValueData,
642 NULL, NULL );
643 }
644
645 case 0x0021: /* RegLoadKey */
646 {
647 HKEY hkey = (HKEY) stack32_pop( context );
648 LPCSTR lpszSubKey = (LPCSTR)stack32_pop( context );
649 LPCSTR lpszFile = (LPCSTR)stack32_pop( context );
650 return RegLoadKeyA( hkey, lpszSubKey, lpszFile );
651 }
652
653 case 0x0022: /* RegUnLoadKey */
654 {
655 HKEY hkey = (HKEY) stack32_pop( context );
656 LPCSTR lpszSubKey = (LPCSTR)stack32_pop( context );
657 return RegUnLoadKeyA( hkey, lpszSubKey );
658 }
659
660 case 0x0023: /* RegSaveKey */
661 {
662 HKEY hkey = (HKEY) stack32_pop( context );
663 LPCSTR lpszFile = (LPCSTR)stack32_pop( context );
664 LPSECURITY_ATTRIBUTES sa = (LPSECURITY_ATTRIBUTES)stack32_pop( context );
665 return RegSaveKeyA( hkey, lpszFile, sa );
666 }
667
668 #if 0 /* Functions are not yet implemented in misc/registry.c */
669 case 0x0024: /* RegRemapPreDefKey */
670 case 0x0026: /* RegQueryMultipleValues */
671 #endif
672
673 case 0x0027: /* RegReplaceKey */
674 {
675 HKEY hkey = (HKEY) stack32_pop( context );
676 LPCSTR lpszSubKey = (LPCSTR)stack32_pop( context );
677 LPCSTR lpszNewFile= (LPCSTR)stack32_pop( context );
678 LPCSTR lpszOldFile= (LPCSTR)stack32_pop( context );
679 return RegReplaceKeyA( hkey, lpszSubKey, lpszNewFile, lpszOldFile );
680 }
681 case 0x0000: /* PageReserve */
682 {
683 LPVOID address;
684 LPVOID ret;
685 DWORD psize = getpagesize();
686 ULONG page = (ULONG) stack32_pop( context );
687 ULONG npages = (ULONG) stack32_pop( context );
688 ULONG flags = (ULONG) stack32_pop( context );
689
690 TRACE("PageReserve: page: %08lx, npages: %08lx, flags: %08lx partial stub!\n",
691 page, npages, flags );
692
693 if ( page == PR_SYSTEM ) {
694 ERR("Can't reserve ring 1 memory\n");
695 return -1;
696 }
697 /* FIXME: This has to be handled seperatly, when we have seperate
698 address-spaces */
699 if ( page == PR_PRIVATE || page == PR_SHARED ) page = 0;
700 /* FIXME: Handle flags in some way */
701 address = (LPVOID )(page * psize);
702 ret = VirtualAlloc ( address, ( npages * psize ), MEM_RESERVE, 0 );
703 TRACE("PageReserve: returning: %08lx\n", (DWORD )ret );
704 if ( ret == NULL )
705 return -1;
706 else
707 return (DWORD )ret;
708 }
709
710 case 0x0001: /* PageCommit */
711 {
712 LPVOID address;
713 LPVOID ret;
714 DWORD virt_perm;
715 DWORD psize = getpagesize();
716 ULONG page = (ULONG) stack32_pop( context );
717 ULONG npages = (ULONG) stack32_pop( context );
718 ULONG hpd = (ULONG) stack32_pop( context );
719 ULONG pagerdata = (ULONG) stack32_pop( context );
720 ULONG flags = (ULONG) stack32_pop( context );
721
722 TRACE("PageCommit: page: %08lx, npages: %08lx, hpd: %08lx pagerdata: "
723 "%08lx, flags: %08lx partial stub\n",
724 page, npages, hpd, pagerdata, flags );
725
726 if ( flags & PC_USER )
727 if ( flags & PC_WRITEABLE )
728 virt_perm = PAGE_EXECUTE_READWRITE;
729 else
730 virt_perm = PAGE_EXECUTE_READ;
731 else
732 virt_perm = PAGE_NOACCESS;
733
734 address = (LPVOID )(page * psize);
735 ret = VirtualAlloc ( address, ( npages * psize ), MEM_COMMIT, virt_perm );
736 TRACE("PageCommit: Returning: %08lx\n", (DWORD )ret );
737 return (DWORD )ret;
738
739 }
740 case 0x0002: /* PageDecommit */
741 {
742 LPVOID address;
743 BOOL ret;
744 DWORD psize = getpagesize();
745 ULONG page = (ULONG) stack32_pop( context );
746 ULONG npages = (ULONG) stack32_pop( context );
747 ULONG flags = (ULONG) stack32_pop( context );
748
749 TRACE("PageDecommit: page: %08lx, npages: %08lx, flags: %08lx partial stub\n",
750 page, npages, flags );
751 address = (LPVOID )( page * psize );
752 ret = VirtualFree ( address, ( npages * psize ), MEM_DECOMMIT );
753 TRACE("PageDecommit: Returning: %s\n", ret ? "TRUE" : "FALSE" );
754 return ret;
755 }
756 case 0x000d: /* PageModifyPermissions */
757 {
758 DWORD pg_old_perm;
759 DWORD pg_new_perm;
760 DWORD virt_old_perm;
761 DWORD virt_new_perm;
762 MEMORY_BASIC_INFORMATION mbi;
763 LPVOID address;
764 DWORD psize = getpagesize();
765 ULONG page = stack32_pop ( context );
766 ULONG npages = stack32_pop ( context );
767 ULONG permand = stack32_pop ( context );
768 ULONG permor = stack32_pop ( context );
769
770 TRACE("PageModifyPermissions %08lx %08lx %08lx %08lx partial stub\n",
771 page, npages, permand, permor );
772 address = (LPVOID )( page * psize );
773
774 VirtualQuery ( address, &mbi, sizeof ( MEMORY_BASIC_INFORMATION ));
775 virt_old_perm = mbi.Protect;
776
777 switch ( virt_old_perm & mbi.Protect ) {
778 case PAGE_READONLY:
779 case PAGE_EXECUTE:
780 case PAGE_EXECUTE_READ:
781 pg_old_perm = PC_USER;
782 break;
783 case PAGE_READWRITE:
784 case PAGE_WRITECOPY:
785 case PAGE_EXECUTE_READWRITE:
786 case PAGE_EXECUTE_WRITECOPY:
787 pg_old_perm = PC_USER | PC_WRITEABLE;
788 break;
789 case PAGE_NOACCESS:
790 default:
791 pg_old_perm = 0;
792 break;
793 }
794 pg_new_perm = pg_old_perm;
795 pg_new_perm &= permand & ~PC_STATIC;
796 pg_new_perm |= permor & ~PC_STATIC;
797
798 virt_new_perm = ( virt_old_perm ) & ~0xff;
799 if ( pg_new_perm & PC_USER )
800 {
801 if ( pg_new_perm & PC_WRITEABLE )
802 virt_new_perm |= PAGE_EXECUTE_READWRITE;
803 else
804 virt_new_perm |= PAGE_EXECUTE_READ;
805 }
806
807 if ( ! VirtualProtect ( address, ( npages * psize ), virt_new_perm, &virt_old_perm ) ) {
808 ERR("Can't change page permissions for %08lx\n", (DWORD )address );
809 return 0xffffffff;
810 }
811 TRACE("Returning: %08lx\n", pg_old_perm );
812 return pg_old_perm;
813 }
814 case 0x000a: /* PageFree */
815 {
816 BOOL ret;
817 LPVOID hmem = (LPVOID) stack32_pop( context );
818 DWORD flags = (DWORD ) stack32_pop( context );
819
820 TRACE("PageFree: hmem: %08lx, flags: %08lx partial stub\n",
821 (DWORD )hmem, flags );
822
823 ret = VirtualFree ( hmem, 0, MEM_RELEASE );
824 context->Eax = ret;
825 TRACE("Returning: %d\n", ret );
826
827 return 0;
828 }
829 case 0x001e: /* GetDemandPageInfo */
830 {
831 DWORD dinfo = (DWORD)stack32_pop( context );
832 DWORD flags = (DWORD)stack32_pop( context );
833
834 /* GetDemandPageInfo is supposed to fill out the struct at
835 * "dinfo" with various low-level memory management information.
836 * Apps are certainly not supposed to call this, although it's
837 * demoed and documented by Pietrek on pages 441-443 of "Windows
838 * 95 System Programming Secrets" if any program needs a real
839 * implementation of this.
840 */
841
842 FIXME("GetDemandPageInfo(%08lx %08lx): stub!\n", dinfo, flags);
843
844 return 0;
845 }
846 default:
847 if (LOWORD(service) < N_VMM_SERVICE)
848 FIXME( "Unimplemented service %s (%08lx)\n",
849 VMM_Service_Name[LOWORD(service)], service);
850 else
851 FIXME( "Unknown service %08lx\n", service);
852 break;
853 }
854
855 return 0xffffffff; /* FIXME */
856 }
857
858 /***********************************************************************
859 * DeviceIo_IFSMgr
860 * NOTES
861 * The ioctls is used by 'MSNET32.DLL'.
862 *
863 * I have been unable to uncover any documentation about the ioctls so
864 * the implementation of the cases IFS_IOCTL_21 and IFS_IOCTL_2F are
865 * based on a resonable guesses on information found in the Windows 95 DDK.
866 *
867 */
868
869 /*
870 * IFSMgr DeviceIO service
871 */
872
873 #define IFS_IOCTL_21 100
874 #define IFS_IOCTL_2F 101
875 #define IFS_IOCTL_GET_RES 102
876 #define IFS_IOCTL_GET_NETPRO_NAME_A 103
877
878 struct win32apireq {
879 unsigned long ar_proid;
880 unsigned long ar_eax;
881 unsigned long ar_ebx;
882 unsigned long ar_ecx;
883 unsigned long ar_edx;
884 unsigned long ar_esi;
885 unsigned long ar_edi;
886 unsigned long ar_ebp;
887 unsigned short ar_error;
888 unsigned short ar_pad;
889 };
890
891 static void win32apieq_2_CONTEXT(struct win32apireq *pIn,CONTEXT86 *pCxt)
892 {
893 memset(pCxt,0,sizeof(*pCxt));
894
895 pCxt->ContextFlags=CONTEXT86_INTEGER|CONTEXT86_CONTROL;
896 pCxt->Eax = pIn->ar_eax;
897 pCxt->Ebx = pIn->ar_ebx;
898 pCxt->Ecx = pIn->ar_ecx;
899 pCxt->Edx = pIn->ar_edx;
900 pCxt->Esi = pIn->ar_esi;
901 pCxt->Edi = pIn->ar_edi;
902
903 /* FIXME: Only partial CONTEXT86_CONTROL */
904 pCxt->Ebp = pIn->ar_ebp;
905
906 /* FIXME: pIn->ar_proid ignored */
907 /* FIXME: pIn->ar_error ignored */
908 /* FIXME: pIn->ar_pad ignored */
909 }
910
911 static void CONTEXT_2_win32apieq(CONTEXT86 *pCxt,struct win32apireq *pOut)
912 {
913 memset(pOut,0,sizeof(struct win32apireq));
914
915 pOut->ar_eax = pCxt->Eax;
916 pOut->ar_ebx = pCxt->Ebx;
917 pOut->ar_ecx = pCxt->Ecx;
918 pOut->ar_edx = pCxt->Edx;
919 pOut->ar_esi = pCxt->Esi;
920 pOut->ar_edi = pCxt->Edi;
921
922 /* FIXME: Only partial CONTEXT86_CONTROL */
923 pOut->ar_ebp = pCxt->Ebp;
924
925 /* FIXME: pOut->ar_proid ignored */
926 /* FIXME: pOut->ar_error ignored */
927 /* FIXME: pOut->ar_pad ignored */
928 }
929
930 static BOOL DeviceIo_IFSMgr(DWORD dwIoControlCode, LPVOID lpvInBuffer, DWORD cbInBuffer,
931 LPVOID lpvOutBuffer, DWORD cbOutBuffer,
932 LPDWORD lpcbBytesReturned,
933 LPOVERLAPPED lpOverlapped)
934 {
935 BOOL retv = TRUE;
936 TRACE("(%ld,%p,%ld,%p,%ld,%p,%p): stub\n",
937 dwIoControlCode,
938 lpvInBuffer,cbInBuffer,
939 lpvOutBuffer,cbOutBuffer,
940 lpcbBytesReturned,
941 lpOverlapped);
942
943 switch (dwIoControlCode)
944 {
945 case IFS_IOCTL_21:
946 case IFS_IOCTL_2F:{
947 CONTEXT86 cxt;
948 struct win32apireq *pIn=(struct win32apireq *) lpvInBuffer;
949 struct win32apireq *pOut=(struct win32apireq *) lpvOutBuffer;
950
951 TRACE(
952 "Control '%s': "
953 "proid=0x%08lx, eax=0x%08lx, ebx=0x%08lx, ecx=0x%08lx, "
954 "edx=0x%08lx, esi=0x%08lx, edi=0x%08lx, ebp=0x%08lx, "
955 "error=0x%04x, pad=0x%04x\n",
956 (dwIoControlCode==IFS_IOCTL_21)?"IFS_IOCTL_21":"IFS_IOCTL_2F",
957 pIn->ar_proid, pIn->ar_eax, pIn->ar_ebx, pIn->ar_ecx,
958 pIn->ar_edx, pIn->ar_esi, pIn->ar_edi, pIn->ar_ebp,
959 pIn->ar_error, pIn->ar_pad
960 );
961
962 win32apieq_2_CONTEXT(pIn,&cxt);
963
964 if(dwIoControlCode==IFS_IOCTL_21)
965 {
966 DOS3Call(&cxt); /* Call int 21h */
967 } else {
968 INT_Int2fHandler(&cxt); /* Call int 2Fh */
969 }
970
971 CONTEXT_2_win32apieq(&cxt,pOut);
972
973 retv = TRUE;
974 } break;
975 case IFS_IOCTL_GET_RES:{
976 FIXME( "Control 'IFS_IOCTL_GET_RES' not implemented\n");
977 retv = FALSE;
978 } break;
979 case IFS_IOCTL_GET_NETPRO_NAME_A:{
980 FIXME( "Control 'IFS_IOCTL_GET_NETPRO_NAME_A' not implemented\n");
981 retv = FALSE;
982 } break;
983 default:
984 FIXME( "Control %ld not implemented\n", dwIoControlCode);
985 retv = FALSE;
986 }
987
988 return retv;
989 }
990
991 /********************************************************************************
992 * VxDCall_VWin32
993 *
994 * Service numbers taken from page 448 of Pietrek's "Windows 95 System
995 * Progrmaming Secrets". Parameters from experimentation on real Win98.
996 *
997 */
998
999 static DWORD VxDCall_VWin32( DWORD service, CONTEXT86 *context )
1000 {
1001 switch ( LOWORD(service) )
1002 {
1003 case 0x0000: /* GetVersion */
1004 {
1005 DWORD vers = GetVersion();
1006 return (LOBYTE(vers) << 8) | HIBYTE(vers);
1007 }
1008 break;
1009
1010 case 0x0020: /* Get VMCPD Version */
1011 {
1012 DWORD parm = (DWORD) stack32_pop(context);
1013
1014 FIXME("Get VMCPD Version(%08lx): partial stub!\n", parm);
1015
1016 /* FIXME: This is what Win98 returns, it may
1017 * not be correct in all situations.
1018 * It makes Bleem! happy though.
1019 */
1020
1021 return 0x0405;
1022 }
1023
1024 case 0x0029: /* Int31/DPMI dispatch */
1025 {
1026 DWORD callnum = (DWORD) stack32_pop(context);
1027 DWORD parm = (DWORD) stack32_pop(context);
1028
1029 TRACE("Int31/DPMI dispatch(%08lx)\n", callnum);
1030
1031 AX_reg(context) = callnum;
1032 CX_reg(context) = parm;
1033 INT_Int31Handler(context);
1034
1035 return LOWORD(context->Eax);
1036 }
1037 break;
1038
1039 case 0x002a: /* Int41 dispatch - parm = int41 service number */
1040 {
1041 DWORD callnum = (DWORD) stack32_pop(context);
1042
1043 return callnum; /* FIXME: should really call INT_Int41Handler() */
1044 }
1045 break;
1046
1047 default:
1048 FIXME("Unknown VWin32 service %08lx\n", service);
1049 break;
1050 }
1051
1052 return 0xffffffff;
1053 }
1054
1055
1056
1057 /***********************************************************************
1058 * DeviceIo_VWin32
1059 */
1060
1061 static void DIOCRegs_2_CONTEXT( DIOC_REGISTERS *pIn, CONTEXT86 *pCxt )
1062 {
1063 memset( pCxt, 0, sizeof(*pCxt) );
1064 /* Note: segment registers == 0 means that CTX_SEG_OFF_TO_LIN
1065 will interpret 32-bit register contents as linear pointers */
1066
1067 pCxt->ContextFlags=CONTEXT86_INTEGER|CONTEXT86_CONTROL;
1068 pCxt->Eax = pIn->reg_EAX;
1069 pCxt->Ebx = pIn->reg_EBX;
1070 pCxt->Ecx = pIn->reg_ECX;
1071 pCxt->Edx = pIn->reg_EDX;
1072 pCxt->Esi = pIn->reg_ESI;
1073 pCxt->Edi = pIn->reg_EDI;
1074
1075 /* FIXME: Only partial CONTEXT86_CONTROL */
1076 pCxt->EFlags = pIn->reg_Flags;
1077 }
1078
1079 static void CONTEXT_2_DIOCRegs( CONTEXT86 *pCxt, DIOC_REGISTERS *pOut )
1080 {
1081 memset( pOut, 0, sizeof(DIOC_REGISTERS) );
1082
1083 pOut->reg_EAX = pCxt->Eax;
1084 pOut->reg_EBX = pCxt->Ebx;
1085 pOut->reg_ECX = pCxt->Ecx;
1086 pOut->reg_EDX = pCxt->Edx;
1087 pOut->reg_ESI = pCxt->Esi;
1088 pOut->reg_EDI = pCxt->Edi;
1089
1090 /* FIXME: Only partial CONTEXT86_CONTROL */
1091 pOut->reg_Flags = pCxt->EFlags;
1092 }
1093
1094
1095 static BOOL DeviceIo_VWin32(DWORD dwIoControlCode,
1096 LPVOID lpvInBuffer, DWORD cbInBuffer,
1097 LPVOID lpvOutBuffer, DWORD cbOutBuffer,
1098 LPDWORD lpcbBytesReturned,
1099 LPOVERLAPPED lpOverlapped)
1100 {
1101 BOOL retv = TRUE;
1102
1103 switch (dwIoControlCode)
1104 {
1105 case VWIN32_DIOC_DOS_IOCTL:
1106 case VWIN32_DIOC_DOS_INT13:
1107 case VWIN32_DIOC_DOS_INT25:
1108 case VWIN32_DIOC_DOS_INT26:
1109 case VWIN32_DIOC_DOS_DRIVEINFO:
1110 {
1111 CONTEXT86 cxt;
1112 DIOC_REGISTERS *pIn = (DIOC_REGISTERS *)lpvInBuffer;
1113 DIOC_REGISTERS *pOut = (DIOC_REGISTERS *)lpvOutBuffer;
1114
1115 TRACE( "Control '%s': "
1116 "eax=0x%08lx, ebx=0x%08lx, ecx=0x%08lx, "
1117 "edx=0x%08lx, esi=0x%08lx, edi=0x%08lx ",
1118 (dwIoControlCode == VWIN32_DIOC_DOS_IOCTL)? "VWIN32_DIOC_DOS_IOCTL" :
1119 (dwIoControlCode == VWIN32_DIOC_DOS_INT13)? "VWIN32_DIOC_DOS_INT13" :
1120 (dwIoControlCode == VWIN32_DIOC_DOS_INT25)? "VWIN32_DIOC_DOS_INT25" :
1121 (dwIoControlCode == VWIN32_DIOC_DOS_INT26)? "VWIN32_DIOC_DOS_INT26" :
1122 (dwIoControlCode == VWIN32_DIOC_DOS_DRIVEINFO)? "VWIN32_DIOC_DOS_DRIVEINFO" : "???",
1123 pIn->reg_EAX, pIn->reg_EBX, pIn->reg_ECX,
1124 pIn->reg_EDX, pIn->reg_ESI, pIn->reg_EDI );
1125
1126 DIOCRegs_2_CONTEXT( pIn, &cxt );
1127
1128 switch (dwIoControlCode)
1129 {
1130 case VWIN32_DIOC_DOS_IOCTL: DOS3Call( &cxt ); break; /* Call int 21h */
1131 case VWIN32_DIOC_DOS_INT13: INT_Int13Handler( &cxt ); break;
1132 case VWIN32_DIOC_DOS_INT25: INT_Int25Handler( &cxt ); break;
1133 case VWIN32_DIOC_DOS_INT26: INT_Int26Handler( &cxt ); break;
1134 case VWIN32_DIOC_DOS_DRIVEINFO: DOS3Call( &cxt ); break; /* Call int 21h 730x */
1135 }
1136
1137 CONTEXT_2_DIOCRegs( &cxt, pOut );
1138 }
1139 break;
1140
1141 case VWIN32_DIOC_SIMCTRLC:
1142 FIXME( "Control VWIN32_DIOC_SIMCTRLC not implemented\n");
1143 retv = FALSE;
1144 break;
1145
1146 default:
1147 FIXME( "Unknown Control %ld\n", dwIoControlCode);
1148 retv = FALSE;
1149 break;
1150 }
1151
1152 return retv;
1153 }
1154
1155 /* this is the main multimedia device loader */
1156 static BOOL DeviceIo_MMDEVLDR(DWORD dwIoControlCode,
1157 LPVOID lpvInBuffer, DWORD cbInBuffer,
1158 LPVOID lpvOutBuffer, DWORD cbOutBuffer,
1159 LPDWORD lpcbBytesReturned,
1160 LPOVERLAPPED lpOverlapped)
1161 {
1162 FIXME("(%ld,%p,%ld,%p,%ld,%p,%p): stub\n",
1163 dwIoControlCode,
1164 lpvInBuffer,cbInBuffer,
1165 lpvOutBuffer,cbOutBuffer,
1166 lpcbBytesReturned,
1167 lpOverlapped
1168 );
1169 switch (dwIoControlCode) {
1170 case 5:
1171 /* Hmm. */
1172 *(DWORD*)lpvOutBuffer=0;
1173 *lpcbBytesReturned=4;
1174 return TRUE;
1175 }
1176 return FALSE;
1177 }
1178 /* this is used by some Origin games */
1179 static BOOL DeviceIo_MONODEBG(DWORD dwIoControlCode,
1180 LPVOID lpvInBuffer, DWORD cbInBuffer,
1181 LPVOID lpvOutBuffer, DWORD cbOutBuffer,
1182 LPDWORD lpcbBytesReturned,
1183 LPOVERLAPPED lpOverlapped)
1184 {
1185 switch (dwIoControlCode) {
1186 case 1: /* version */
1187 *(LPDWORD)lpvOutBuffer = 0x20004; /* WC SecretOps */
1188 break;
1189 case 9: /* debug output */
1190 ERR("MONODEBG: %s\n",debugstr_a(lpvInBuffer));
1191 break;
1192 default:
1193 FIXME("(%ld,%p,%ld,%p,%ld,%p,%p): stub\n",
1194 dwIoControlCode,
1195 lpvInBuffer,cbInBuffer,
1196 lpvOutBuffer,cbOutBuffer,
1197 lpcbBytesReturned,
1198 lpOverlapped
1199 );
1200 break;
1201 }
1202 return TRUE;
1203 }
1204 /* pccard */
1205 static BOOL DeviceIo_PCCARD (DWORD dwIoControlCode,
1206 LPVOID lpvInBuffer, DWORD cbInBuffer,
1207 LPVOID lpvOutBuffer, DWORD cbOutBuffer,
1208 LPDWORD lpcbBytesReturned,
1209 LPOVERLAPPED lpOverlapped)
1210 {
1211 switch (dwIoControlCode) {
1212 case 0x0000: /* PCCARD_Get_Version */
1213 case 0x0001: /* PCCARD_Card_Services */
1214 default:
1215 FIXME( "(%ld,%p,%ld,%p,%ld,%p,%p): stub\n",
1216 dwIoControlCode,
1217 lpvInBuffer,cbInBuffer,
1218 lpvOutBuffer,cbOutBuffer,
1219 lpcbBytesReturned,
1220 lpOverlapped
1221 );
1222 break;
1223 }
1224 return FALSE;
1225 }
1226
1227 /***********************************************************************
1228 * OpenVxDHandle (KERNEL32.@)
1229 */
1230 DWORD WINAPI OpenVxDHandle(DWORD pmt)
1231 {
1232 FIXME( "(0x%08lx) stub!\n", pmt);
1233 return 0;
1234 }
1235
1236 static BOOL DeviceIo_HASP(DWORD dwIoControlCode, LPVOID lpvInBuffer, DWORD cbInBuffer,
1237 LPVOID lpvOutBuffer, DWORD cbOutBuffer,
1238 LPDWORD lpcbBytesReturned,
1239 LPOVERLAPPED lpOverlapped)
1240 {
1241 BOOL retv = TRUE;
1242 FIXME("(%ld,%p,%ld,%p,%ld,%p,%p): stub\n",
1243 dwIoControlCode,
1244 lpvInBuffer,cbInBuffer,
1245 lpvOutBuffer,cbOutBuffer,
1246 lpcbBytesReturned,
1247 lpOverlapped);
1248
1249 return retv;
1250 }
1251
Windows API implementation