VirtualBox

source: vbox/trunk/src/VBox/Additions/common/VBoxGuestLib/HGCMInternal.cpp@ 55772

Last change on this file since 55772 was 55401, checked in by vboxsync, 10 years ago

added a couple of missing Id headers

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  • Property svn:keywords set to Author Date Id Revision
File size: 44.1 KB
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1/* $Id: HGCMInternal.cpp 55401 2015-04-23 10:03:17Z vboxsync $ */
2/** @file
3 * VBoxGuestLib - Host-Guest Communication Manager internal functions, implemented by VBoxGuest
4 */
5
6/*
7 * Copyright (C) 2006-2014 Oracle Corporation
8 *
9 * This file is part of VirtualBox Open Source Edition (OSE), as
10 * available from http://www.virtualbox.org. This file is free software;
11 * you can redistribute it and/or modify it under the terms of the GNU
12 * General Public License (GPL) as published by the Free Software
13 * Foundation, in version 2 as it comes in the "COPYING" file of the
14 * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
15 * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
16 *
17 * The contents of this file may alternatively be used under the terms
18 * of the Common Development and Distribution License Version 1.0
19 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the
20 * VirtualBox OSE distribution, in which case the provisions of the
21 * CDDL are applicable instead of those of the GPL.
22 *
23 * You may elect to license modified versions of this file under the
24 * terms and conditions of either the GPL or the CDDL or both.
25 */
26
27/* Entire file is ifdef'ed with VBGL_VBOXGUEST */
28#ifdef VBGL_VBOXGUEST
29
30/*******************************************************************************
31* Header Files *
32*******************************************************************************/
33#define LOG_GROUP LOG_GROUP_HGCM
34
35#include "VBGLInternal.h"
36#include <iprt/alloca.h>
37#include <iprt/asm.h>
38#include <iprt/assert.h>
39#include <iprt/mem.h>
40#include <iprt/memobj.h>
41#include <iprt/string.h>
42#include <iprt/thread.h>
43#include <iprt/time.h>
44
45/*******************************************************************************
46* Defined Constants And Macros *
47*******************************************************************************/
48/** The max parameter buffer size for a user request. */
49#define VBGLR0_MAX_HGCM_USER_PARM (24*_1M)
50/** The max parameter buffer size for a kernel request. */
51#define VBGLR0_MAX_HGCM_KERNEL_PARM (16*_1M)
52#if defined(RT_OS_LINUX) || defined(RT_OS_DARWIN)
53/** Linux needs to use bounce buffers since RTR0MemObjLockUser has unwanted
54 * side effects.
55 * Darwin 32bit & 64bit also needs this because of 4GB/4GB user/kernel space. */
56# define USE_BOUNCE_BUFFERS
57#endif
58
59
60/*******************************************************************************
61* Structures and Typedefs *
62*******************************************************************************/
63/**
64 * Lock info structure used by VbglR0HGCMInternalCall and its helpers.
65 */
66struct VbglR0ParmInfo
67{
68 uint32_t cLockBufs;
69 struct
70 {
71 uint32_t iParm;
72 RTR0MEMOBJ hObj;
73#ifdef USE_BOUNCE_BUFFERS
74 void *pvSmallBuf;
75#endif
76 } aLockBufs[10];
77};
78
79
80
81/* These functions can be only used by VBoxGuest. */
82
83DECLVBGL(int) VbglR0HGCMInternalConnect (VBoxGuestHGCMConnectInfo *pConnectInfo,
84 PFNVBGLHGCMCALLBACK pfnAsyncCallback, void *pvAsyncData, uint32_t u32AsyncData)
85{
86 VMMDevHGCMConnect *pHGCMConnect;
87 int rc;
88
89 if (!pConnectInfo || !pfnAsyncCallback)
90 return VERR_INVALID_PARAMETER;
91
92 pHGCMConnect = NULL;
93
94 /* Allocate request */
95 rc = VbglGRAlloc ((VMMDevRequestHeader **)&pHGCMConnect, sizeof (VMMDevHGCMConnect), VMMDevReq_HGCMConnect);
96
97 if (RT_SUCCESS(rc))
98 {
99 /* Initialize request memory */
100 pHGCMConnect->header.fu32Flags = 0;
101
102 memcpy (&pHGCMConnect->loc, &pConnectInfo->Loc, sizeof (HGCMServiceLocation));
103 pHGCMConnect->u32ClientID = 0;
104
105 /* Issue request */
106 rc = VbglGRPerform (&pHGCMConnect->header.header);
107
108 if (RT_SUCCESS(rc))
109 {
110 /* Check if host decides to process the request asynchronously. */
111 if (rc == VINF_HGCM_ASYNC_EXECUTE)
112 {
113 /* Wait for request completion interrupt notification from host */
114 pfnAsyncCallback (&pHGCMConnect->header, pvAsyncData, u32AsyncData);
115 }
116
117 pConnectInfo->result = pHGCMConnect->header.result;
118
119 if (RT_SUCCESS (pConnectInfo->result))
120 pConnectInfo->u32ClientID = pHGCMConnect->u32ClientID;
121 }
122
123 VbglGRFree (&pHGCMConnect->header.header);
124 }
125
126 return rc;
127}
128
129
130DECLR0VBGL(int) VbglR0HGCMInternalDisconnect (VBoxGuestHGCMDisconnectInfo *pDisconnectInfo,
131 PFNVBGLHGCMCALLBACK pfnAsyncCallback, void *pvAsyncData, uint32_t u32AsyncData)
132{
133 VMMDevHGCMDisconnect *pHGCMDisconnect;
134 int rc;
135
136 if (!pDisconnectInfo || !pfnAsyncCallback)
137 return VERR_INVALID_PARAMETER;
138
139 pHGCMDisconnect = NULL;
140
141 /* Allocate request */
142 rc = VbglGRAlloc ((VMMDevRequestHeader **)&pHGCMDisconnect, sizeof (VMMDevHGCMDisconnect), VMMDevReq_HGCMDisconnect);
143
144 if (RT_SUCCESS(rc))
145 {
146 /* Initialize request memory */
147 pHGCMDisconnect->header.fu32Flags = 0;
148
149 pHGCMDisconnect->u32ClientID = pDisconnectInfo->u32ClientID;
150
151 /* Issue request */
152 rc = VbglGRPerform (&pHGCMDisconnect->header.header);
153
154 if (RT_SUCCESS(rc))
155 {
156 /* Check if host decides to process the request asynchronously. */
157 if (rc == VINF_HGCM_ASYNC_EXECUTE)
158 {
159 /* Wait for request completion interrupt notification from host */
160 pfnAsyncCallback (&pHGCMDisconnect->header, pvAsyncData, u32AsyncData);
161 }
162
163 pDisconnectInfo->result = pHGCMDisconnect->header.result;
164 }
165
166 VbglGRFree (&pHGCMDisconnect->header.header);
167 }
168
169 return rc;
170}
171
172
173/**
174 * Preprocesses the HGCM call, validating and locking/buffering parameters.
175 *
176 * @returns VBox status code.
177 *
178 * @param pCallInfo The call info.
179 * @param cbCallInfo The size of the call info structure.
180 * @param fIsUser Is it a user request or kernel request.
181 * @param pcbExtra Where to return the extra request space needed for
182 * physical page lists.
183 */
184static int vbglR0HGCMInternalPreprocessCall(VBoxGuestHGCMCallInfo const *pCallInfo, uint32_t cbCallInfo,
185 bool fIsUser, struct VbglR0ParmInfo *pParmInfo, size_t *pcbExtra)
186{
187 HGCMFunctionParameter const *pSrcParm = VBOXGUEST_HGCM_CALL_PARMS(pCallInfo);
188 uint32_t cParms = pCallInfo->cParms;
189 uint32_t iParm;
190 uint32_t cb;
191
192 /*
193 * Lock down the any linear buffers so we can get their addresses
194 * and figure out how much extra storage we need for page lists.
195 *
196 * Note! With kernel mode users we can be assertive. For user mode users
197 * we should just (debug) log it and fail without any fanfare.
198 */
199 *pcbExtra = 0;
200 pParmInfo->cLockBufs = 0;
201 for (iParm = 0; iParm < cParms; iParm++, pSrcParm++)
202 {
203 switch (pSrcParm->type)
204 {
205 case VMMDevHGCMParmType_32bit:
206 Log4(("GstHGCMCall: parm=%u type=32bit: %#010x\n", iParm, pSrcParm->u.value32));
207 break;
208
209 case VMMDevHGCMParmType_64bit:
210 Log4(("GstHGCMCall: parm=%u type=64bit: %#018RX64\n", iParm, pSrcParm->u.value64));
211 break;
212
213 case VMMDevHGCMParmType_PageList:
214 if (fIsUser)
215 return VERR_INVALID_PARAMETER;
216 cb = pSrcParm->u.PageList.size;
217 if (cb)
218 {
219 uint32_t off = pSrcParm->u.PageList.offset;
220 HGCMPageListInfo *pPgLst;
221 uint32_t cPages;
222 uint32_t u32;
223
224 AssertMsgReturn(cb <= VBGLR0_MAX_HGCM_KERNEL_PARM, ("%#x > %#x\n", cb, VBGLR0_MAX_HGCM_KERNEL_PARM),
225 VERR_OUT_OF_RANGE);
226 AssertMsgReturn( off >= pCallInfo->cParms * sizeof(HGCMFunctionParameter)
227 && off <= cbCallInfo - sizeof(HGCMPageListInfo),
228 ("offset=%#x cParms=%#x cbCallInfo=%#x\n", off, pCallInfo->cParms, cbCallInfo),
229 VERR_INVALID_PARAMETER);
230
231 pPgLst = (HGCMPageListInfo *)((uint8_t *)pCallInfo + off);
232 cPages = pPgLst->cPages;
233 u32 = RT_OFFSETOF(HGCMPageListInfo, aPages[cPages]) + off;
234 AssertMsgReturn(u32 <= cbCallInfo,
235 ("u32=%#x (cPages=%#x offset=%#x) cbCallInfo=%#x\n", u32, cPages, off, cbCallInfo),
236 VERR_INVALID_PARAMETER);
237 AssertMsgReturn(pPgLst->offFirstPage < PAGE_SIZE, ("#x\n", pPgLst->offFirstPage), VERR_INVALID_PARAMETER);
238 u32 = RT_ALIGN_32(pPgLst->offFirstPage + cb, PAGE_SIZE) >> PAGE_SHIFT;
239 AssertMsgReturn(cPages == u32, ("cPages=%#x u32=%#x\n", cPages, u32), VERR_INVALID_PARAMETER);
240 AssertMsgReturn(VBOX_HGCM_F_PARM_ARE_VALID(pPgLst->flags), ("%#x\n", pPgLst->flags), VERR_INVALID_PARAMETER);
241 Log4(("GstHGCMCall: parm=%u type=pglst: cb=%#010x cPgs=%u offPg0=%#x flags=%#x\n",
242 iParm, cb, cPages, pPgLst->offFirstPage, pPgLst->flags));
243 u32 = cPages;
244 while (u32-- > 0)
245 {
246 Log4(("GstHGCMCall: pg#%u=%RHp\n", u32, pPgLst->aPages[u32]));
247 AssertMsgReturn(!(pPgLst->aPages[u32] & (PAGE_OFFSET_MASK | UINT64_C(0xfff0000000000000))),
248 ("pg#%u=%RHp\n", u32, pPgLst->aPages[u32]),
249 VERR_INVALID_PARAMETER);
250 }
251
252 *pcbExtra += RT_OFFSETOF(HGCMPageListInfo, aPages[pPgLst->cPages]);
253 }
254 else
255 Log4(("GstHGCMCall: parm=%u type=pglst: cb=0\n", iParm));
256 break;
257
258 case VMMDevHGCMParmType_LinAddr_Locked_In:
259 case VMMDevHGCMParmType_LinAddr_Locked_Out:
260 case VMMDevHGCMParmType_LinAddr_Locked:
261 if (fIsUser)
262 return VERR_INVALID_PARAMETER;
263 if (!VBGLR0_CAN_USE_PHYS_PAGE_LIST(/*a_fLocked =*/ true))
264 {
265 cb = pSrcParm->u.Pointer.size;
266 AssertMsgReturn(cb <= VBGLR0_MAX_HGCM_KERNEL_PARM, ("%#x > %#x\n", cb, VBGLR0_MAX_HGCM_KERNEL_PARM),
267 VERR_OUT_OF_RANGE);
268 if (cb != 0)
269 Log4(("GstHGCMCall: parm=%u type=%#x: cb=%#010x pv=%p\n",
270 iParm, pSrcParm->type, cb, pSrcParm->u.Pointer.u.linearAddr));
271 else
272 Log4(("GstHGCMCall: parm=%u type=%#x: cb=0\n", iParm, pSrcParm->type));
273 break;
274 }
275 /* fall thru */
276
277 case VMMDevHGCMParmType_LinAddr_In:
278 case VMMDevHGCMParmType_LinAddr_Out:
279 case VMMDevHGCMParmType_LinAddr:
280 cb = pSrcParm->u.Pointer.size;
281 if (cb != 0)
282 {
283#ifdef USE_BOUNCE_BUFFERS
284 void *pvSmallBuf = NULL;
285#endif
286 uint32_t iLockBuf = pParmInfo->cLockBufs;
287 RTR0MEMOBJ hObj;
288 int rc;
289 uint32_t fAccess = pSrcParm->type == VMMDevHGCMParmType_LinAddr_In
290 || pSrcParm->type == VMMDevHGCMParmType_LinAddr_Locked_In
291 ? RTMEM_PROT_READ
292 : RTMEM_PROT_READ | RTMEM_PROT_WRITE;
293
294 AssertReturn(iLockBuf < RT_ELEMENTS(pParmInfo->aLockBufs), VERR_INVALID_PARAMETER);
295 if (!fIsUser)
296 {
297 AssertMsgReturn(cb <= VBGLR0_MAX_HGCM_KERNEL_PARM, ("%#x > %#x\n", cb, VBGLR0_MAX_HGCM_KERNEL_PARM),
298 VERR_OUT_OF_RANGE);
299 rc = RTR0MemObjLockKernel(&hObj, (void *)pSrcParm->u.Pointer.u.linearAddr, cb, fAccess);
300 if (RT_FAILURE(rc))
301 {
302 Log(("GstHGCMCall: id=%#x fn=%u parm=%u RTR0MemObjLockKernel(,%p,%#x) -> %Rrc\n",
303 pCallInfo->u32ClientID, pCallInfo->u32Function, iParm, pSrcParm->u.Pointer.u.linearAddr, cb, rc));
304 return rc;
305 }
306 Log3(("GstHGCMCall: parm=%u type=%#x: cb=%#010x pv=%p locked kernel -> %p\n",
307 iParm, pSrcParm->type, cb, pSrcParm->u.Pointer.u.linearAddr, hObj));
308 }
309 else if (cb > VBGLR0_MAX_HGCM_USER_PARM)
310 {
311 Log(("GstHGCMCall: id=%#x fn=%u parm=%u pv=%p cb=%#x > %#x -> out of range\n",
312 pCallInfo->u32ClientID, pCallInfo->u32Function, iParm, pSrcParm->u.Pointer.u.linearAddr,
313 cb, VBGLR0_MAX_HGCM_USER_PARM));
314 return VERR_OUT_OF_RANGE;
315 }
316 else
317 {
318#ifndef USE_BOUNCE_BUFFERS
319 rc = RTR0MemObjLockUser(&hObj, (RTR3PTR)pSrcParm->u.Pointer.u.linearAddr, cb, fAccess, NIL_RTR0PROCESS);
320 if (RT_FAILURE(rc))
321 {
322 Log(("GstHGCMCall: id=%#x fn=%u parm=%u RTR0MemObjLockUser(,%p,%#x,nil) -> %Rrc\n",
323 pCallInfo->u32ClientID, pCallInfo->u32Function, iParm, pSrcParm->u.Pointer.u.linearAddr, cb, rc));
324 return rc;
325 }
326 Log3(("GstHGCMCall: parm=%u type=%#x: cb=%#010x pv=%p locked user -> %p\n",
327 iParm, pSrcParm->type, cb, pSrcParm->u.Pointer.u.linearAddr, hObj));
328
329#else /* USE_BOUNCE_BUFFERS */
330 /*
331 * This is a bit massive, but we don't want to waste a
332 * whole page for a 3 byte string buffer (guest props).
333 *
334 * The threshold is ASSUMING sizeof(RTMEMHDR) == 16 and
335 * the system is using some power of two allocator.
336 */
337 /** @todo A more efficient strategy would be to combine buffers. However it
338 * is probably going to be more massive than the current code, so
339 * it can wait till later. */
340 bool fCopyIn = pSrcParm->type != VMMDevHGCMParmType_LinAddr_Out
341 && pSrcParm->type != VMMDevHGCMParmType_LinAddr_Locked_Out;
342 if (cb <= PAGE_SIZE / 2 - 16)
343 {
344 pvSmallBuf = fCopyIn ? RTMemTmpAlloc(cb) : RTMemTmpAllocZ(cb);
345 if (RT_UNLIKELY(!pvSmallBuf))
346 return VERR_NO_MEMORY;
347 if (fCopyIn)
348 {
349 rc = RTR0MemUserCopyFrom(pvSmallBuf, pSrcParm->u.Pointer.u.linearAddr, cb);
350 if (RT_FAILURE(rc))
351 {
352 RTMemTmpFree(pvSmallBuf);
353 Log(("GstHGCMCall: id=%#x fn=%u parm=%u RTR0MemUserCopyFrom(,%p,%#x) -> %Rrc\n",
354 pCallInfo->u32ClientID, pCallInfo->u32Function, iParm,
355 pSrcParm->u.Pointer.u.linearAddr, cb, rc));
356 return rc;
357 }
358 }
359 rc = RTR0MemObjLockKernel(&hObj, pvSmallBuf, cb, fAccess);
360 if (RT_FAILURE(rc))
361 {
362 RTMemTmpFree(pvSmallBuf);
363 Log(("GstHGCMCall: RTR0MemObjLockKernel failed for small buffer: rc=%Rrc pvSmallBuf=%p cb=%#x\n",
364 rc, pvSmallBuf, cb));
365 return rc;
366 }
367 Log3(("GstHGCMCall: parm=%u type=%#x: cb=%#010x pv=%p small buffer %p -> %p\n",
368 iParm, pSrcParm->type, cb, pSrcParm->u.Pointer.u.linearAddr, pvSmallBuf, hObj));
369 }
370 else
371 {
372 rc = RTR0MemObjAllocPage(&hObj, cb, false /*fExecutable*/);
373 if (RT_FAILURE(rc))
374 return rc;
375 if (!fCopyIn)
376 memset(RTR0MemObjAddress(hObj), '\0', cb);
377 else
378 {
379 rc = RTR0MemUserCopyFrom(RTR0MemObjAddress(hObj), pSrcParm->u.Pointer.u.linearAddr, cb);
380 if (RT_FAILURE(rc))
381 {
382 RTR0MemObjFree(hObj, false /*fFreeMappings*/);
383 Log(("GstHGCMCall: id=%#x fn=%u parm=%u RTR0MemUserCopyFrom(,%p,%#x) -> %Rrc\n",
384 pCallInfo->u32ClientID, pCallInfo->u32Function, iParm,
385 pSrcParm->u.Pointer.u.linearAddr, cb, rc));
386 return rc;
387 }
388 }
389 Log3(("GstHGCMCall: parm=%u type=%#x: cb=%#010x pv=%p big buffer -> %p\n",
390 iParm, pSrcParm->type, cb, pSrcParm->u.Pointer.u.linearAddr, hObj));
391 }
392#endif /* USE_BOUNCE_BUFFERS */
393 }
394
395 pParmInfo->aLockBufs[iLockBuf].iParm = iParm;
396 pParmInfo->aLockBufs[iLockBuf].hObj = hObj;
397#ifdef USE_BOUNCE_BUFFERS
398 pParmInfo->aLockBufs[iLockBuf].pvSmallBuf = pvSmallBuf;
399#endif
400 pParmInfo->cLockBufs = iLockBuf + 1;
401
402 if (VBGLR0_CAN_USE_PHYS_PAGE_LIST(/*a_fLocked =*/ false))
403 {
404 size_t const cPages = RTR0MemObjSize(hObj) >> PAGE_SHIFT;
405 *pcbExtra += RT_OFFSETOF(HGCMPageListInfo, aPages[cPages]);
406 }
407 }
408 else
409 Log4(("GstHGCMCall: parm=%u type=%#x: cb=0\n", iParm, pSrcParm->type));
410 break;
411
412 default:
413 return VERR_INVALID_PARAMETER;
414 }
415 }
416
417 return VINF_SUCCESS;
418}
419
420
421/**
422 * Translates locked linear address to the normal type.
423 * The locked types are only for the guest side and not handled by the host.
424 *
425 * @returns normal linear address type.
426 * @param enmType The type.
427 */
428static HGCMFunctionParameterType vbglR0HGCMInternalConvertLinAddrType(HGCMFunctionParameterType enmType)
429{
430 switch (enmType)
431 {
432 case VMMDevHGCMParmType_LinAddr_Locked_In:
433 return VMMDevHGCMParmType_LinAddr_In;
434 case VMMDevHGCMParmType_LinAddr_Locked_Out:
435 return VMMDevHGCMParmType_LinAddr_Out;
436 case VMMDevHGCMParmType_LinAddr_Locked:
437 return VMMDevHGCMParmType_LinAddr;
438 default:
439 return enmType;
440 }
441}
442
443
444/**
445 * Translates linear address types to page list direction flags.
446 *
447 * @returns page list flags.
448 * @param enmType The type.
449 */
450static uint32_t vbglR0HGCMInternalLinAddrTypeToPageListFlags(HGCMFunctionParameterType enmType)
451{
452 switch (enmType)
453 {
454 case VMMDevHGCMParmType_LinAddr_In:
455 case VMMDevHGCMParmType_LinAddr_Locked_In:
456 return VBOX_HGCM_F_PARM_DIRECTION_TO_HOST;
457
458 case VMMDevHGCMParmType_LinAddr_Out:
459 case VMMDevHGCMParmType_LinAddr_Locked_Out:
460 return VBOX_HGCM_F_PARM_DIRECTION_FROM_HOST;
461
462 default: AssertFailed();
463 case VMMDevHGCMParmType_LinAddr:
464 case VMMDevHGCMParmType_LinAddr_Locked:
465 return VBOX_HGCM_F_PARM_DIRECTION_BOTH;
466 }
467}
468
469
470/**
471 * Initializes the call request that we're sending to the host.
472 *
473 * @returns VBox status code.
474 *
475 * @param pCallInfo The call info.
476 * @param cbCallInfo The size of the call info structure.
477 * @param fIsUser Is it a user request or kernel request.
478 * @param pcbExtra Where to return the extra request space needed for
479 * physical page lists.
480 */
481static void vbglR0HGCMInternalInitCall(VMMDevHGCMCall *pHGCMCall, VBoxGuestHGCMCallInfo const *pCallInfo,
482 uint32_t cbCallInfo, bool fIsUser, struct VbglR0ParmInfo *pParmInfo)
483{
484 HGCMFunctionParameter const *pSrcParm = VBOXGUEST_HGCM_CALL_PARMS(pCallInfo);
485 HGCMFunctionParameter *pDstParm = VMMDEV_HGCM_CALL_PARMS(pHGCMCall);
486 uint32_t cParms = pCallInfo->cParms;
487 uint32_t offExtra = (uintptr_t)(pDstParm + cParms) - (uintptr_t)pHGCMCall;
488 uint32_t iLockBuf = 0;
489 uint32_t iParm;
490
491
492 /*
493 * The call request headers.
494 */
495 pHGCMCall->header.fu32Flags = 0;
496 pHGCMCall->header.result = VINF_SUCCESS;
497
498 pHGCMCall->u32ClientID = pCallInfo->u32ClientID;
499 pHGCMCall->u32Function = pCallInfo->u32Function;
500 pHGCMCall->cParms = cParms;
501
502 /*
503 * The parameters.
504 */
505 for (iParm = 0; iParm < pCallInfo->cParms; iParm++, pSrcParm++, pDstParm++)
506 {
507 switch (pSrcParm->type)
508 {
509 case VMMDevHGCMParmType_32bit:
510 case VMMDevHGCMParmType_64bit:
511 *pDstParm = *pSrcParm;
512 break;
513
514 case VMMDevHGCMParmType_PageList:
515 pDstParm->type = VMMDevHGCMParmType_PageList;
516 pDstParm->u.PageList.size = pSrcParm->u.PageList.size;
517 if (pSrcParm->u.PageList.size)
518 {
519 HGCMPageListInfo const *pSrcPgLst = (HGCMPageListInfo *)((uint8_t *)pCallInfo + pSrcParm->u.PageList.offset);
520 HGCMPageListInfo *pDstPgLst = (HGCMPageListInfo *)((uint8_t *)pHGCMCall + offExtra);
521 uint32_t const cPages = pSrcPgLst->cPages;
522 uint32_t iPage;
523
524 pDstParm->u.PageList.offset = offExtra;
525 pDstPgLst->flags = pSrcPgLst->flags;
526 pDstPgLst->offFirstPage = pSrcPgLst->offFirstPage;
527 pDstPgLst->cPages = cPages;
528 for (iPage = 0; iPage < cPages; iPage++)
529 pDstPgLst->aPages[iPage] = pSrcPgLst->aPages[iPage];
530
531 offExtra += RT_OFFSETOF(HGCMPageListInfo, aPages[cPages]);
532 }
533 else
534 pDstParm->u.PageList.offset = 0;
535 break;
536
537 case VMMDevHGCMParmType_LinAddr_Locked_In:
538 case VMMDevHGCMParmType_LinAddr_Locked_Out:
539 case VMMDevHGCMParmType_LinAddr_Locked:
540 if (!VBGLR0_CAN_USE_PHYS_PAGE_LIST(/*a_fLocked =*/ true))
541 {
542 *pDstParm = *pSrcParm;
543 pDstParm->type = vbglR0HGCMInternalConvertLinAddrType(pSrcParm->type);
544 break;
545 }
546 /* fall thru */
547
548 case VMMDevHGCMParmType_LinAddr_In:
549 case VMMDevHGCMParmType_LinAddr_Out:
550 case VMMDevHGCMParmType_LinAddr:
551 if (pSrcParm->u.Pointer.size != 0)
552 {
553#ifdef USE_BOUNCE_BUFFERS
554 void *pvSmallBuf = pParmInfo->aLockBufs[iLockBuf].pvSmallBuf;
555#endif
556 RTR0MEMOBJ hObj = pParmInfo->aLockBufs[iLockBuf].hObj;
557 Assert(iParm == pParmInfo->aLockBufs[iLockBuf].iParm);
558
559 if (VBGLR0_CAN_USE_PHYS_PAGE_LIST(/*a_fLocked =*/ false))
560 {
561 HGCMPageListInfo *pDstPgLst = (HGCMPageListInfo *)((uint8_t *)pHGCMCall + offExtra);
562 size_t const cPages = RTR0MemObjSize(hObj) >> PAGE_SHIFT;
563 size_t iPage;
564
565 pDstParm->type = VMMDevHGCMParmType_PageList;
566 pDstParm->u.PageList.size = pSrcParm->u.Pointer.size;
567 pDstParm->u.PageList.offset = offExtra;
568 pDstPgLst->flags = vbglR0HGCMInternalLinAddrTypeToPageListFlags(pSrcParm->type);
569#ifdef USE_BOUNCE_BUFFERS
570 if (fIsUser)
571 pDstPgLst->offFirstPage = (uintptr_t)pvSmallBuf & PAGE_OFFSET_MASK;
572 else
573#endif
574 pDstPgLst->offFirstPage = pSrcParm->u.Pointer.u.linearAddr & PAGE_OFFSET_MASK;
575 pDstPgLst->cPages = cPages; Assert(pDstPgLst->cPages == cPages);
576 for (iPage = 0; iPage < cPages; iPage++)
577 {
578 pDstPgLst->aPages[iPage] = RTR0MemObjGetPagePhysAddr(hObj, iPage);
579 Assert(pDstPgLst->aPages[iPage] != NIL_RTHCPHYS);
580 }
581
582 offExtra += RT_OFFSETOF(HGCMPageListInfo, aPages[cPages]);
583 }
584 else
585 {
586 pDstParm->type = vbglR0HGCMInternalConvertLinAddrType(pSrcParm->type);
587 pDstParm->u.Pointer.size = pSrcParm->u.Pointer.size;
588#ifdef USE_BOUNCE_BUFFERS
589 if (fIsUser)
590 pDstParm->u.Pointer.u.linearAddr = pvSmallBuf
591 ? (uintptr_t)pvSmallBuf
592 : (uintptr_t)RTR0MemObjAddress(hObj);
593 else
594#endif
595 pDstParm->u.Pointer.u.linearAddr = pSrcParm->u.Pointer.u.linearAddr;
596 }
597 iLockBuf++;
598 }
599 else
600 {
601 pDstParm->type = vbglR0HGCMInternalConvertLinAddrType(pSrcParm->type);
602 pDstParm->u.Pointer.size = 0;
603 pDstParm->u.Pointer.u.linearAddr = 0;
604 }
605 break;
606
607 default:
608 AssertFailed();
609 pDstParm->type = VMMDevHGCMParmType_Invalid;
610 break;
611 }
612 }
613}
614
615
616/**
617 * Performs the call and completion wait.
618 *
619 * @returns VBox status code of this operation, not necessarily the call.
620 *
621 * @param pHGCMCall The HGCM call info.
622 * @param pfnAsyncCallback The async callback that will wait for the call
623 * to complete.
624 * @param pvAsyncData Argument for the callback.
625 * @param u32AsyncData Argument for the callback.
626 * @param pfLeakIt Where to return the leak it / free it,
627 * indicator. Cancellation fun.
628 */
629static int vbglR0HGCMInternalDoCall(VMMDevHGCMCall *pHGCMCall, PFNVBGLHGCMCALLBACK pfnAsyncCallback,
630 void *pvAsyncData, uint32_t u32AsyncData, bool *pfLeakIt)
631{
632 int rc;
633
634 Log(("calling VbglGRPerform\n"));
635 rc = VbglGRPerform(&pHGCMCall->header.header);
636 Log(("VbglGRPerform rc = %Rrc (header rc=%d)\n", rc, pHGCMCall->header.result));
637
638 /*
639 * If the call failed, but as a result of the request itself, then pretend
640 * success. Upper layers will interpret the result code in the packet.
641 */
642 if ( RT_FAILURE(rc)
643 && rc == pHGCMCall->header.result)
644 {
645 Assert(pHGCMCall->header.fu32Flags & VBOX_HGCM_REQ_DONE);
646 rc = VINF_SUCCESS;
647 }
648
649 /*
650 * Check if host decides to process the request asynchronously,
651 * if so, we wait for it to complete using the caller supplied callback.
652 */
653 *pfLeakIt = false;
654 if (rc == VINF_HGCM_ASYNC_EXECUTE)
655 {
656 Log(("Processing HGCM call asynchronously\n"));
657 rc = pfnAsyncCallback(&pHGCMCall->header, pvAsyncData, u32AsyncData);
658 if (pHGCMCall->header.fu32Flags & VBOX_HGCM_REQ_DONE)
659 {
660 Assert(!(pHGCMCall->header.fu32Flags & VBOX_HGCM_REQ_CANCELLED));
661 rc = VINF_SUCCESS;
662 }
663 else
664 {
665 /*
666 * The request didn't complete in time or the call was interrupted,
667 * the RC from the callback indicates which. Try cancel the request.
668 *
669 * This is a bit messy because we're racing request completion. Sorry.
670 */
671 /** @todo It would be nice if we could use the waiter callback to do further
672 * waiting in case of a completion race. If it wasn't for WINNT having its own
673 * version of all that stuff, I would've done it already. */
674 VMMDevHGCMCancel2 *pCancelReq;
675 int rc2 = VbglGRAlloc((VMMDevRequestHeader **)&pCancelReq, sizeof(*pCancelReq), VMMDevReq_HGCMCancel2);
676 if (RT_SUCCESS(rc2))
677 {
678 pCancelReq->physReqToCancel = VbglPhysHeapGetPhysAddr(pHGCMCall);
679 rc2 = VbglGRPerform(&pCancelReq->header);
680 VbglGRFree(&pCancelReq->header);
681 }
682#if 1 /** @todo ADDVER: Remove this on next minor version change. */
683 if (rc2 == VERR_NOT_IMPLEMENTED)
684 {
685 /* host is too old, or we're out of heap. */
686 pHGCMCall->header.fu32Flags |= VBOX_HGCM_REQ_CANCELLED;
687 pHGCMCall->header.header.requestType = VMMDevReq_HGCMCancel;
688 rc2 = VbglGRPerform(&pHGCMCall->header.header);
689 if (rc2 == VERR_INVALID_PARAMETER)
690 rc2 = VERR_NOT_FOUND;
691 else if (RT_SUCCESS(rc))
692 RTThreadSleep(1);
693 }
694#endif
695 if (RT_SUCCESS(rc)) rc = VERR_INTERRUPTED; /** @todo weed this out from the WINNT VBoxGuest code. */
696 if (RT_SUCCESS(rc2))
697 {
698 Log(("vbglR0HGCMInternalDoCall: successfully cancelled\n"));
699 pHGCMCall->header.fu32Flags |= VBOX_HGCM_REQ_CANCELLED;
700 }
701 else
702 {
703 /*
704 * Wait for a bit while the host (hopefully) completes it.
705 */
706 uint64_t u64Start = RTTimeSystemMilliTS();
707 uint32_t cMilliesToWait = rc2 == VERR_NOT_FOUND || rc2 == VERR_SEM_DESTROYED ? 500 : 2000;
708 uint64_t cElapsed = 0;
709 if (rc2 != VERR_NOT_FOUND)
710 {
711 static unsigned s_cErrors = 0;
712 if (s_cErrors++ < 32)
713 LogRel(("vbglR0HGCMInternalDoCall: Failed to cancel the HGCM call on %Rrc: rc2=%Rrc\n", rc, rc2));
714 }
715 else
716 Log(("vbglR0HGCMInternalDoCall: Cancel race rc=%Rrc rc2=%Rrc\n", rc, rc2));
717
718 do
719 {
720 ASMCompilerBarrier(); /* paranoia */
721 if (pHGCMCall->header.fu32Flags & VBOX_HGCM_REQ_DONE)
722 break;
723 RTThreadSleep(1);
724 cElapsed = RTTimeSystemMilliTS() - u64Start;
725 } while (cElapsed < cMilliesToWait);
726
727 ASMCompilerBarrier(); /* paranoia^2 */
728 if (pHGCMCall->header.fu32Flags & VBOX_HGCM_REQ_DONE)
729 rc = VINF_SUCCESS;
730 else
731 {
732 LogRel(("vbglR0HGCMInternalDoCall: Leaking %u bytes. Pending call to %u with %u parms. (rc2=%Rrc)\n",
733 pHGCMCall->header.header.size, pHGCMCall->u32Function, pHGCMCall->cParms, rc2));
734 *pfLeakIt = true;
735 }
736 Log(("vbglR0HGCMInternalDoCall: Cancel race ended with rc=%Rrc (rc2=%Rrc) after %llu ms\n", rc, rc2, cElapsed));
737 }
738 }
739 }
740
741 Log(("GstHGCMCall: rc=%Rrc result=%Rrc fu32Flags=%#x fLeakIt=%d\n",
742 rc, pHGCMCall->header.result, pHGCMCall->header.fu32Flags, *pfLeakIt));
743 return rc;
744}
745
746
747/**
748 * Copies the result of the call back to the caller info structure and user
749 * buffers (if using bounce buffers).
750 *
751 * @returns rc, unless RTR0MemUserCopyTo fails.
752 * @param pCallInfo Call info structure to update.
753 * @param pHGCMCall HGCM call request.
754 * @param pParmInfo Parameter locking/buffering info.
755 * @param fIsUser Is it a user (true) or kernel request.
756 * @param rc The current result code. Passed along to
757 * preserve informational status codes.
758 */
759static int vbglR0HGCMInternalCopyBackResult(VBoxGuestHGCMCallInfo *pCallInfo, VMMDevHGCMCall const *pHGCMCall,
760 struct VbglR0ParmInfo *pParmInfo, bool fIsUser, int rc)
761{
762 HGCMFunctionParameter const *pSrcParm = VMMDEV_HGCM_CALL_PARMS(pHGCMCall);
763 HGCMFunctionParameter *pDstParm = VBOXGUEST_HGCM_CALL_PARMS(pCallInfo);
764 uint32_t cParms = pCallInfo->cParms;
765#ifdef USE_BOUNCE_BUFFERS
766 uint32_t iLockBuf = 0;
767#endif
768 uint32_t iParm;
769
770 /*
771 * The call result.
772 */
773 pCallInfo->result = pHGCMCall->header.result;
774
775 /*
776 * Copy back parameters.
777 */
778 for (iParm = 0; iParm < cParms; iParm++, pSrcParm++, pDstParm++)
779 {
780 switch (pDstParm->type)
781 {
782 case VMMDevHGCMParmType_32bit:
783 case VMMDevHGCMParmType_64bit:
784 *pDstParm = *pSrcParm;
785 break;
786
787 case VMMDevHGCMParmType_PageList:
788 pDstParm->u.PageList.size = pSrcParm->u.PageList.size;
789 break;
790
791 case VMMDevHGCMParmType_LinAddr_Locked_In:
792 case VMMDevHGCMParmType_LinAddr_In:
793#ifdef USE_BOUNCE_BUFFERS
794 if ( fIsUser
795 && iLockBuf < pParmInfo->cLockBufs
796 && iParm == pParmInfo->aLockBufs[iLockBuf].iParm)
797 iLockBuf++;
798#endif
799 pDstParm->u.Pointer.size = pSrcParm->u.Pointer.size;
800 break;
801
802 case VMMDevHGCMParmType_LinAddr_Locked_Out:
803 case VMMDevHGCMParmType_LinAddr_Locked:
804 if (!VBGLR0_CAN_USE_PHYS_PAGE_LIST(/*a_fLocked =*/ true))
805 {
806 pDstParm->u.Pointer.size = pSrcParm->u.Pointer.size;
807 break;
808 }
809 /* fall thru */
810
811 case VMMDevHGCMParmType_LinAddr_Out:
812 case VMMDevHGCMParmType_LinAddr:
813 {
814#ifdef USE_BOUNCE_BUFFERS
815 if (fIsUser)
816 {
817 size_t cbOut = RT_MIN(pSrcParm->u.Pointer.size, pDstParm->u.Pointer.size);
818 if (cbOut)
819 {
820 int rc2;
821 Assert(pParmInfo->aLockBufs[iLockBuf].iParm == iParm);
822 rc2 = RTR0MemUserCopyTo((RTR3PTR)pDstParm->u.Pointer.u.linearAddr,
823 pParmInfo->aLockBufs[iLockBuf].pvSmallBuf
824 ? pParmInfo->aLockBufs[iLockBuf].pvSmallBuf
825 : RTR0MemObjAddress(pParmInfo->aLockBufs[iLockBuf].hObj),
826 cbOut);
827 if (RT_FAILURE(rc2))
828 return rc2;
829 iLockBuf++;
830 }
831 else if ( iLockBuf < pParmInfo->cLockBufs
832 && iParm == pParmInfo->aLockBufs[iLockBuf].iParm)
833 iLockBuf++;
834 }
835#endif
836 pDstParm->u.Pointer.size = pSrcParm->u.Pointer.size;
837 break;
838 }
839
840 default:
841 AssertFailed();
842 rc = VERR_INTERNAL_ERROR_4;
843 break;
844 }
845 }
846
847#ifdef USE_BOUNCE_BUFFERS
848 Assert(!fIsUser || pParmInfo->cLockBufs == iLockBuf);
849#endif
850 return rc;
851}
852
853
854DECLR0VBGL(int) VbglR0HGCMInternalCall(VBoxGuestHGCMCallInfo *pCallInfo, uint32_t cbCallInfo, uint32_t fFlags,
855 PFNVBGLHGCMCALLBACK pfnAsyncCallback, void *pvAsyncData, uint32_t u32AsyncData)
856{
857 bool fIsUser = (fFlags & VBGLR0_HGCMCALL_F_MODE_MASK) == VBGLR0_HGCMCALL_F_USER;
858 struct VbglR0ParmInfo ParmInfo;
859 size_t cbExtra;
860 int rc;
861
862 /*
863 * Basic validation.
864 */
865 AssertMsgReturn( !pCallInfo
866 || !pfnAsyncCallback
867 || pCallInfo->cParms > VBOX_HGCM_MAX_PARMS
868 || !(fFlags & ~VBGLR0_HGCMCALL_F_MODE_MASK),
869 ("pCallInfo=%p pfnAsyncCallback=%p fFlags=%#x\n", pCallInfo, pfnAsyncCallback, fFlags),
870 VERR_INVALID_PARAMETER);
871 AssertReturn( cbCallInfo >= sizeof(VBoxGuestHGCMCallInfo)
872 || cbCallInfo >= pCallInfo->cParms * sizeof(HGCMFunctionParameter),
873 VERR_INVALID_PARAMETER);
874
875 Log(("GstHGCMCall: u32ClientID=%#x u32Function=%u cParms=%u cbCallInfo=%#x fFlags=%#x\n",
876 pCallInfo->u32ClientID, pCallInfo->u32ClientID, pCallInfo->u32Function, pCallInfo->cParms, cbCallInfo, fFlags));
877
878 /*
879 * Validate, lock and buffer the parameters for the call.
880 * This will calculate the amount of extra space for physical page list.
881 */
882 rc = vbglR0HGCMInternalPreprocessCall(pCallInfo, cbCallInfo, fIsUser, &ParmInfo, &cbExtra);
883 if (RT_SUCCESS(rc))
884 {
885 /*
886 * Allocate the request buffer and recreate the call request.
887 */
888 VMMDevHGCMCall *pHGCMCall;
889 rc = VbglGRAlloc((VMMDevRequestHeader **)&pHGCMCall,
890 sizeof(VMMDevHGCMCall) + pCallInfo->cParms * sizeof(HGCMFunctionParameter) + cbExtra,
891 VMMDevReq_HGCMCall);
892 if (RT_SUCCESS(rc))
893 {
894 bool fLeakIt;
895 vbglR0HGCMInternalInitCall(pHGCMCall, pCallInfo, cbCallInfo, fIsUser, &ParmInfo);
896
897 /*
898 * Perform the call.
899 */
900 rc = vbglR0HGCMInternalDoCall(pHGCMCall, pfnAsyncCallback, pvAsyncData, u32AsyncData, &fLeakIt);
901 if (RT_SUCCESS(rc))
902 {
903 /*
904 * Copy back the result (parameters and buffers that changed).
905 */
906 rc = vbglR0HGCMInternalCopyBackResult(pCallInfo, pHGCMCall, &ParmInfo, fIsUser, rc);
907 }
908 else
909 {
910 if ( rc != VERR_INTERRUPTED
911 && rc != VERR_TIMEOUT)
912 {
913 static unsigned s_cErrors = 0;
914 if (s_cErrors++ < 32)
915 LogRel(("VbglR0HGCMInternalCall: vbglR0HGCMInternalDoCall failed. rc=%Rrc\n", rc));
916 }
917 }
918
919 if (!fLeakIt)
920 VbglGRFree(&pHGCMCall->header.header);
921 }
922 }
923 else
924 LogRel(("VbglR0HGCMInternalCall: vbglR0HGCMInternalPreprocessCall failed. rc=%Rrc\n", rc));
925
926 /*
927 * Release locks and free bounce buffers.
928 */
929 if (ParmInfo.cLockBufs)
930 while (ParmInfo.cLockBufs-- > 0)
931 {
932 RTR0MemObjFree(ParmInfo.aLockBufs[ParmInfo.cLockBufs].hObj, false /*fFreeMappings*/);
933#ifdef USE_BOUNCE_BUFFERS
934 RTMemTmpFree(ParmInfo.aLockBufs[ParmInfo.cLockBufs].pvSmallBuf);
935#endif
936 }
937
938 return rc;
939}
940
941
942#if ARCH_BITS == 64
943DECLR0VBGL(int) VbglR0HGCMInternalCall32(VBoxGuestHGCMCallInfo *pCallInfo, uint32_t cbCallInfo, uint32_t fFlags,
944 PFNVBGLHGCMCALLBACK pfnAsyncCallback, void *pvAsyncData, uint32_t u32AsyncData)
945{
946 VBoxGuestHGCMCallInfo *pCallInfo64 = NULL;
947 HGCMFunctionParameter *pParm64 = NULL;
948 HGCMFunctionParameter32 *pParm32 = NULL;
949 uint32_t cParms = 0;
950 uint32_t iParm = 0;
951 int rc = VINF_SUCCESS;
952
953 /*
954 * Input validation.
955 */
956 AssertMsgReturn( !pCallInfo
957 || !pfnAsyncCallback
958 || pCallInfo->cParms > VBOX_HGCM_MAX_PARMS
959 || !(fFlags & ~VBGLR0_HGCMCALL_F_MODE_MASK),
960 ("pCallInfo=%p pfnAsyncCallback=%p fFlags=%#x\n", pCallInfo, pfnAsyncCallback, fFlags),
961 VERR_INVALID_PARAMETER);
962 AssertReturn( cbCallInfo >= sizeof(VBoxGuestHGCMCallInfo)
963 || cbCallInfo >= pCallInfo->cParms * sizeof(HGCMFunctionParameter32),
964 VERR_INVALID_PARAMETER);
965
966 /* This Assert does not work on Solaris/Windows 64/32 mixed mode, not sure why, skipping for now */
967#if !defined(RT_OS_SOLARIS) && !defined(RT_OS_WINDOWS)
968 AssertReturn((fFlags & VBGLR0_HGCMCALL_F_MODE_MASK) == VBGLR0_HGCMCALL_F_KERNEL, VERR_WRONG_ORDER);
969#endif
970
971 cParms = pCallInfo->cParms;
972 Log(("VbglR0HGCMInternalCall32: cParms=%d, u32Function=%d, fFlags=%#x\n", cParms, pCallInfo->u32Function, fFlags));
973
974 /*
975 * The simple approach, allocate a temporary request and convert the parameters.
976 */
977 pCallInfo64 = (VBoxGuestHGCMCallInfo *)RTMemTmpAllocZ(sizeof(*pCallInfo64) + cParms * sizeof(HGCMFunctionParameter));
978 if (!pCallInfo64)
979 return VERR_NO_TMP_MEMORY;
980
981 *pCallInfo64 = *pCallInfo;
982 pParm32 = VBOXGUEST_HGCM_CALL_PARMS32(pCallInfo);
983 pParm64 = VBOXGUEST_HGCM_CALL_PARMS(pCallInfo64);
984 for (iParm = 0; iParm < cParms; iParm++, pParm32++, pParm64++)
985 {
986 switch (pParm32->type)
987 {
988 case VMMDevHGCMParmType_32bit:
989 pParm64->type = VMMDevHGCMParmType_32bit;
990 pParm64->u.value32 = pParm32->u.value32;
991 break;
992
993 case VMMDevHGCMParmType_64bit:
994 pParm64->type = VMMDevHGCMParmType_64bit;
995 pParm64->u.value64 = pParm32->u.value64;
996 break;
997
998 case VMMDevHGCMParmType_LinAddr_Out:
999 case VMMDevHGCMParmType_LinAddr:
1000 case VMMDevHGCMParmType_LinAddr_In:
1001 pParm64->type = pParm32->type;
1002 pParm64->u.Pointer.size = pParm32->u.Pointer.size;
1003 pParm64->u.Pointer.u.linearAddr = pParm32->u.Pointer.u.linearAddr;
1004 break;
1005
1006 default:
1007 rc = VERR_INVALID_PARAMETER;
1008 LogRel(("VbglR0HGCMInternalCall32: pParm32 type %#x invalid.\n", pParm32->type));
1009 break;
1010 }
1011 if (RT_FAILURE(rc))
1012 break;
1013 }
1014 if (RT_SUCCESS(rc))
1015 {
1016 rc = VbglR0HGCMInternalCall(pCallInfo64, sizeof(*pCallInfo64) + cParms * sizeof(HGCMFunctionParameter), fFlags,
1017 pfnAsyncCallback, pvAsyncData, u32AsyncData);
1018
1019 if (RT_SUCCESS(rc))
1020 {
1021 *pCallInfo = *pCallInfo64;
1022
1023 /*
1024 * Copy back.
1025 */
1026 pParm32 = VBOXGUEST_HGCM_CALL_PARMS32(pCallInfo);
1027 pParm64 = VBOXGUEST_HGCM_CALL_PARMS(pCallInfo64);
1028 for (iParm = 0; iParm < cParms; iParm++, pParm32++, pParm64++)
1029 {
1030 switch (pParm64->type)
1031 {
1032 case VMMDevHGCMParmType_32bit:
1033 pParm32->u.value32 = pParm64->u.value32;
1034 break;
1035
1036 case VMMDevHGCMParmType_64bit:
1037 pParm32->u.value64 = pParm64->u.value64;
1038 break;
1039
1040 case VMMDevHGCMParmType_LinAddr_Out:
1041 case VMMDevHGCMParmType_LinAddr:
1042 case VMMDevHGCMParmType_LinAddr_In:
1043 pParm32->u.Pointer.size = pParm64->u.Pointer.size;
1044 break;
1045
1046 default:
1047 LogRel(("VbglR0HGCMInternalCall32: failed invalid pParm32 type %d\n", pParm32->type));
1048 rc = VERR_INTERNAL_ERROR_3;
1049 break;
1050 }
1051 }
1052 }
1053 else
1054 {
1055 static unsigned s_cErrors = 0;
1056 if (s_cErrors++ < 32)
1057 LogRel(("VbglR0HGCMInternalCall32: VbglR0HGCMInternalCall failed. rc=%Rrc\n", rc));
1058 }
1059 }
1060 else
1061 {
1062 static unsigned s_cErrors = 0;
1063 if (s_cErrors++ < 32)
1064 LogRel(("VbglR0HGCMInternalCall32: failed. rc=%Rrc\n", rc));
1065 }
1066
1067 RTMemTmpFree(pCallInfo64);
1068 return rc;
1069}
1070#endif /* ARCH_BITS == 64 */
1071
1072#endif /* VBGL_VBOXGUEST */
1073
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