VirtualBox

source: vbox/trunk/src/VBox/Main/src-client/GuestCtrlPrivate.cpp@ 78425

Last change on this file since 78425 was 78234, checked in by vboxsync, 6 years ago

Main/GuestCtrl: Fixed three i_waitForStatusChange() methods that would return VERR_GSTCTL_GUEST_ERROR without setting prcGuest, making the caller use uninitialized stack as status code for the operation. bugref:9320

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1/* $Id: GuestCtrlPrivate.cpp 78234 2019-04-20 23:49:01Z vboxsync $ */
2/** @file
3 * Internal helpers/structures for guest control functionality.
4 */
5
6/*
7 * Copyright (C) 2011-2019 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
18
19/*********************************************************************************************************************************
20* Header Files *
21*********************************************************************************************************************************/
22#define LOG_GROUP LOG_GROUP_GUEST_CONTROL
23#include "LoggingNew.h"
24
25#ifndef VBOX_WITH_GUEST_CONTROL
26# error "VBOX_WITH_GUEST_CONTROL must defined in this file"
27#endif
28#include "GuestCtrlImplPrivate.h"
29#include "GuestSessionImpl.h"
30#include "VMMDev.h"
31
32#include <iprt/asm.h>
33#include <iprt/cpp/utils.h> /* For unconst(). */
34#include <iprt/ctype.h>
35#ifdef DEBUG
36# include <iprt/file.h>
37#endif
38#include <iprt/fs.h>
39#include <iprt/rand.h>
40#include <iprt/time.h>
41#include <VBox/AssertGuest.h>
42
43
44/**
45 * Extracts the timespec from a given stream block key.
46 *
47 * @return Pointer to handed-in timespec, or NULL if invalid / not found.
48 * @param strmBlk Stream block to extract timespec from.
49 * @param strKey Key to get timespec for.
50 * @param pTimeSpec Where to store the extracted timespec.
51 */
52/* static */
53PRTTIMESPEC GuestFsObjData::TimeSpecFromKey(const GuestProcessStreamBlock &strmBlk, const Utf8Str &strKey, PRTTIMESPEC pTimeSpec)
54{
55 AssertPtrReturn(pTimeSpec, NULL);
56
57 Utf8Str strTime = strmBlk.GetString(strKey.c_str());
58 if (strTime.isEmpty())
59 return NULL;
60
61 if (!RTTimeSpecFromString(pTimeSpec, strTime.c_str()))
62 return NULL;
63
64 return pTimeSpec;
65}
66
67/**
68 * Extracts the nanoseconds relative from Unix epoch for a given stream block key.
69 *
70 * @return Nanoseconds relative from Unix epoch, or 0 if invalid / not found.
71 * @param strmBlk Stream block to extract nanoseconds from.
72 * @param strKey Key to get nanoseconds for.
73 */
74/* static */
75int64_t GuestFsObjData::UnixEpochNsFromKey(const GuestProcessStreamBlock &strmBlk, const Utf8Str &strKey)
76{
77 RTTIMESPEC TimeSpec;
78 if (!GuestFsObjData::TimeSpecFromKey(strmBlk, strKey, &TimeSpec))
79 return 0;
80
81 return TimeSpec.i64NanosecondsRelativeToUnixEpoch;
82}
83
84/**
85 * Initializes this object data with a stream block from VBOXSERVICE_TOOL_LS.
86 *
87 * This is also used by FromStat since the output should be identical given that
88 * they use the same output function on the guest side when fLong is true.
89 *
90 * @return VBox status code.
91 * @param strmBlk Stream block to use for initialization.
92 * @param fLong Whether the stream block contains long (detailed) information or not.
93 */
94int GuestFsObjData::FromLs(const GuestProcessStreamBlock &strmBlk, bool fLong)
95{
96 LogFlowFunc(("\n"));
97#ifdef DEBUG
98 strmBlk.DumpToLog();
99#endif
100
101 /* Object name. */
102 mName = strmBlk.GetString("name");
103 ASSERT_GUEST_RETURN(mName.isNotEmpty(), VERR_NOT_FOUND);
104
105 /* Type & attributes. */
106 bool fHaveAttribs = false;
107 char szAttribs[32];
108 memset(szAttribs, '?', sizeof(szAttribs) - 1);
109 mType = FsObjType_Unknown;
110 const char *psz = strmBlk.GetString("ftype");
111 if (psz)
112 {
113 fHaveAttribs = true;
114 szAttribs[0] = *psz;
115 switch (*psz)
116 {
117 case '-': mType = FsObjType_File; break;
118 case 'd': mType = FsObjType_Directory; break;
119 case 'l': mType = FsObjType_Symlink; break;
120 case 'c': mType = FsObjType_DevChar; break;
121 case 'b': mType = FsObjType_DevBlock; break;
122 case 'f': mType = FsObjType_Fifo; break;
123 case 's': mType = FsObjType_Socket; break;
124 case 'w': mType = FsObjType_WhiteOut; break;
125 default:
126 AssertMsgFailed(("%s\n", psz));
127 szAttribs[0] = '?';
128 fHaveAttribs = false;
129 break;
130 }
131 }
132 psz = strmBlk.GetString("owner_mask");
133 if ( psz
134 && (psz[0] == '-' || psz[0] == 'r')
135 && (psz[1] == '-' || psz[1] == 'w')
136 && (psz[2] == '-' || psz[2] == 'x'))
137 {
138 szAttribs[1] = psz[0];
139 szAttribs[2] = psz[1];
140 szAttribs[3] = psz[2];
141 fHaveAttribs = true;
142 }
143 psz = strmBlk.GetString("group_mask");
144 if ( psz
145 && (psz[0] == '-' || psz[0] == 'r')
146 && (psz[1] == '-' || psz[1] == 'w')
147 && (psz[2] == '-' || psz[2] == 'x'))
148 {
149 szAttribs[4] = psz[0];
150 szAttribs[5] = psz[1];
151 szAttribs[6] = psz[2];
152 fHaveAttribs = true;
153 }
154 psz = strmBlk.GetString("other_mask");
155 if ( psz
156 && (psz[0] == '-' || psz[0] == 'r')
157 && (psz[1] == '-' || psz[1] == 'w')
158 && (psz[2] == '-' || psz[2] == 'x'))
159 {
160 szAttribs[7] = psz[0];
161 szAttribs[8] = psz[1];
162 szAttribs[9] = psz[2];
163 fHaveAttribs = true;
164 }
165 szAttribs[10] = ' '; /* Reserve three chars for sticky bits. */
166 szAttribs[11] = ' ';
167 szAttribs[12] = ' ';
168 szAttribs[13] = ' '; /* Separator. */
169 psz = strmBlk.GetString("dos_mask");
170 if ( psz
171 && (psz[ 0] == '-' || psz[ 0] == 'R')
172 && (psz[ 1] == '-' || psz[ 1] == 'H')
173 && (psz[ 2] == '-' || psz[ 2] == 'S')
174 && (psz[ 3] == '-' || psz[ 3] == 'D')
175 && (psz[ 4] == '-' || psz[ 4] == 'A')
176 && (psz[ 5] == '-' || psz[ 5] == 'd')
177 && (psz[ 6] == '-' || psz[ 6] == 'N')
178 && (psz[ 7] == '-' || psz[ 7] == 'T')
179 && (psz[ 8] == '-' || psz[ 8] == 'P')
180 && (psz[ 9] == '-' || psz[ 9] == 'J')
181 && (psz[10] == '-' || psz[10] == 'C')
182 && (psz[11] == '-' || psz[11] == 'O')
183 && (psz[12] == '-' || psz[12] == 'I')
184 && (psz[13] == '-' || psz[13] == 'E'))
185 {
186 memcpy(&szAttribs[14], psz, 14);
187 fHaveAttribs = true;
188 }
189 szAttribs[28] = '\0';
190 if (fHaveAttribs)
191 mFileAttrs = szAttribs;
192
193 /* Object size. */
194 int rc = strmBlk.GetInt64Ex("st_size", &mObjectSize);
195 ASSERT_GUEST_RC_RETURN(rc, rc);
196 strmBlk.GetInt64Ex("alloc", &mAllocatedSize);
197
198 /* INode number and device. */
199 psz = strmBlk.GetString("node_id");
200 if (!psz)
201 psz = strmBlk.GetString("cnode_id"); /* copy & past error fixed in 6.0 RC1 */
202 if (psz)
203 mNodeID = RTStrToInt64(psz);
204 mNodeIDDevice = strmBlk.GetUInt32("inode_dev"); /* (Produced by GAs prior to 6.0 RC1.) */
205
206 if (fLong)
207 {
208 /* Dates. */
209 mAccessTime = GuestFsObjData::UnixEpochNsFromKey(strmBlk, "st_atime");
210 mBirthTime = GuestFsObjData::UnixEpochNsFromKey(strmBlk, "st_birthtime");
211 mChangeTime = GuestFsObjData::UnixEpochNsFromKey(strmBlk, "st_ctime");
212 mModificationTime = GuestFsObjData::UnixEpochNsFromKey(strmBlk, "st_mtime");
213
214 /* Owner & group. */
215 mUID = strmBlk.GetInt32("uid");
216 psz = strmBlk.GetString("username");
217 if (psz)
218 mUserName = psz;
219 mGID = strmBlk.GetInt32("gid");
220 psz = strmBlk.GetString("groupname");
221 if (psz)
222 mGroupName = psz;
223
224 /* Misc attributes: */
225 mNumHardLinks = strmBlk.GetUInt32("hlinks", 1);
226 mDeviceNumber = strmBlk.GetUInt32("st_rdev");
227 mGenerationID = strmBlk.GetUInt32("st_gen");
228 mUserFlags = strmBlk.GetUInt32("st_flags");
229
230 /** @todo ACL */
231 }
232
233 LogFlowFuncLeave();
234 return VINF_SUCCESS;
235}
236
237/**
238 * Parses stream block output data which came from the 'stat' (vbox_stat)
239 * VBoxService toolbox command. The result will be stored in this object.
240 *
241 * @returns VBox status code.
242 * @param strmBlk Stream block output data to parse.
243 */
244int GuestFsObjData::FromStat(const GuestProcessStreamBlock &strmBlk)
245{
246 /* Should be identical output. */
247 return GuestFsObjData::FromLs(strmBlk, true /*fLong*/);
248}
249
250/**
251 * Parses stream block output data which came from the 'mktemp' (vbox_mktemp)
252 * VBoxService toolbox command. The result will be stored in this object.
253 *
254 * @returns VBox status code.
255 * @param strmBlk Stream block output data to parse.
256 */
257int GuestFsObjData::FromMkTemp(const GuestProcessStreamBlock &strmBlk)
258{
259 LogFlowFunc(("\n"));
260
261#ifdef DEBUG
262 strmBlk.DumpToLog();
263#endif
264 /* Object name. */
265 mName = strmBlk.GetString("name");
266 ASSERT_GUEST_RETURN(mName.isNotEmpty(), VERR_NOT_FOUND);
267
268 /* Assign the stream block's rc. */
269 int rc = strmBlk.GetRc();
270
271 LogFlowFuncLeaveRC(rc);
272 return rc;
273}
274
275/**
276 * Returns the IPRT-compatible file mode.
277 * Note: Only handling RTFS_TYPE_ flags are implemented for now.
278 *
279 * @return IPRT file mode.
280 */
281RTFMODE GuestFsObjData::GetFileMode(void) const
282{
283 RTFMODE fMode = 0;
284
285 switch (mType)
286 {
287 case FsObjType_Directory:
288 fMode |= RTFS_TYPE_DIRECTORY;
289 break;
290
291 case FsObjType_File:
292 fMode |= RTFS_TYPE_FILE;
293 break;
294
295 case FsObjType_Symlink:
296 fMode |= RTFS_TYPE_SYMLINK;
297 break;
298
299 default:
300 break;
301 }
302
303 /** @todo Implement more stuff. */
304
305 return fMode;
306}
307
308///////////////////////////////////////////////////////////////////////////////
309
310/** @todo *NOT* thread safe yet! */
311/** @todo Add exception handling for STL stuff! */
312
313GuestProcessStreamBlock::GuestProcessStreamBlock(void)
314{
315
316}
317
318GuestProcessStreamBlock::~GuestProcessStreamBlock()
319{
320 Clear();
321}
322
323/**
324 * Clears (destroys) the currently stored stream pairs.
325 */
326void GuestProcessStreamBlock::Clear(void)
327{
328 mPairs.clear();
329}
330
331#ifdef DEBUG
332/**
333 * Dumps the currently stored stream pairs to the (debug) log.
334 */
335void GuestProcessStreamBlock::DumpToLog(void) const
336{
337 LogFlowFunc(("Dumping contents of stream block=0x%p (%ld items):\n",
338 this, mPairs.size()));
339
340 for (GuestCtrlStreamPairMapIterConst it = mPairs.begin();
341 it != mPairs.end(); ++it)
342 {
343 LogFlowFunc(("\t%s=%s\n", it->first.c_str(), it->second.mValue.c_str()));
344 }
345}
346#endif
347
348/**
349 * Returns a 64-bit signed integer of a specified key.
350 *
351 * @return VBox status code. VERR_NOT_FOUND if key was not found.
352 * @param pszKey Name of key to get the value for.
353 * @param piVal Pointer to value to return.
354 */
355int GuestProcessStreamBlock::GetInt64Ex(const char *pszKey, int64_t *piVal) const
356{
357 AssertPtrReturn(pszKey, VERR_INVALID_POINTER);
358 AssertPtrReturn(piVal, VERR_INVALID_POINTER);
359 const char *pszValue = GetString(pszKey);
360 if (pszValue)
361 {
362 *piVal = RTStrToInt64(pszValue);
363 return VINF_SUCCESS;
364 }
365 return VERR_NOT_FOUND;
366}
367
368/**
369 * Returns a 64-bit integer of a specified key.
370 *
371 * @return int64_t Value to return, 0 if not found / on failure.
372 * @param pszKey Name of key to get the value for.
373 */
374int64_t GuestProcessStreamBlock::GetInt64(const char *pszKey) const
375{
376 int64_t iVal;
377 if (RT_SUCCESS(GetInt64Ex(pszKey, &iVal)))
378 return iVal;
379 return 0;
380}
381
382/**
383 * Returns the current number of stream pairs.
384 *
385 * @return uint32_t Current number of stream pairs.
386 */
387size_t GuestProcessStreamBlock::GetCount(void) const
388{
389 return mPairs.size();
390}
391
392/**
393 * Gets the return code (name = "rc") of this stream block.
394 *
395 * @return VBox status code.
396 */
397int GuestProcessStreamBlock::GetRc(void) const
398{
399 const char *pszValue = GetString("rc");
400 if (pszValue)
401 {
402 return RTStrToInt16(pszValue);
403 }
404 return VERR_NOT_FOUND;
405}
406
407/**
408 * Returns a string value of a specified key.
409 *
410 * @return uint32_t Pointer to string to return, NULL if not found / on failure.
411 * @param pszKey Name of key to get the value for.
412 */
413const char *GuestProcessStreamBlock::GetString(const char *pszKey) const
414{
415 AssertPtrReturn(pszKey, NULL);
416
417 try
418 {
419 GuestCtrlStreamPairMapIterConst itPairs = mPairs.find(pszKey);
420 if (itPairs != mPairs.end())
421 return itPairs->second.mValue.c_str();
422 }
423 catch (const std::exception &ex)
424 {
425 RT_NOREF(ex);
426 }
427 return NULL;
428}
429
430/**
431 * Returns a 32-bit unsigned integer of a specified key.
432 *
433 * @return VBox status code. VERR_NOT_FOUND if key was not found.
434 * @param pszKey Name of key to get the value for.
435 * @param puVal Pointer to value to return.
436 */
437int GuestProcessStreamBlock::GetUInt32Ex(const char *pszKey, uint32_t *puVal) const
438{
439 const char *pszValue = GetString(pszKey);
440 if (pszValue)
441 {
442 *puVal = RTStrToUInt32(pszValue);
443 return VINF_SUCCESS;
444 }
445 return VERR_NOT_FOUND;
446}
447
448/**
449 * Returns a 32-bit signed integer of a specified key.
450 *
451 * @returns 32-bit signed value
452 * @param pszKey Name of key to get the value for.
453 * @param iDefault The default to return on error if not found.
454 */
455int32_t GuestProcessStreamBlock::GetInt32(const char *pszKey, int32_t iDefault) const
456{
457 const char *pszValue = GetString(pszKey);
458 if (pszValue)
459 {
460 int32_t iRet;
461 int rc = RTStrToInt32Full(pszValue, 0, &iRet);
462 if (RT_SUCCESS(rc))
463 return iRet;
464 ASSERT_GUEST_MSG_FAILED(("%s=%s\n", pszKey, pszValue));
465 }
466 return iDefault;
467}
468
469/**
470 * Returns a 32-bit unsigned integer of a specified key.
471 *
472 * @return uint32_t Value to return, 0 if not found / on failure.
473 * @param pszKey Name of key to get the value for.
474 * @param uDefault The default value to return.
475 */
476uint32_t GuestProcessStreamBlock::GetUInt32(const char *pszKey, uint32_t uDefault /*= 0*/) const
477{
478 uint32_t uVal;
479 if (RT_SUCCESS(GetUInt32Ex(pszKey, &uVal)))
480 return uVal;
481 return uDefault;
482}
483
484/**
485 * Sets a value to a key or deletes a key by setting a NULL value.
486 *
487 * @return VBox status code.
488 * @param pszKey Key name to process.
489 * @param pszValue Value to set. Set NULL for deleting the key.
490 */
491int GuestProcessStreamBlock::SetValue(const char *pszKey, const char *pszValue)
492{
493 AssertPtrReturn(pszKey, VERR_INVALID_POINTER);
494
495 int rc = VINF_SUCCESS;
496 try
497 {
498 Utf8Str Utf8Key(pszKey);
499
500 /* Take a shortcut and prevent crashes on some funny versions
501 * of STL if map is empty initially. */
502 if (!mPairs.empty())
503 {
504 GuestCtrlStreamPairMapIter it = mPairs.find(Utf8Key);
505 if (it != mPairs.end())
506 mPairs.erase(it);
507 }
508
509 if (pszValue)
510 {
511 GuestProcessStreamValue val(pszValue);
512 mPairs[Utf8Key] = val;
513 }
514 }
515 catch (const std::exception &ex)
516 {
517 RT_NOREF(ex);
518 }
519 return rc;
520}
521
522///////////////////////////////////////////////////////////////////////////////
523
524GuestProcessStream::GuestProcessStream(void)
525 : m_cbAllocated(0),
526 m_cbUsed(0),
527 m_offBuffer(0),
528 m_pbBuffer(NULL)
529{
530
531}
532
533GuestProcessStream::~GuestProcessStream(void)
534{
535 Destroy();
536}
537
538/**
539 * Adds data to the internal parser buffer. Useful if there
540 * are multiple rounds of adding data needed.
541 *
542 * @return VBox status code.
543 * @param pbData Pointer to data to add.
544 * @param cbData Size (in bytes) of data to add.
545 */
546int GuestProcessStream::AddData(const BYTE *pbData, size_t cbData)
547{
548 AssertPtrReturn(pbData, VERR_INVALID_POINTER);
549 AssertReturn(cbData, VERR_INVALID_PARAMETER);
550
551 int rc = VINF_SUCCESS;
552
553 /* Rewind the buffer if it's empty. */
554 size_t cbInBuf = m_cbUsed - m_offBuffer;
555 bool const fAddToSet = cbInBuf == 0;
556 if (fAddToSet)
557 m_cbUsed = m_offBuffer = 0;
558
559 /* Try and see if we can simply append the data. */
560 if (cbData + m_cbUsed <= m_cbAllocated)
561 {
562 memcpy(&m_pbBuffer[m_cbUsed], pbData, cbData);
563 m_cbUsed += cbData;
564 }
565 else
566 {
567 /* Move any buffered data to the front. */
568 cbInBuf = m_cbUsed - m_offBuffer;
569 if (cbInBuf == 0)
570 m_cbUsed = m_offBuffer = 0;
571 else if (m_offBuffer) /* Do we have something to move? */
572 {
573 memmove(m_pbBuffer, &m_pbBuffer[m_offBuffer], cbInBuf);
574 m_cbUsed = cbInBuf;
575 m_offBuffer = 0;
576 }
577
578 /* Do we need to grow the buffer? */
579 if (cbData + m_cbUsed > m_cbAllocated)
580 {
581/** @todo Put an upper limit on the allocation? */
582 size_t cbAlloc = m_cbUsed + cbData;
583 cbAlloc = RT_ALIGN_Z(cbAlloc, _64K);
584 void *pvNew = RTMemRealloc(m_pbBuffer, cbAlloc);
585 if (pvNew)
586 {
587 m_pbBuffer = (uint8_t *)pvNew;
588 m_cbAllocated = cbAlloc;
589 }
590 else
591 rc = VERR_NO_MEMORY;
592 }
593
594 /* Finally, copy the data. */
595 if (RT_SUCCESS(rc))
596 {
597 if (cbData + m_cbUsed <= m_cbAllocated)
598 {
599 memcpy(&m_pbBuffer[m_cbUsed], pbData, cbData);
600 m_cbUsed += cbData;
601 }
602 else
603 rc = VERR_BUFFER_OVERFLOW;
604 }
605 }
606
607 return rc;
608}
609
610/**
611 * Destroys the internal data buffer.
612 */
613void GuestProcessStream::Destroy(void)
614{
615 if (m_pbBuffer)
616 {
617 RTMemFree(m_pbBuffer);
618 m_pbBuffer = NULL;
619 }
620
621 m_cbAllocated = 0;
622 m_cbUsed = 0;
623 m_offBuffer = 0;
624}
625
626#ifdef DEBUG
627/**
628 * Dumps the raw guest process output to a file on the host.
629 * If the file on the host already exists, it will be overwritten.
630 *
631 * @param pszFile Absolute path to host file to dump the output to.
632 */
633void GuestProcessStream::Dump(const char *pszFile)
634{
635 LogFlowFunc(("Dumping contents of stream=0x%p (cbAlloc=%u, cbSize=%u, cbOff=%u) to %s\n",
636 m_pbBuffer, m_cbAllocated, m_cbUsed, m_offBuffer, pszFile));
637
638 RTFILE hFile;
639 int rc = RTFileOpen(&hFile, pszFile, RTFILE_O_CREATE_REPLACE | RTFILE_O_WRITE | RTFILE_O_DENY_WRITE);
640 if (RT_SUCCESS(rc))
641 {
642 rc = RTFileWrite(hFile, m_pbBuffer, m_cbUsed, NULL /* pcbWritten */);
643 RTFileClose(hFile);
644 }
645}
646#endif
647
648/**
649 * Tries to parse the next upcoming pair block within the internal
650 * buffer.
651 *
652 * Returns VERR_NO_DATA is no data is in internal buffer or buffer has been
653 * completely parsed already.
654 *
655 * Returns VERR_MORE_DATA if current block was parsed (with zero or more pairs
656 * stored in stream block) but still contains incomplete (unterminated)
657 * data.
658 *
659 * Returns VINF_SUCCESS if current block was parsed until the next upcoming
660 * block (with zero or more pairs stored in stream block).
661 *
662 * @return VBox status code.
663 * @param streamBlock Reference to guest stream block to fill.
664 */
665int GuestProcessStream::ParseBlock(GuestProcessStreamBlock &streamBlock)
666{
667 if ( !m_pbBuffer
668 || !m_cbUsed)
669 {
670 return VERR_NO_DATA;
671 }
672
673 AssertReturn(m_offBuffer <= m_cbUsed, VERR_INVALID_PARAMETER);
674 if (m_offBuffer == m_cbUsed)
675 return VERR_NO_DATA;
676
677 int rc = VINF_SUCCESS;
678
679 char *pszOff = (char*)&m_pbBuffer[m_offBuffer];
680 char *pszStart = pszOff;
681 uint32_t uDistance;
682 while (*pszStart)
683 {
684 size_t pairLen = strlen(pszStart);
685 uDistance = (pszStart - pszOff);
686 if (m_offBuffer + uDistance + pairLen + 1 >= m_cbUsed)
687 {
688 rc = VERR_MORE_DATA;
689 break;
690 }
691 else
692 {
693 char *pszSep = strchr(pszStart, '=');
694 char *pszVal = NULL;
695 if (pszSep)
696 pszVal = pszSep + 1;
697 if (!pszSep || !pszVal)
698 {
699 rc = VERR_MORE_DATA;
700 break;
701 }
702
703 /* Terminate the separator so that we can
704 * use pszStart as our key from now on. */
705 *pszSep = '\0';
706
707 rc = streamBlock.SetValue(pszStart, pszVal);
708 if (RT_FAILURE(rc))
709 return rc;
710 }
711
712 /* Next pair. */
713 pszStart += pairLen + 1;
714 }
715
716 /* If we did not do any movement but we have stuff left
717 * in our buffer just skip the current termination so that
718 * we can try next time. */
719 uDistance = (pszStart - pszOff);
720 if ( !uDistance
721 && *pszStart == '\0'
722 && m_offBuffer < m_cbUsed)
723 {
724 uDistance++;
725 }
726 m_offBuffer += uDistance;
727
728 return rc;
729}
730
731GuestBase::GuestBase(void)
732 : mConsole(NULL)
733 , mNextContextID(RTRandU32() % VBOX_GUESTCTRL_MAX_CONTEXTS)
734{
735}
736
737GuestBase::~GuestBase(void)
738{
739}
740
741/**
742 * Separate initialization function for the base class.
743 *
744 * @returns VBox status code.
745 */
746int GuestBase::baseInit(void)
747{
748 int rc = RTCritSectInit(&mWaitEventCritSect);
749
750 LogFlowFuncLeaveRC(rc);
751 return rc;
752}
753
754/**
755 * Separate uninitialization function for the base class.
756 */
757void GuestBase::baseUninit(void)
758{
759 LogFlowThisFuncEnter();
760
761 /* Make sure to cancel any outstanding wait events. */
762 int rc2 = cancelWaitEvents();
763 AssertRC(rc2);
764
765 rc2 = RTCritSectDelete(&mWaitEventCritSect);
766 AssertRC(rc2);
767
768 LogFlowFuncLeaveRC(rc2);
769 /* No return value. */
770}
771
772/**
773 * Cancels all outstanding wait events.
774 *
775 * @returns VBox status code.
776 */
777int GuestBase::cancelWaitEvents(void)
778{
779 LogFlowThisFuncEnter();
780
781 int rc = RTCritSectEnter(&mWaitEventCritSect);
782 if (RT_SUCCESS(rc))
783 {
784 GuestEventGroup::iterator itEventGroups = mWaitEventGroups.begin();
785 while (itEventGroups != mWaitEventGroups.end())
786 {
787 GuestWaitEvents::iterator itEvents = itEventGroups->second.begin();
788 while (itEvents != itEventGroups->second.end())
789 {
790 GuestWaitEvent *pEvent = itEvents->second;
791 AssertPtr(pEvent);
792
793 /*
794 * Just cancel the event, but don't remove it from the
795 * wait events map. Don't delete it though, this (hopefully)
796 * is done by the caller using unregisterWaitEvent().
797 */
798 int rc2 = pEvent->Cancel();
799 AssertRC(rc2);
800
801 ++itEvents;
802 }
803
804 ++itEventGroups;
805 }
806
807 int rc2 = RTCritSectLeave(&mWaitEventCritSect);
808 if (RT_SUCCESS(rc))
809 rc = rc2;
810 }
811
812 LogFlowFuncLeaveRC(rc);
813 return rc;
814}
815
816/**
817 * Handles generic messages not bound to a specific object type.
818 *
819 * @return VBox status code. VERR_NOT_FOUND if no handler has been found or VERR_NOT_SUPPORTED
820 * if this class does not support the specified callback.
821 * @param pCtxCb Host callback context.
822 * @param pSvcCb Service callback data.
823 */
824int GuestBase::dispatchGeneric(PVBOXGUESTCTRLHOSTCBCTX pCtxCb, PVBOXGUESTCTRLHOSTCALLBACK pSvcCb)
825{
826 LogFlowFunc(("pCtxCb=%p, pSvcCb=%p\n", pCtxCb, pSvcCb));
827
828 AssertPtrReturn(pCtxCb, VERR_INVALID_POINTER);
829 AssertPtrReturn(pSvcCb, VERR_INVALID_POINTER);
830
831 int vrc;
832
833 try
834 {
835 Log2Func(("uFunc=%RU32, cParms=%RU32\n", pCtxCb->uMessage, pSvcCb->mParms));
836
837 switch (pCtxCb->uMessage)
838 {
839 case GUEST_MSG_PROGRESS_UPDATE:
840 vrc = VINF_SUCCESS;
841 break;
842
843 case GUEST_MSG_REPLY:
844 {
845 if (pSvcCb->mParms >= 4)
846 {
847 int idx = 1; /* Current parameter index. */
848 CALLBACKDATA_MSG_REPLY dataCb;
849 /* pSvcCb->mpaParms[0] always contains the context ID. */
850 vrc = HGCMSvcGetU32(&pSvcCb->mpaParms[idx++], &dataCb.uType);
851 AssertRCReturn(vrc, vrc);
852 vrc = HGCMSvcGetU32(&pSvcCb->mpaParms[idx++], &dataCb.rc);
853 AssertRCReturn(vrc, vrc);
854 vrc = HGCMSvcGetPv(&pSvcCb->mpaParms[idx++], &dataCb.pvPayload, &dataCb.cbPayload);
855 AssertRCReturn(vrc, vrc);
856
857 GuestWaitEventPayload evPayload(dataCb.uType, dataCb.pvPayload, dataCb.cbPayload); /* This bugger throws int. */
858 vrc = signalWaitEventInternal(pCtxCb, dataCb.rc, &evPayload);
859 }
860 else
861 vrc = VERR_INVALID_PARAMETER;
862 break;
863 }
864
865 default:
866 vrc = VERR_NOT_SUPPORTED;
867 break;
868 }
869 }
870 catch (std::bad_alloc &)
871 {
872 vrc = VERR_NO_MEMORY;
873 }
874 catch (int rc)
875 {
876 vrc = rc;
877 }
878
879 LogFlowFuncLeaveRC(vrc);
880 return vrc;
881}
882
883/**
884 * Generates a context ID (CID) by incrementing the object's count.
885 * A CID consists of a session ID, an object ID and a count.
886 *
887 * Note: This function does not guarantee that the returned CID is unique;
888 * the caller has to take care of that and eventually retry.
889 *
890 * @returns VBox status code.
891 * @param uSessionID Session ID to use for CID generation.
892 * @param uObjectID Object ID to use for CID generation.
893 * @param puContextID Where to store the generated CID on success.
894 */
895int GuestBase::generateContextID(uint32_t uSessionID, uint32_t uObjectID, uint32_t *puContextID)
896{
897 AssertPtrReturn(puContextID, VERR_INVALID_POINTER);
898
899 if ( uSessionID >= VBOX_GUESTCTRL_MAX_SESSIONS
900 || uObjectID >= VBOX_GUESTCTRL_MAX_OBJECTS)
901 return VERR_INVALID_PARAMETER;
902
903 uint32_t uCount = ASMAtomicIncU32(&mNextContextID);
904 if (uCount >= VBOX_GUESTCTRL_MAX_CONTEXTS)
905 uCount = 0;
906
907 uint32_t uNewContextID = VBOX_GUESTCTRL_CONTEXTID_MAKE(uSessionID, uObjectID, uCount);
908
909 *puContextID = uNewContextID;
910
911#if 0
912 LogFlowThisFunc(("mNextContextID=%RU32, uSessionID=%RU32, uObjectID=%RU32, uCount=%RU32, uNewContextID=%RU32\n",
913 mNextContextID, uSessionID, uObjectID, uCount, uNewContextID));
914#endif
915 return VINF_SUCCESS;
916}
917
918/**
919 * Registers (creates) a new wait event based on a given session and object ID.
920 *
921 * From those IDs an unique context ID (CID) will be built, which only can be
922 * around once at a time.
923 *
924 * @returns VBox status code.
925 * @retval VERR_GSTCTL_MAX_CID_COUNT_REACHED if unable to generate a free context ID (CID, the count part (bits 15:0)).
926 * @param uSessionID Session ID to register wait event for.
927 * @param uObjectID Object ID to register wait event for.
928 * @param ppEvent Pointer to registered (created) wait event on success.
929 * Must be destroyed with unregisterWaitEvent().
930 */
931int GuestBase::registerWaitEvent(uint32_t uSessionID, uint32_t uObjectID, GuestWaitEvent **ppEvent)
932{
933 GuestEventTypes eventTypesEmpty;
934 return registerWaitEventEx(uSessionID, uObjectID, eventTypesEmpty, ppEvent);
935}
936
937/**
938 * Creates and registers a new wait event object that waits on a set of events
939 * related to a given object within the session.
940 *
941 * From the session ID and object ID a one-time unique context ID (CID) is built
942 * for this wait object. Normally the CID is then passed to the guest along
943 * with a request, and the guest passed the CID back with the reply. The
944 * handler for the reply then emits a signal on the event type associated with
945 * the reply, which includes signalling the object returned by this method and
946 * the waking up the thread waiting on it.
947 *
948 * @returns VBox status code.
949 * @retval VERR_GSTCTL_MAX_CID_COUNT_REACHED if unable to generate a free context ID (CID, the count part (bits 15:0)).
950 * @param uSessionID Session ID to register wait event for.
951 * @param uObjectID Object ID to register wait event for.
952 * @param lstEvents List of events to register the wait event for.
953 * @param ppEvent Pointer to registered (created) wait event on success.
954 * Must be destroyed with unregisterWaitEvent().
955 */
956int GuestBase::registerWaitEventEx(uint32_t uSessionID, uint32_t uObjectID, const GuestEventTypes &lstEvents,
957 GuestWaitEvent **ppEvent)
958{
959 AssertPtrReturn(ppEvent, VERR_INVALID_POINTER);
960
961 uint32_t idContext;
962 int rc = generateContextID(uSessionID, uObjectID, &idContext);
963 AssertRCReturn(rc, rc);
964
965 GuestWaitEvent *pEvent = new GuestWaitEvent();
966 AssertPtrReturn(pEvent, VERR_NO_MEMORY);
967
968 rc = pEvent->Init(idContext, lstEvents);
969 AssertRCReturn(rc, rc);
970
971 LogFlowThisFunc(("New event=%p, CID=%RU32\n", pEvent, idContext));
972
973 rc = RTCritSectEnter(&mWaitEventCritSect);
974 if (RT_SUCCESS(rc))
975 {
976 /*
977 * Check that we don't have any context ID collisions (should be very unlikely).
978 *
979 * The ASSUMPTION here is that mWaitEvents has all the same events as
980 * mWaitEventGroups, so it suffices to check one of the two.
981 */
982 if (mWaitEvents.find(idContext) != mWaitEvents.end())
983 {
984 uint32_t cTries = 0;
985 do
986 {
987 rc = generateContextID(uSessionID, uObjectID, &idContext);
988 AssertRCBreak(rc);
989 LogFunc(("Found context ID duplicate; trying a different context ID: %#x\n", idContext));
990 if (mWaitEvents.find(idContext) != mWaitEvents.end())
991 rc = VERR_GSTCTL_MAX_CID_COUNT_REACHED;
992 } while (RT_FAILURE_NP(rc) && cTries++ < 10);
993 }
994 if (RT_SUCCESS(rc))
995 {
996 /*
997 * Insert event into matching event group. This is for faster per-group lookup of all events later.
998 */
999 uint32_t cInserts = 0;
1000 for (GuestEventTypes::const_iterator ItType = lstEvents.begin(); ItType != lstEvents.end(); ++ItType)
1001 {
1002 GuestWaitEvents &eventGroup = mWaitEventGroups[*ItType];
1003 if (eventGroup.find(idContext) == eventGroup.end())
1004 {
1005 try
1006 {
1007 eventGroup.insert(std::pair<uint32_t, GuestWaitEvent *>(idContext, pEvent));
1008 cInserts++;
1009 }
1010 catch (std::bad_alloc &)
1011 {
1012 while (ItType != lstEvents.begin())
1013 {
1014 --ItType;
1015 mWaitEventGroups[*ItType].erase(idContext);
1016 }
1017 rc = VERR_NO_MEMORY;
1018 break;
1019 }
1020 }
1021 else
1022 Assert(cInserts > 0); /* else: lstEvents has duplicate entries. */
1023 }
1024 if (RT_SUCCESS(rc))
1025 {
1026 Assert(cInserts > 0 || lstEvents.size() == 0);
1027 RT_NOREF(cInserts);
1028
1029 /*
1030 * Register event in the regular event list.
1031 */
1032 try
1033 {
1034 mWaitEvents[idContext] = pEvent;
1035 }
1036 catch (std::bad_alloc &)
1037 {
1038 for (GuestEventTypes::const_iterator ItType = lstEvents.begin(); ItType != lstEvents.end(); ++ItType)
1039 mWaitEventGroups[*ItType].erase(idContext);
1040 rc = VERR_NO_MEMORY;
1041 }
1042 }
1043 }
1044
1045 RTCritSectLeave(&mWaitEventCritSect);
1046 }
1047 if (RT_SUCCESS(rc))
1048 {
1049 *ppEvent = pEvent;
1050 return rc;
1051 }
1052
1053 if (pEvent)
1054 delete pEvent;
1055
1056 return rc;
1057}
1058
1059/**
1060 * Signals all wait events of a specific type (if found)
1061 * and notifies external events accordingly.
1062 *
1063 * @returns VBox status code.
1064 * @param aType Event type to signal.
1065 * @param aEvent Which external event to notify.
1066 */
1067int GuestBase::signalWaitEvent(VBoxEventType_T aType, IEvent *aEvent)
1068{
1069 int rc = RTCritSectEnter(&mWaitEventCritSect);
1070#ifdef DEBUG
1071 uint32_t cEvents = 0;
1072#endif
1073 if (RT_SUCCESS(rc))
1074 {
1075 GuestEventGroup::iterator itGroup = mWaitEventGroups.find(aType);
1076 if (itGroup != mWaitEventGroups.end())
1077 {
1078 /* Signal all events in the group, leaving the group empty afterwards. */
1079 GuestWaitEvents::iterator ItWaitEvt;
1080 while ((ItWaitEvt = itGroup->second.begin()) != itGroup->second.end())
1081 {
1082 LogFlowThisFunc(("Signalling event=%p, type=%ld (CID %#x: Session=%RU32, Object=%RU32, Count=%RU32) ...\n",
1083 ItWaitEvt->second, aType, ItWaitEvt->first, VBOX_GUESTCTRL_CONTEXTID_GET_SESSION(ItWaitEvt->first),
1084 VBOX_GUESTCTRL_CONTEXTID_GET_OBJECT(ItWaitEvt->first), VBOX_GUESTCTRL_CONTEXTID_GET_COUNT(ItWaitEvt->first)));
1085
1086 int rc2 = ItWaitEvt->second->SignalExternal(aEvent);
1087 AssertRC(rc2);
1088
1089 /* Take down the wait event object details before we erase it from this list and invalid ItGrpEvt. */
1090 const GuestEventTypes &EvtTypes = ItWaitEvt->second->Types();
1091 uint32_t idContext = ItWaitEvt->first;
1092 itGroup->second.erase(ItWaitEvt);
1093
1094 for (GuestEventTypes::const_iterator ItType = EvtTypes.begin(); ItType != EvtTypes.end(); ++ItType)
1095 {
1096 GuestEventGroup::iterator EvtTypeGrp = mWaitEventGroups.find(*ItType);
1097 if (EvtTypeGrp != mWaitEventGroups.end())
1098 {
1099 ItWaitEvt = EvtTypeGrp->second.find(idContext);
1100 if (ItWaitEvt != EvtTypeGrp->second.end())
1101 {
1102 LogFlowThisFunc(("Removing event %p (CID %#x) from type %d group\n", ItWaitEvt->second, idContext, *ItType));
1103 EvtTypeGrp->second.erase(ItWaitEvt);
1104 LogFlowThisFunc(("%zu events left for type %d\n", EvtTypeGrp->second.size(), *ItType));
1105 Assert(EvtTypeGrp->second.find(idContext) == EvtTypeGrp->second.end()); /* no duplicates */
1106 }
1107 }
1108 }
1109 }
1110 }
1111
1112 int rc2 = RTCritSectLeave(&mWaitEventCritSect);
1113 if (RT_SUCCESS(rc))
1114 rc = rc2;
1115 }
1116
1117#ifdef DEBUG
1118 LogFlowThisFunc(("Signalled %RU32 events, rc=%Rrc\n", cEvents, rc));
1119#endif
1120 return rc;
1121}
1122
1123/**
1124 * Signals a wait event which is registered to a specific callback (bound to a context ID (CID)).
1125 *
1126 * @returns VBox status code.
1127 * @param pCbCtx Pointer to host service callback context.
1128 * @param rcGuest Guest return code (rc) to set additionally, if rc is set to VERR_GSTCTL_GUEST_ERROR.
1129 * @param pPayload Additional wait event payload data set set on return. Optional.
1130 */
1131int GuestBase::signalWaitEventInternal(PVBOXGUESTCTRLHOSTCBCTX pCbCtx,
1132 int rcGuest, const GuestWaitEventPayload *pPayload)
1133{
1134 if (RT_SUCCESS(rcGuest))
1135 return signalWaitEventInternalEx(pCbCtx, VINF_SUCCESS,
1136 0 /* Guest rc */, pPayload);
1137
1138 return signalWaitEventInternalEx(pCbCtx, VERR_GSTCTL_GUEST_ERROR,
1139 rcGuest, pPayload);
1140}
1141
1142/**
1143 * Signals a wait event which is registered to a specific callback (bound to a context ID (CID)).
1144 * Extended version.
1145 *
1146 * @returns VBox status code.
1147 * @param pCbCtx Pointer to host service callback context.
1148 * @param rc Return code (rc) to set as wait result.
1149 * @param rcGuest Guest return code (rc) to set additionally, if rc is set to VERR_GSTCTL_GUEST_ERROR.
1150 * @param pPayload Additional wait event payload data set set on return. Optional.
1151 */
1152int GuestBase::signalWaitEventInternalEx(PVBOXGUESTCTRLHOSTCBCTX pCbCtx,
1153 int rc, int rcGuest,
1154 const GuestWaitEventPayload *pPayload)
1155{
1156 AssertPtrReturn(pCbCtx, VERR_INVALID_POINTER);
1157 /* pPayload is optional. */
1158
1159 int rc2 = RTCritSectEnter(&mWaitEventCritSect);
1160 if (RT_SUCCESS(rc2))
1161 {
1162 GuestWaitEvents::iterator itEvent = mWaitEvents.find(pCbCtx->uContextID);
1163 if (itEvent != mWaitEvents.end())
1164 {
1165 LogFlowThisFunc(("Signalling event=%p (CID %RU32, rc=%Rrc, rcGuest=%Rrc, pPayload=%p) ...\n",
1166 itEvent->second, itEvent->first, rc, rcGuest, pPayload));
1167 GuestWaitEvent *pEvent = itEvent->second;
1168 AssertPtr(pEvent);
1169 rc2 = pEvent->SignalInternal(rc, rcGuest, pPayload);
1170 }
1171 else
1172 rc2 = VERR_NOT_FOUND;
1173
1174 int rc3 = RTCritSectLeave(&mWaitEventCritSect);
1175 if (RT_SUCCESS(rc2))
1176 rc2 = rc3;
1177 }
1178
1179 return rc2;
1180}
1181
1182/**
1183 * Unregisters (deletes) a wait event.
1184 *
1185 * After successful unregistration the event will not be valid anymore.
1186 *
1187 * @returns VBox status code.
1188 * @param pWaitEvt Wait event to unregister (delete).
1189 */
1190int GuestBase::unregisterWaitEvent(GuestWaitEvent *pWaitEvt)
1191{
1192 if (!pWaitEvt) /* Nothing to unregister. */
1193 return VINF_SUCCESS;
1194
1195 int rc = RTCritSectEnter(&mWaitEventCritSect);
1196 if (RT_SUCCESS(rc))
1197 {
1198 LogFlowThisFunc(("pWaitEvt=%p\n", pWaitEvt));
1199
1200/** @todo r=bird: One way of optimizing this would be to use the pointer
1201 * instead of the context ID as index into the groups, i.e. revert the value
1202 * pair for the GuestWaitEvents type.
1203 *
1204 * An even more efficent way, would be to not use sexy std::xxx containers for
1205 * the types, but iprt/list.h, as that would just be a RTListNodeRemove call for
1206 * each type w/o needing to iterate much at all. I.e. add a struct {
1207 * RTLISTNODE, GuestWaitEvent *pSelf} array to GuestWaitEvent, and change
1208 * GuestEventGroup to std::map<VBoxEventType_T, RTListAnchorClass>
1209 * (RTListAnchorClass == RTLISTANCHOR wrapper with a constructor)).
1210 *
1211 * P.S. the try/catch is now longer needed after I changed pWaitEvt->Types() to
1212 * return a const reference rather than a copy of the type list (and it think it
1213 * is safe to assume iterators are not hitting the heap). Copy vs reference is
1214 * an easy mistake to make in C++.
1215 *
1216 * P.P.S. The mWaitEventGroups optimization is probably just a lot of extra work
1217 * with little payoff.
1218 */
1219 try
1220 {
1221 /* Remove the event from all event type groups. */
1222 const GuestEventTypes &lstTypes = pWaitEvt->Types();
1223 for (GuestEventTypes::const_iterator itType = lstTypes.begin();
1224 itType != lstTypes.end(); ++itType)
1225 {
1226 /** @todo Slow O(n) lookup. Optimize this. */
1227 GuestWaitEvents::iterator itCurEvent = mWaitEventGroups[(*itType)].begin();
1228 while (itCurEvent != mWaitEventGroups[(*itType)].end())
1229 {
1230 if (itCurEvent->second == pWaitEvt)
1231 {
1232 mWaitEventGroups[(*itType)].erase(itCurEvent);
1233 break;
1234 }
1235 ++itCurEvent;
1236 }
1237 }
1238
1239 /* Remove the event from the general event list as well. */
1240 GuestWaitEvents::iterator itEvent = mWaitEvents.find(pWaitEvt->ContextID());
1241
1242 Assert(itEvent != mWaitEvents.end());
1243 Assert(itEvent->second == pWaitEvt);
1244
1245 mWaitEvents.erase(itEvent);
1246
1247 delete pWaitEvt;
1248 pWaitEvt = NULL;
1249 }
1250 catch (const std::exception &ex)
1251 {
1252 RT_NOREF(ex);
1253 AssertFailedStmt(rc = VERR_NOT_FOUND);
1254 }
1255
1256 int rc2 = RTCritSectLeave(&mWaitEventCritSect);
1257 if (RT_SUCCESS(rc))
1258 rc = rc2;
1259 }
1260
1261 return rc;
1262}
1263
1264/**
1265 * Waits for an already registered guest wait event.
1266 *
1267 * @return VBox status code.
1268 * @retval VERR_GSTCTL_GUEST_ERROR may be returned, call GuestResult() to get
1269 * the actual result.
1270 *
1271 * @param pWaitEvt Pointer to event to wait for.
1272 * @param msTimeout Timeout (in ms) for waiting.
1273 * @param pType Event type of following IEvent. Optional.
1274 * @param ppEvent Pointer to IEvent which got triggered for this event. Optional.
1275 */
1276int GuestBase::waitForEvent(GuestWaitEvent *pWaitEvt, uint32_t msTimeout, VBoxEventType_T *pType, IEvent **ppEvent)
1277{
1278 AssertPtrReturn(pWaitEvt, VERR_INVALID_POINTER);
1279 /* pType is optional. */
1280 /* ppEvent is optional. */
1281
1282 int vrc = pWaitEvt->Wait(msTimeout);
1283 if (RT_SUCCESS(vrc))
1284 {
1285 const ComPtr<IEvent> pThisEvent = pWaitEvt->Event();
1286 if (pThisEvent.isNotNull()) /* Make sure that we actually have an event associated. */
1287 {
1288 if (pType)
1289 {
1290 HRESULT hr = pThisEvent->COMGETTER(Type)(pType);
1291 if (FAILED(hr))
1292 vrc = VERR_COM_UNEXPECTED;
1293 }
1294 if ( RT_SUCCESS(vrc)
1295 && ppEvent)
1296 pThisEvent.queryInterfaceTo(ppEvent);
1297
1298 unconst(pThisEvent).setNull();
1299 }
1300 }
1301
1302 return vrc;
1303}
1304
1305/**
1306 * Converts RTFMODE to FsObjType_T.
1307 *
1308 * @return Converted FsObjType_T type.
1309 * @param fMode RTFMODE to convert.
1310 */
1311/* static */
1312FsObjType_T GuestBase::fileModeToFsObjType(RTFMODE fMode)
1313{
1314 if (RTFS_IS_FILE(fMode)) return FsObjType_File;
1315 else if (RTFS_IS_DIRECTORY(fMode)) return FsObjType_Directory;
1316 else if (RTFS_IS_SYMLINK(fMode)) return FsObjType_Symlink;
1317
1318 return FsObjType_Unknown;
1319}
1320
1321GuestObject::GuestObject(void)
1322 : mSession(NULL),
1323 mObjectID(0)
1324{
1325}
1326
1327GuestObject::~GuestObject(void)
1328{
1329}
1330
1331/**
1332 * Binds this guest (control) object to a specific guest (control) session.
1333 *
1334 * @returns VBox status code.
1335 * @param pConsole Pointer to console object to use.
1336 * @param pSession Pointer to session to bind this object to.
1337 * @param uObjectID Object ID for this object to use within that specific session.
1338 * Each object ID must be unique per session.
1339 */
1340int GuestObject::bindToSession(Console *pConsole, GuestSession *pSession, uint32_t uObjectID)
1341{
1342 AssertPtrReturn(pConsole, VERR_INVALID_POINTER);
1343 AssertPtrReturn(pSession, VERR_INVALID_POINTER);
1344
1345 mConsole = pConsole;
1346 mSession = pSession;
1347 mObjectID = uObjectID;
1348
1349 return VINF_SUCCESS;
1350}
1351
1352/**
1353 * Registers (creates) a new wait event.
1354 *
1355 * @returns VBox status code.
1356 * @param lstEvents List of events which the new wait event gets triggered at.
1357 * @param ppEvent Returns the new wait event on success.
1358 */
1359int GuestObject::registerWaitEvent(const GuestEventTypes &lstEvents,
1360 GuestWaitEvent **ppEvent)
1361{
1362 AssertPtr(mSession);
1363 return GuestBase::registerWaitEventEx(mSession->i_getId(), mObjectID, lstEvents, ppEvent);
1364}
1365
1366/**
1367 * Sends a HGCM message to the guest (via the guest control host service).
1368 *
1369 * @returns VBox status code.
1370 * @param uMessage Message ID of message to send.
1371 * @param cParms Number of HGCM message parameters to send.
1372 * @param paParms Array of HGCM message parameters to send.
1373 */
1374int GuestObject::sendMessage(uint32_t uMessage, uint32_t cParms, PVBOXHGCMSVCPARM paParms)
1375{
1376#ifndef VBOX_GUESTCTRL_TEST_CASE
1377 ComObjPtr<Console> pConsole = mConsole;
1378 Assert(!pConsole.isNull());
1379
1380 int vrc = VERR_HGCM_SERVICE_NOT_FOUND;
1381
1382 /* Forward the information to the VMM device. */
1383 VMMDev *pVMMDev = pConsole->i_getVMMDev();
1384 if (pVMMDev)
1385 {
1386 /* HACK ALERT! We extend the first parameter to 64-bit and use the
1387 two topmost bits for call destination information. */
1388 Assert(paParms[0].type == VBOX_HGCM_SVC_PARM_32BIT);
1389 paParms[0].type = VBOX_HGCM_SVC_PARM_64BIT;
1390 paParms[0].u.uint64 = (uint64_t)paParms[0].u.uint32 | VBOX_GUESTCTRL_DST_SESSION;
1391
1392 /* Make the call. */
1393 LogFlowThisFunc(("uMessage=%RU32, cParms=%RU32\n", uMessage, cParms));
1394 vrc = pVMMDev->hgcmHostCall(HGCMSERVICE_NAME, uMessage, cParms, paParms);
1395 if (RT_FAILURE(vrc))
1396 {
1397 /** @todo What to do here? */
1398 }
1399 }
1400#else
1401 LogFlowThisFuncEnter();
1402
1403 /* Not needed within testcases. */
1404 RT_NOREF(uMessage, cParms, paParms);
1405 int vrc = VINF_SUCCESS;
1406#endif
1407 return vrc;
1408}
1409
1410GuestWaitEventBase::GuestWaitEventBase(void)
1411 : mfAborted(false),
1412 mCID(0),
1413 mEventSem(NIL_RTSEMEVENT),
1414 mRc(VINF_SUCCESS),
1415 mGuestRc(VINF_SUCCESS)
1416{
1417}
1418
1419GuestWaitEventBase::~GuestWaitEventBase(void)
1420{
1421 if (mEventSem != NIL_RTSEMEVENT)
1422 {
1423 RTSemEventDestroy(mEventSem);
1424 mEventSem = NIL_RTSEMEVENT;
1425 }
1426}
1427
1428/**
1429 * Initializes a wait event with a specific context ID (CID).
1430 *
1431 * @returns VBox status code.
1432 * @param uCID Context ID (CID) to initialize wait event with.
1433 */
1434int GuestWaitEventBase::Init(uint32_t uCID)
1435{
1436 mCID = uCID;
1437
1438 return RTSemEventCreate(&mEventSem);
1439}
1440
1441/**
1442 * Signals a wait event.
1443 *
1444 * @returns VBox status code.
1445 * @param rc Return code (rc) to set as wait result.
1446 * @param rcGuest Guest return code (rc) to set additionally, if rc is set to VERR_GSTCTL_GUEST_ERROR.
1447 * @param pPayload Additional wait event payload data set set on return. Optional.
1448 */
1449int GuestWaitEventBase::SignalInternal(int rc, int rcGuest,
1450 const GuestWaitEventPayload *pPayload)
1451{
1452 if (mfAborted)
1453 return VERR_CANCELLED;
1454
1455#ifdef VBOX_STRICT
1456 if (rc == VERR_GSTCTL_GUEST_ERROR)
1457 AssertMsg(RT_FAILURE(rcGuest), ("Guest error indicated but no actual guest error set (%Rrc)\n", rcGuest));
1458 else
1459 AssertMsg(RT_SUCCESS(rcGuest), ("No guest error indicated but actual guest error set (%Rrc)\n", rcGuest));
1460#endif
1461
1462 int rc2;
1463 if (pPayload)
1464 rc2 = mPayload.CopyFromDeep(*pPayload);
1465 else
1466 rc2 = VINF_SUCCESS;
1467 if (RT_SUCCESS(rc2))
1468 {
1469 mRc = rc;
1470 mGuestRc = rcGuest;
1471
1472 rc2 = RTSemEventSignal(mEventSem);
1473 }
1474
1475 return rc2;
1476}
1477
1478/**
1479 * Waits for the event to get triggered. Will return success if the
1480 * wait was successufl (e.g. was being triggered), otherwise an error will be returned.
1481 *
1482 * @returns VBox status code.
1483 * @retval VERR_GSTCTL_GUEST_ERROR may be returned, call GuestResult() to get
1484 * the actual result.
1485 *
1486 * @param msTimeout Timeout (in ms) to wait.
1487 * Specifiy 0 to wait indefinitely.
1488 */
1489int GuestWaitEventBase::Wait(RTMSINTERVAL msTimeout)
1490{
1491 int rc = VINF_SUCCESS;
1492
1493 if (mfAborted)
1494 rc = VERR_CANCELLED;
1495
1496 if (RT_SUCCESS(rc))
1497 {
1498 AssertReturn(mEventSem != NIL_RTSEMEVENT, VERR_CANCELLED);
1499
1500 rc = RTSemEventWait(mEventSem, msTimeout ? msTimeout : RT_INDEFINITE_WAIT);
1501 if ( RT_SUCCESS(rc)
1502 && mfAborted)
1503 {
1504 rc = VERR_CANCELLED;
1505 }
1506
1507 if (RT_SUCCESS(rc))
1508 {
1509 /* If waiting succeeded, return the overall
1510 * result code. */
1511 rc = mRc;
1512 }
1513 }
1514
1515 return rc;
1516}
1517
1518GuestWaitEvent::GuestWaitEvent(void)
1519{
1520}
1521
1522GuestWaitEvent::~GuestWaitEvent(void)
1523{
1524
1525}
1526
1527/**
1528 * Cancels the event.
1529 */
1530int GuestWaitEvent::Cancel(void)
1531{
1532 if (mfAborted) /* Already aborted? */
1533 return VINF_SUCCESS;
1534
1535 mfAborted = true;
1536
1537#ifdef DEBUG_andy
1538 LogFlowThisFunc(("Cancelling %p ...\n"));
1539#endif
1540 return RTSemEventSignal(mEventSem);
1541}
1542
1543/**
1544 * Initializes a wait event with a given context ID (CID).
1545 *
1546 * @returns VBox status code.
1547 * @param uCID Context ID to initialize wait event with.
1548 */
1549int GuestWaitEvent::Init(uint32_t uCID)
1550{
1551 return GuestWaitEventBase::Init(uCID);
1552}
1553
1554/**
1555 * Initializes a wait event with a given context ID (CID) and a list of event types to wait for.
1556 *
1557 * @returns VBox status code.
1558 * @param uCID Context ID to initialize wait event with.
1559 * @param lstEvents List of event types to wait for this wait event to get signalled.
1560 */
1561int GuestWaitEvent::Init(uint32_t uCID, const GuestEventTypes &lstEvents)
1562{
1563 int rc = GuestWaitEventBase::Init(uCID);
1564 if (RT_SUCCESS(rc))
1565 {
1566 mEventTypes = lstEvents;
1567 }
1568
1569 return rc;
1570}
1571
1572/**
1573 * Signals the event.
1574 *
1575 * @return VBox status code.
1576 * @param pEvent Public IEvent to associate.
1577 * Optional.
1578 */
1579int GuestWaitEvent::SignalExternal(IEvent *pEvent)
1580{
1581 if (pEvent)
1582 mEvent = pEvent;
1583
1584 return RTSemEventSignal(mEventSem);
1585}
1586
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