VirtualBox

source: vbox/trunk/src/VBox/Main/VirtualBoxBase.cpp@ 16684

Last change on this file since 16684 was 16586, checked in by vboxsync, 16 years ago

Main: releaseCaller(): handle AutoMayUninitSpan case.

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1/* $Id: VirtualBoxBase.cpp 16586 2009-02-09 13:38:57Z vboxsync $ */
2
3/** @file
4 *
5 * VirtualBox COM base classes implementation
6 */
7
8/*
9 * Copyright (C) 2006-2007 Sun Microsystems, Inc.
10 *
11 * This file is part of VirtualBox Open Source Edition (OSE), as
12 * available from http://www.virtualbox.org. This file is free software;
13 * you can redistribute it and/or modify it under the terms of the GNU
14 * General Public License (GPL) as published by the Free Software
15 * Foundation, in version 2 as it comes in the "COPYING" file of the
16 * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
17 * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
18 *
19 * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa
20 * Clara, CA 95054 USA or visit http://www.sun.com if you need
21 * additional information or have any questions.
22 */
23
24#include <iprt/semaphore.h>
25#include <iprt/asm.h>
26
27#if !defined (VBOX_WITH_XPCOM)
28#include <windows.h>
29#include <dbghelp.h>
30#else /* !defined (VBOX_WITH_XPCOM) */
31/// @todo remove when VirtualBoxErrorInfo goes away from here
32#include <nsIServiceManager.h>
33#include <nsIExceptionService.h>
34#endif /* !defined (VBOX_WITH_XPCOM) */
35
36#include "VirtualBoxBase.h"
37#include "VirtualBoxErrorInfoImpl.h"
38#include "Logging.h"
39
40// VirtualBoxBaseProto methods
41////////////////////////////////////////////////////////////////////////////////
42
43VirtualBoxBaseProto::VirtualBoxBaseProto()
44{
45 mState = NotReady;
46 mStateChangeThread = NIL_RTTHREAD;
47 mCallers = 0;
48 mZeroCallersSem = NIL_RTSEMEVENT;
49 mInitUninitSem = NIL_RTSEMEVENTMULTI;
50 mInitUninitWaiters = 0;
51 mObjectLock = NULL;
52}
53
54VirtualBoxBaseProto::~VirtualBoxBaseProto()
55{
56 if (mObjectLock)
57 delete mObjectLock;
58 Assert (mInitUninitWaiters == 0);
59 Assert (mInitUninitSem == NIL_RTSEMEVENTMULTI);
60 if (mZeroCallersSem != NIL_RTSEMEVENT)
61 RTSemEventDestroy (mZeroCallersSem);
62 mCallers = 0;
63 mStateChangeThread = NIL_RTTHREAD;
64 mState = NotReady;
65}
66
67// util::Lockable interface
68
69RWLockHandle *VirtualBoxBaseProto::lockHandle() const
70{
71 /* lazy initialization */
72 if (RT_UNLIKELY(!mObjectLock))
73 {
74 AssertCompile (sizeof (RWLockHandle *) == sizeof (void *));
75 RWLockHandle *objLock = new RWLockHandle;
76 if (!ASMAtomicCmpXchgPtr ((void * volatile *) &mObjectLock, objLock, NULL))
77 {
78 delete objLock;
79 objLock = (RWLockHandle *) ASMAtomicReadPtr ((void * volatile *) &mObjectLock);
80 }
81 return objLock;
82 }
83 return mObjectLock;
84}
85
86/**
87 * Increments the number of calls to this object by one.
88 *
89 * After this method succeeds, it is guaranted that the object will remain
90 * in the Ready (or in the Limited) state at least until #releaseCaller() is
91 * called.
92 *
93 * This method is intended to mark the beginning of sections of code within
94 * methods of COM objects that depend on the readiness (Ready) state. The
95 * Ready state is a primary "ready to serve" state. Usually all code that
96 * works with component's data depends on it. On practice, this means that
97 * almost every public method, setter or getter of the object should add
98 * itself as an object's caller at the very beginning, to protect from an
99 * unexpected uninitialization that may happen on a different thread.
100 *
101 * Besides the Ready state denoting that the object is fully functional,
102 * there is a special Limited state. The Limited state means that the object
103 * is still functional, but its functionality is limited to some degree, so
104 * not all operations are possible. The @a aLimited argument to this method
105 * determines whether the caller represents this limited functionality or
106 * not.
107 *
108 * This method succeeeds (and increments the number of callers) only if the
109 * current object's state is Ready. Otherwise, it will return E_ACCESSDENIED
110 * to indicate that the object is not operational. There are two exceptions
111 * from this rule:
112 * <ol>
113 * <li>If the @a aLimited argument is |true|, then this method will also
114 * succeeed if the object's state is Limited (or Ready, of course).
115 * </li>
116 * <li>If this method is called from the same thread that placed
117 * the object to InInit or InUninit state (i.e. either from within the
118 * AutoInitSpan or AutoUninitSpan scope), it will succeed as well (but
119 * will not increase the number of callers).
120 * </li>
121 * </ol>
122 *
123 * Normally, calling addCaller() never blocks. However, if this method is
124 * called by a thread created from within the AutoInitSpan scope and this
125 * scope is still active (i.e. the object state is InInit), it will block
126 * until the AutoInitSpan destructor signals that it has finished
127 * initialization.
128 *
129 * Also, addCaller() will block if the object is probing uninitialization on
130 * another thread with AutoMayUninitSpan (i.e. the object state is MayUninit).
131 * And again, the block will last until the AutoMayUninitSpan destructor signals
132 * that it has finished probing and the object is either ready again or will
133 * uninitialize shortly (so that addCaller() will fail).
134 *
135 * When this method returns a failure, the caller must not use the object
136 * and should return the failed result code to its own caller.
137 *
138 * @param aState Where to store the current object's state (can be
139 * used in overriden methods to determine the cause of
140 * the failure).
141 * @param aLimited |true| to add a limited caller.
142 *
143 * @return S_OK on success or E_ACCESSDENIED on failure.
144 *
145 * @note It is preferrable to use the #addLimitedCaller() rather than
146 * calling this method with @a aLimited = |true|, for better
147 * self-descriptiveness.
148 *
149 * @sa #addLimitedCaller()
150 * @sa #releaseCaller()
151 */
152HRESULT VirtualBoxBaseProto::addCaller (State *aState /* = NULL */,
153 bool aLimited /* = false */)
154{
155 AutoWriteLock stateLock (mStateLock);
156
157 HRESULT rc = E_ACCESSDENIED;
158
159 if (mState == Ready || (aLimited && mState == Limited))
160 {
161 /* if Ready or allows Limited, increase the number of callers */
162 ++ mCallers;
163 rc = S_OK;
164 }
165 else
166 if (mState == InInit || mState == MayUninit || mState == InUninit)
167 {
168 if (mStateChangeThread == RTThreadSelf())
169 {
170 /* Called from the same thread that is doing AutoInitSpan or
171 * AutoUninitSpan or AutoMayUninitSpan, just succeed */
172 rc = S_OK;
173 }
174 else if (mState == InInit || mState == MayUninit)
175 {
176 /* One of the two:
177 *
178 * 1) addCaller() is called by a "child" thread while the "parent"
179 * thread is still doing AutoInitSpan/AutoReinitSpan, so wait for
180 * the state to become either Ready/Limited or InitFailed (in
181 * case of init failure).
182 *
183 * 2) addCaller() is called while another thread is in
184 * AutoMayUninitSpan, so wait for the state to become either
185 * Ready or WillUninit.
186 *
187 * Note that in either case we increase the number of callers anyway
188 * -- to prevent AutoUninitSpan from early completion if we are
189 * still not scheduled to pick up the posted semaphore when uninit()
190 * is called.
191 */
192 ++ mCallers;
193
194 /* lazy semaphore creation */
195 if (mInitUninitSem == NIL_RTSEMEVENTMULTI)
196 {
197 RTSemEventMultiCreate (&mInitUninitSem);
198 Assert (mInitUninitWaiters == 0);
199 }
200
201 ++ mInitUninitWaiters;
202
203 LogFlowThisFunc ((mState == InInit ?
204 "Waiting for AutoInitSpan/AutoReinitSpan to "
205 "finish...\n" :
206 "Waiting for AutoMayUninitSpan to finish...\n"));
207
208 stateLock.leave();
209 RTSemEventMultiWait (mInitUninitSem, RT_INDEFINITE_WAIT);
210 stateLock.enter();
211
212 if (-- mInitUninitWaiters == 0)
213 {
214 /* destroy the semaphore since no more necessary */
215 RTSemEventMultiDestroy (mInitUninitSem);
216 mInitUninitSem = NIL_RTSEMEVENTMULTI;
217 }
218
219 if (mState == Ready || (aLimited && mState == Limited))
220 rc = S_OK;
221 else
222 {
223 Assert (mCallers != 0);
224 -- mCallers;
225 if (mCallers == 0 && mState == InUninit)
226 {
227 /* inform AutoUninitSpan ctor there are no more callers */
228 RTSemEventSignal (mZeroCallersSem);
229 }
230 }
231 }
232 }
233
234 if (aState)
235 *aState = mState;
236
237 return rc;
238}
239
240/**
241 * Decreases the number of calls to this object by one.
242 *
243 * Must be called after every #addCaller() or #addLimitedCaller() when
244 * protecting the object from uninitialization is no more necessary.
245 */
246void VirtualBoxBaseProto::releaseCaller()
247{
248 AutoWriteLock stateLock (mStateLock);
249
250 if (mState == Ready || mState == Limited)
251 {
252 /* if Ready or Limited, decrease the number of callers */
253 AssertMsgReturn (mCallers != 0, ("mCallers is ZERO!"), (void) 0);
254 -- mCallers;
255
256 return;
257 }
258
259 if (mState == InInit || mState == MayUninit || mState == InUninit)
260 {
261 if (mStateChangeThread == RTThreadSelf())
262 {
263 /* Called from the same thread that is doing AutoInitSpan,
264 * AutoMayUninitSpan or AutoUninitSpan: just succeed */
265 return;
266 }
267
268 if (mState == MayUninit || mState == InUninit)
269 {
270 /* the caller is being released after AutoUninitSpan or
271 * AutoMayUninitSpan has begun */
272 AssertMsgReturn (mCallers != 0, ("mCallers is ZERO!"), (void) 0);
273 -- mCallers;
274
275 if (mCallers == 0)
276 {
277 /* inform the Auto*UninitSpan ctor there are no more callers */
278 RTSemEventSignal (mZeroCallersSem);
279 }
280
281 return;
282 }
283 }
284
285 AssertMsgFailed (("mState = %d!", mState));
286}
287
288// VirtualBoxBaseProto::AutoInitSpan methods
289////////////////////////////////////////////////////////////////////////////////
290
291/**
292 * Creates a smart initialization span object that places the object to
293 * InInit state.
294 *
295 * Please see the AutoInitSpan class description for more info.
296 *
297 * @param aObj |this| pointer of the managed VirtualBoxBase object whose
298 * init() method is being called.
299 * @param aResult Default initialization result.
300 */
301VirtualBoxBaseProto::AutoInitSpan::
302AutoInitSpan (VirtualBoxBaseProto *aObj, Result aResult /* = Failed */)
303 : mObj (aObj), mResult (aResult), mOk (false)
304{
305 Assert (aObj);
306
307 AutoWriteLock stateLock (mObj->mStateLock);
308
309 mOk = mObj->mState == NotReady;
310 AssertReturnVoid (mOk);
311
312 mObj->setState (InInit);
313}
314
315/**
316 * Places the managed VirtualBoxBase object to Ready/Limited state if the
317 * initialization succeeded or partly succeeded, or places it to InitFailed
318 * state and calls the object's uninit() method.
319 *
320 * Please see the AutoInitSpan class description for more info.
321 */
322VirtualBoxBaseProto::AutoInitSpan::~AutoInitSpan()
323{
324 /* if the state was other than NotReady, do nothing */
325 if (!mOk)
326 return;
327
328 AutoWriteLock stateLock (mObj->mStateLock);
329
330 Assert (mObj->mState == InInit);
331
332 if (mObj->mCallers > 0)
333 {
334 Assert (mObj->mInitUninitWaiters > 0);
335
336 /* We have some pending addCaller() calls on other threads (created
337 * during InInit), signal that InInit is finished and they may go on. */
338 RTSemEventMultiSignal (mObj->mInitUninitSem);
339 }
340
341 if (mResult == Succeeded)
342 {
343 mObj->setState (Ready);
344 }
345 else
346 if (mResult == Limited)
347 {
348 mObj->setState (VirtualBoxBaseProto::Limited);
349 }
350 else
351 {
352 mObj->setState (InitFailed);
353 /* leave the lock to prevent nesting when uninit() is called */
354 stateLock.leave();
355 /* call uninit() to let the object uninit itself after failed init() */
356 mObj->uninit();
357 /* Note: the object may no longer exist here (for example, it can call
358 * the destructor in uninit()) */
359 }
360}
361
362// VirtualBoxBaseProto::AutoReinitSpan methods
363////////////////////////////////////////////////////////////////////////////////
364
365/**
366 * Creates a smart re-initialization span object and places the object to
367 * InInit state.
368 *
369 * Please see the AutoInitSpan class description for more info.
370 *
371 * @param aObj |this| pointer of the managed VirtualBoxBase object whose
372 * re-initialization method is being called.
373 */
374VirtualBoxBaseProto::AutoReinitSpan::
375AutoReinitSpan (VirtualBoxBaseProto *aObj)
376 : mObj (aObj), mSucceeded (false), mOk (false)
377{
378 Assert (aObj);
379
380 AutoWriteLock stateLock (mObj->mStateLock);
381
382 mOk = mObj->mState == Limited;
383 AssertReturnVoid (mOk);
384
385 mObj->setState (InInit);
386}
387
388/**
389 * Places the managed VirtualBoxBase object to Ready state if the
390 * re-initialization succeeded (i.e. #setSucceeded() has been called) or back to
391 * Limited state otherwise.
392 *
393 * Please see the AutoInitSpan class description for more info.
394 */
395VirtualBoxBaseProto::AutoReinitSpan::~AutoReinitSpan()
396{
397 /* if the state was other than Limited, do nothing */
398 if (!mOk)
399 return;
400
401 AutoWriteLock stateLock (mObj->mStateLock);
402
403 Assert (mObj->mState == InInit);
404
405 if (mObj->mCallers > 0 && mObj->mInitUninitWaiters > 0)
406 {
407 /* We have some pending addCaller() calls on other threads (created
408 * during InInit), signal that InInit is finished and they may go on. */
409 RTSemEventMultiSignal (mObj->mInitUninitSem);
410 }
411
412 if (mSucceeded)
413 {
414 mObj->setState (Ready);
415 }
416 else
417 {
418 mObj->setState (Limited);
419 }
420}
421
422// VirtualBoxBaseProto::AutoUninitSpan methods
423////////////////////////////////////////////////////////////////////////////////
424
425/**
426 * Creates a smart uninitialization span object and places this object to
427 * InUninit state.
428 *
429 * Please see the AutoInitSpan class description for more info.
430 *
431 * @note This method blocks the current thread execution until the number of
432 * callers of the managed VirtualBoxBase object drops to zero!
433 *
434 * @param aObj |this| pointer of the VirtualBoxBase object whose uninit()
435 * method is being called.
436 */
437VirtualBoxBaseProto::AutoUninitSpan::AutoUninitSpan (VirtualBoxBaseProto *aObj)
438 : mObj (aObj), mInitFailed (false), mUninitDone (false)
439{
440 Assert (aObj);
441
442 AutoWriteLock stateLock (mObj->mStateLock);
443
444 Assert (mObj->mState != InInit);
445
446 /* Set mUninitDone to |true| if this object is already uninitialized
447 * (NotReady) or if another AutoUninitSpan is currently active on some
448 * other thread (InUninit). */
449 mUninitDone = mObj->mState == NotReady ||
450 mObj->mState == InUninit;
451
452 if (mObj->mState == InitFailed)
453 {
454 /* we've been called by init() on failure */
455 mInitFailed = true;
456 }
457 else
458 {
459 if (mUninitDone)
460 {
461 /* do nothing if already uninitialized */
462 if (mObj->mState == NotReady)
463 return;
464
465 /* otherwise, wait until another thread finishes uninitialization.
466 * This is necessary to make sure that when this method returns, the
467 * object is NotReady and therefore can be deleted (for example).
468 * In particular, this is used by
469 * VirtualBoxBaseWithTypedChildrenNEXT::uninitDependentChildren(). */
470
471 /* lazy semaphore creation */
472 if (mObj->mInitUninitSem == NIL_RTSEMEVENTMULTI)
473 {
474 RTSemEventMultiCreate (&mObj->mInitUninitSem);
475 Assert (mObj->mInitUninitWaiters == 0);
476 }
477 ++ mObj->mInitUninitWaiters;
478
479 LogFlowFunc (("{%p}: Waiting for AutoUninitSpan to finish...\n",
480 mObj));
481
482 stateLock.leave();
483 RTSemEventMultiWait (mObj->mInitUninitSem, RT_INDEFINITE_WAIT);
484 stateLock.enter();
485
486 if (-- mObj->mInitUninitWaiters == 0)
487 {
488 /* destroy the semaphore since no more necessary */
489 RTSemEventMultiDestroy (mObj->mInitUninitSem);
490 mObj->mInitUninitSem = NIL_RTSEMEVENTMULTI;
491 }
492
493 return;
494 }
495 }
496
497 /* go to InUninit to prevent from adding new callers */
498 mObj->setState (InUninit);
499
500 /* wait for already existing callers to drop to zero */
501 if (mObj->mCallers > 0)
502 {
503 /* lazy creation */
504 Assert (mObj->mZeroCallersSem == NIL_RTSEMEVENT);
505 RTSemEventCreate (&mObj->mZeroCallersSem);
506
507 /* wait until remaining callers release the object */
508 LogFlowFunc (("{%p}: Waiting for callers (%d) to drop to zero...\n",
509 mObj, mObj->mCallers));
510
511 stateLock.leave();
512 RTSemEventWait (mObj->mZeroCallersSem, RT_INDEFINITE_WAIT);
513 }
514}
515
516/**
517 * Places the managed VirtualBoxBase object to the NotReady state.
518 */
519VirtualBoxBaseProto::AutoUninitSpan::~AutoUninitSpan()
520{
521 /* do nothing if already uninitialized */
522 if (mUninitDone)
523 return;
524
525 AutoWriteLock stateLock (mObj->mStateLock);
526
527 Assert (mObj->mState == InUninit);
528
529 mObj->setState (NotReady);
530}
531
532// VirtualBoxBaseProto::AutoMayUninitSpan methods
533////////////////////////////////////////////////////////////////////////////////
534
535/**
536 * Creates a smart initialization span object that places the object to
537 * MayUninit state.
538 *
539 * Please see the AutoMayUninitSpan class description for more info.
540 *
541 * @param aObj |this| pointer of the managed VirtualBoxBase object whose
542 * uninit() method to be probably called.
543 */
544VirtualBoxBaseProto::AutoMayUninitSpan::
545AutoMayUninitSpan (VirtualBoxBaseProto *aObj)
546 : mObj (aObj), mRC (E_FAIL), mAlreadyInProgress (false)
547 , mAcceptUninit (false)
548{
549 Assert (aObj);
550
551 AutoWriteLock stateLock (mObj->mStateLock);
552
553 AssertReturnVoid (mObj->mState != InInit &&
554 mObj->mState != InUninit);
555
556 switch (mObj->mState)
557 {
558 case Ready:
559 break;
560 case MayUninit:
561 /* Nothing to be done if already in MayUninit. */
562 mAlreadyInProgress = true;
563 mRC = S_OK;
564 return;
565 default:
566 /* Abuse mObj->addCaller() to get the extended error info possibly
567 * set by reimplementations of addCaller() and return it to the
568 * caller. Note that this abuse is supposed to be safe because we
569 * should've filtered out all states where addCaller() would do
570 * something else but set error info. */
571 mRC = mObj->addCaller();
572 Assert (FAILED (mRC));
573 return;
574 }
575
576 /* go to MayUninit to cause new callers to wait until we finish */
577 mObj->setState (MayUninit);
578 mRC = S_OK;
579
580 /* wait for already existing callers to drop to zero */
581 if (mObj->mCallers > 0)
582 {
583 /* lazy creation */
584 Assert (mObj->mZeroCallersSem == NIL_RTSEMEVENT);
585 RTSemEventCreate (&mObj->mZeroCallersSem);
586
587 /* wait until remaining callers release the object */
588 LogFlowFunc (("{%p}: Waiting for callers (%d) to drop to zero...\n",
589 mObj, mObj->mCallers));
590
591 stateLock.leave();
592 RTSemEventWait (mObj->mZeroCallersSem, RT_INDEFINITE_WAIT);
593 }
594}
595
596/**
597 * Places the managed VirtualBoxBase object back to Ready state if
598 * #acceptUninit() was not called, or places it to WillUninit state and calls
599 * the object's uninit() method.
600 *
601 * Please see the AutoMayUninitSpan class description for more info.
602 */
603VirtualBoxBaseProto::AutoMayUninitSpan::~AutoMayUninitSpan()
604{
605 /* if we did nothing in the constructor, do nothing here */
606 if (mAlreadyInProgress || FAILED (mRC))
607 return;
608
609 AutoWriteLock stateLock (mObj->mStateLock);
610
611 Assert (mObj->mState == MayUninit);
612
613 if (mObj->mCallers > 0)
614 {
615 Assert (mObj->mInitUninitWaiters > 0);
616
617 /* We have some pending addCaller() calls on other threads made after
618 * going to during MayUnit, signal that MayUnit is finished and they may
619 * go on. */
620 RTSemEventMultiSignal (mObj->mInitUninitSem);
621 }
622
623 if (!mAcceptUninit)
624 {
625 mObj->setState (Ready);
626 }
627 else
628 {
629 mObj->setState (WillUninit);
630 /* leave the lock to prevent nesting when uninit() is called */
631 stateLock.leave();
632 /* call uninit() to let the object uninit itself */
633 mObj->uninit();
634 /* Note: the object may no longer exist here (for example, it can call
635 * the destructor in uninit()) */
636 }
637}
638
639// VirtualBoxBase methods
640////////////////////////////////////////////////////////////////////////////////
641
642/**
643 * Translates the given text string according to the currently installed
644 * translation table and current context. The current context is determined
645 * by the context parameter. Additionally, a comment to the source text
646 * string text can be given. This comment (which is NULL by default)
647 * is helpful in sutuations where it is necessary to distinguish between
648 * two or more semantically different roles of the same source text in the
649 * same context.
650 *
651 * @param context the context of the translation (can be NULL
652 * to indicate the global context)
653 * @param sourceText the string to translate
654 * @param comment the comment to the string (NULL means no comment)
655 *
656 * @return
657 * the translated version of the source string in UTF-8 encoding,
658 * or the source string itself if the translation is not found
659 * in the given context.
660 */
661// static
662const char *VirtualBoxBase::translate (const char *context, const char *sourceText,
663 const char *comment)
664{
665#if 0
666 Log(("VirtualBoxBase::translate:\n"
667 " context={%s}\n"
668 " sourceT={%s}\n"
669 " comment={%s}\n",
670 context, sourceText, comment));
671#endif
672
673 /// @todo (dmik) incorporate Qt translation file parsing and lookup
674
675 return sourceText;
676}
677
678// VirtualBoxSupportTranslationBase methods
679////////////////////////////////////////////////////////////////////////////////
680
681/**
682 * Modifies the given argument so that it will contain only a class name
683 * (null-terminated). The argument must point to a <b>non-constant</b>
684 * string containing a valid value, as it is generated by the
685 * __PRETTY_FUNCTION__ built-in macro of the GCC compiler, or by the
686 * __FUNCTION__ macro of any other compiler.
687 *
688 * The function assumes that the macro is used within the member of the
689 * class derived from the VirtualBoxSupportTranslation<> template.
690 *
691 * @param prettyFunctionName string to modify
692 * @return
693 * true on success and false otherwise
694 */
695bool VirtualBoxSupportTranslationBase::cutClassNameFrom__PRETTY_FUNCTION__ (char *fn)
696{
697 Assert (fn);
698 if (!fn)
699 return false;
700
701#if defined (__GNUC__)
702
703 // the format is like:
704 // VirtualBoxSupportTranslation<C>::VirtualBoxSupportTranslation() [with C = VirtualBox]
705
706 #define START " = "
707 #define END "]"
708
709#elif defined (_MSC_VER)
710
711 // the format is like:
712 // VirtualBoxSupportTranslation<class VirtualBox>::__ctor
713
714 #define START "<class "
715 #define END ">::"
716
717#endif
718
719 char *start = strstr (fn, START);
720 Assert (start);
721 if (start)
722 {
723 start += sizeof (START) - 1;
724 char *end = strstr (start, END);
725 Assert (end && (end > start));
726 if (end && (end > start))
727 {
728 size_t len = end - start;
729 memmove (fn, start, len);
730 fn [len] = 0;
731 return true;
732 }
733 }
734
735 #undef END
736 #undef START
737
738 return false;
739}
740
741// VirtualBoxSupportErrorInfoImplBase methods
742////////////////////////////////////////////////////////////////////////////////
743
744RTTLS VirtualBoxSupportErrorInfoImplBase::MultiResult::sCounter = NIL_RTTLS;
745
746void VirtualBoxSupportErrorInfoImplBase::MultiResult::init()
747{
748 if (sCounter == NIL_RTTLS)
749 {
750 sCounter = RTTlsAlloc();
751 AssertReturnVoid (sCounter != NIL_RTTLS);
752 }
753
754 uintptr_t counter = (uintptr_t) RTTlsGet (sCounter);
755 ++ counter;
756 RTTlsSet (sCounter, (void *) counter);
757}
758
759VirtualBoxSupportErrorInfoImplBase::MultiResult::~MultiResult()
760{
761 uintptr_t counter = (uintptr_t) RTTlsGet (sCounter);
762 AssertReturnVoid (counter != 0);
763 -- counter;
764 RTTlsSet (sCounter, (void *) counter);
765}
766
767/**
768 * Sets error info for the current thread. This is an internal function that
769 * gets eventually called by all public variants. If @a aWarning is
770 * @c true, then the highest (31) bit in the @a aResultCode value which
771 * indicates the error severity is reset to zero to make sure the receiver will
772 * recognize that the created error info object represents a warning rather
773 * than an error.
774 */
775/* static */
776HRESULT VirtualBoxSupportErrorInfoImplBase::setErrorInternal (
777 HRESULT aResultCode, const GUID &aIID,
778 const Bstr &aComponent, const Bstr &aText,
779 bool aWarning, bool aLogIt)
780{
781 /* whether multi-error mode is turned on */
782 bool preserve = ((uintptr_t) RTTlsGet (MultiResult::sCounter)) > 0;
783
784 if (aLogIt)
785 LogRel (("ERROR [COM]: aRC=%Rhrc (%#08x) aIID={%RTuuid} aComponent={%ls} aText={%ls} "
786 "aWarning=%RTbool, preserve=%RTbool\n",
787 aResultCode, aResultCode, &aIID, aComponent.raw(), aText.raw(), aWarning,
788 preserve));
789
790 /* these are mandatory, others -- not */
791 AssertReturn ((!aWarning && FAILED (aResultCode)) ||
792 (aWarning && aResultCode != S_OK),
793 E_FAIL);
794 AssertReturn (!aText.isEmpty(), E_FAIL);
795
796 /* reset the error severity bit if it's a warning */
797 if (aWarning)
798 aResultCode &= ~0x80000000;
799
800 HRESULT rc = S_OK;
801
802 do
803 {
804 ComObjPtr <VirtualBoxErrorInfo> info;
805 rc = info.createObject();
806 CheckComRCBreakRC (rc);
807
808#if !defined (VBOX_WITH_XPCOM)
809
810 ComPtr <IVirtualBoxErrorInfo> curInfo;
811 if (preserve)
812 {
813 /* get the current error info if any */
814 ComPtr <IErrorInfo> err;
815 rc = ::GetErrorInfo (0, err.asOutParam());
816 CheckComRCBreakRC (rc);
817 rc = err.queryInterfaceTo (curInfo.asOutParam());
818 if (FAILED (rc))
819 {
820 /* create a IVirtualBoxErrorInfo wrapper for the native
821 * IErrorInfo object */
822 ComObjPtr <VirtualBoxErrorInfo> wrapper;
823 rc = wrapper.createObject();
824 if (SUCCEEDED (rc))
825 {
826 rc = wrapper->init (err);
827 if (SUCCEEDED (rc))
828 curInfo = wrapper;
829 }
830 }
831 }
832 /* On failure, curInfo will stay null */
833 Assert (SUCCEEDED (rc) || curInfo.isNull());
834
835 /* set the current error info and preserve the previous one if any */
836 rc = info->init (aResultCode, aIID, aComponent, aText, curInfo);
837 CheckComRCBreakRC (rc);
838
839 ComPtr <IErrorInfo> err;
840 rc = info.queryInterfaceTo (err.asOutParam());
841 if (SUCCEEDED (rc))
842 rc = ::SetErrorInfo (0, err);
843
844#else // !defined (VBOX_WITH_XPCOM)
845
846 nsCOMPtr <nsIExceptionService> es;
847 es = do_GetService (NS_EXCEPTIONSERVICE_CONTRACTID, &rc);
848 if (NS_SUCCEEDED (rc))
849 {
850 nsCOMPtr <nsIExceptionManager> em;
851 rc = es->GetCurrentExceptionManager (getter_AddRefs (em));
852 CheckComRCBreakRC (rc);
853
854 ComPtr <IVirtualBoxErrorInfo> curInfo;
855 if (preserve)
856 {
857 /* get the current error info if any */
858 ComPtr <nsIException> ex;
859 rc = em->GetCurrentException (ex.asOutParam());
860 CheckComRCBreakRC (rc);
861 rc = ex.queryInterfaceTo (curInfo.asOutParam());
862 if (FAILED (rc))
863 {
864 /* create a IVirtualBoxErrorInfo wrapper for the native
865 * nsIException object */
866 ComObjPtr <VirtualBoxErrorInfo> wrapper;
867 rc = wrapper.createObject();
868 if (SUCCEEDED (rc))
869 {
870 rc = wrapper->init (ex);
871 if (SUCCEEDED (rc))
872 curInfo = wrapper;
873 }
874 }
875 }
876 /* On failure, curInfo will stay null */
877 Assert (SUCCEEDED (rc) || curInfo.isNull());
878
879 /* set the current error info and preserve the previous one if any */
880 rc = info->init (aResultCode, aIID, aComponent, aText, curInfo);
881 CheckComRCBreakRC (rc);
882
883 ComPtr <nsIException> ex;
884 rc = info.queryInterfaceTo (ex.asOutParam());
885 if (SUCCEEDED (rc))
886 rc = em->SetCurrentException (ex);
887 }
888 else if (rc == NS_ERROR_UNEXPECTED)
889 {
890 /*
891 * It is possible that setError() is being called by the object
892 * after the XPCOM shutdown sequence has been initiated
893 * (for example, when XPCOM releases all instances it internally
894 * references, which can cause object's FinalConstruct() and then
895 * uninit()). In this case, do_GetService() above will return
896 * NS_ERROR_UNEXPECTED and it doesn't actually make sense to
897 * set the exception (nobody will be able to read it).
898 */
899 LogWarningFunc (("Will not set an exception because "
900 "nsIExceptionService is not available "
901 "(NS_ERROR_UNEXPECTED). "
902 "XPCOM is being shutdown?\n"));
903 rc = NS_OK;
904 }
905
906#endif // !defined (VBOX_WITH_XPCOM)
907 }
908 while (0);
909
910 AssertComRC (rc);
911
912 return SUCCEEDED (rc) ? aResultCode : rc;
913}
914
915// VirtualBoxBaseWithChildren methods
916////////////////////////////////////////////////////////////////////////////////
917
918/**
919 * Uninitializes all dependent children registered with #addDependentChild().
920 *
921 * @note
922 * This method will call uninit() methods of children. If these methods
923 * access the parent object, uninitDependentChildren() must be called
924 * either at the beginning of the parent uninitialization sequence (when
925 * it is still operational) or after setReady(false) is called to
926 * indicate the parent is out of action.
927 */
928void VirtualBoxBaseWithChildren::uninitDependentChildren()
929{
930 /// @todo (r=dmik) see todo in VirtualBoxBase.h, in
931 // template <class C> void removeDependentChild (C *child)
932
933 LogFlowThisFuncEnter();
934
935 AutoWriteLock alock (this);
936 AutoWriteLock mapLock (mMapLock);
937
938 LogFlowThisFunc (("count=%d...\n", mDependentChildren.size()));
939
940 if (mDependentChildren.size())
941 {
942 /* We keep the lock until we have enumerated all children.
943 * Those ones that will try to call #removeDependentChild() from
944 * a different thread will have to wait */
945
946 Assert (mUninitDoneSem == NIL_RTSEMEVENT);
947 int vrc = RTSemEventCreate (&mUninitDoneSem);
948 AssertRC (vrc);
949
950 Assert (mChildrenLeft == 0);
951 mChildrenLeft = (unsigned)mDependentChildren.size();
952
953 for (DependentChildren::iterator it = mDependentChildren.begin();
954 it != mDependentChildren.end(); ++ it)
955 {
956 VirtualBoxBase *child = (*it).second;
957 Assert (child);
958 if (child)
959 child->uninit();
960 }
961
962 mDependentChildren.clear();
963 }
964
965 /* Wait until all children started uninitializing on their own
966 * (and therefore are waiting for some parent's method or for
967 * #removeDependentChild() to return) are finished uninitialization */
968
969 if (mUninitDoneSem != NIL_RTSEMEVENT)
970 {
971 /* let stuck children run */
972 mapLock.leave();
973 alock.leave();
974
975 LogFlowThisFunc (("Waiting for uninitialization of all children...\n"));
976
977 RTSemEventWait (mUninitDoneSem, RT_INDEFINITE_WAIT);
978
979 alock.enter();
980 mapLock.enter();
981
982 RTSemEventDestroy (mUninitDoneSem);
983 mUninitDoneSem = NIL_RTSEMEVENT;
984 Assert (mChildrenLeft == 0);
985 }
986
987 LogFlowThisFuncLeave();
988}
989
990/**
991 * Returns a pointer to the dependent child corresponding to the given
992 * interface pointer (used as a key in the map) or NULL if the interface
993 * pointer doesn't correspond to any child registered using
994 * #addDependentChild().
995 *
996 * @param unk
997 * Pointer to map to the dependent child object (it is ComPtr <IUnknown>
998 * rather than IUnknown *, to guarantee IUnknown * identity)
999 * @return
1000 * Pointer to the dependent child object
1001 */
1002VirtualBoxBase *VirtualBoxBaseWithChildren::getDependentChild (
1003 const ComPtr <IUnknown> &unk)
1004{
1005 AssertReturn (!!unk, NULL);
1006
1007 AutoWriteLock alock (mMapLock);
1008 if (mUninitDoneSem != NIL_RTSEMEVENT)
1009 return NULL;
1010
1011 DependentChildren::const_iterator it = mDependentChildren.find (unk);
1012 if (it == mDependentChildren.end())
1013 return NULL;
1014 return (*it).second;
1015}
1016
1017/** Helper for addDependentChild() template method */
1018void VirtualBoxBaseWithChildren::addDependentChild (
1019 const ComPtr <IUnknown> &unk, VirtualBoxBase *child)
1020{
1021 AssertReturn (!!unk && child, (void) 0);
1022
1023 AutoWriteLock alock (mMapLock);
1024
1025 if (mUninitDoneSem != NIL_RTSEMEVENT)
1026 {
1027 // for this very unlikely case, we have to increase the number of
1028 // children left, for symmetry with #removeDependentChild()
1029 ++ mChildrenLeft;
1030 return;
1031 }
1032
1033 std::pair <DependentChildren::iterator, bool> result =
1034 mDependentChildren.insert (DependentChildren::value_type (unk, child));
1035 AssertMsg (result.second, ("Failed to insert a child to the map\n"));
1036}
1037
1038/** Helper for removeDependentChild() template method */
1039void VirtualBoxBaseWithChildren::removeDependentChild (const ComPtr <IUnknown> &unk)
1040{
1041 /// @todo (r=dmik) see todo in VirtualBoxBase.h, in
1042 // template <class C> void removeDependentChild (C *child)
1043
1044 AssertReturn (!!unk, (void) 0);
1045
1046 AutoWriteLock alock (mMapLock);
1047
1048 if (mUninitDoneSem != NIL_RTSEMEVENT)
1049 {
1050 // uninitDependentChildren() is in action, just increase the number
1051 // of children left and signal a semaphore when it reaches zero
1052 Assert (mChildrenLeft != 0);
1053 -- mChildrenLeft;
1054 if (mChildrenLeft == 0)
1055 {
1056 int vrc = RTSemEventSignal (mUninitDoneSem);
1057 AssertRC (vrc);
1058 }
1059 return;
1060 }
1061
1062 DependentChildren::size_type result = mDependentChildren.erase (unk);
1063 AssertMsg (result == 1, ("Failed to remove a child from the map\n"));
1064 NOREF (result);
1065}
1066
1067// VirtualBoxBaseWithChildrenNEXT methods
1068////////////////////////////////////////////////////////////////////////////////
1069
1070/**
1071 * Uninitializes all dependent children registered on this object with
1072 * #addDependentChild().
1073 *
1074 * Must be called from within the VirtualBoxBaseProto::AutoUninitSpan (i.e.
1075 * typically from this object's uninit() method) to uninitialize children
1076 * before this object goes out of service and becomes unusable.
1077 *
1078 * Note that this method will call uninit() methods of child objects. If
1079 * these methods need to call the parent object during uninitialization,
1080 * #uninitDependentChildren() must be called before the relevant part of the
1081 * parent is uninitialized: usually at the begnning of the parent
1082 * uninitialization sequence.
1083 *
1084 * Keep in mind that the uninitialized child objects may be no longer available
1085 * (i.e. may be deleted) after this method returns.
1086 *
1087 * @note Locks #childrenLock() for writing.
1088 *
1089 * @note May lock something else through the called children.
1090 */
1091void VirtualBoxBaseWithChildrenNEXT::uninitDependentChildren()
1092{
1093 AutoCaller autoCaller (this);
1094
1095 /* sanity */
1096 AssertReturnVoid (autoCaller.state() == InUninit ||
1097 autoCaller.state() == InInit);
1098
1099 AutoWriteLock chLock (childrenLock());
1100
1101 size_t count = mDependentChildren.size();
1102
1103 while (count != 0)
1104 {
1105 /* strongly reference the weak child from the map to make sure it won't
1106 * be deleted while we've released the lock */
1107 DependentChildren::iterator it = mDependentChildren.begin();
1108 ComPtr <IUnknown> unk = it->first;
1109 Assert (!unk.isNull());
1110
1111 VirtualBoxBase *child = it->second;
1112
1113 /* release the lock to let children stuck in removeDependentChild() go
1114 * on (otherwise we'll deadlock in uninit() */
1115 chLock.leave();
1116
1117 /* Note that if child->uninit() happens to be called on another
1118 * thread right before us and is not yet finished, the second
1119 * uninit() call will wait until the first one has done so
1120 * (thanks to AutoUninitSpan). */
1121 Assert (child);
1122 if (child)
1123 child->uninit();
1124
1125 chLock.enter();
1126
1127 /* uninit() is guaranteed to be done here so the child must be already
1128 * deleted from the list by removeDependentChild() called from there.
1129 * Do some checks to avoid endless loops when the user is forgetful */
1130 -- count;
1131 Assert (count == mDependentChildren.size());
1132 if (count != mDependentChildren.size())
1133 mDependentChildren.erase (it);
1134
1135 Assert (count == mDependentChildren.size());
1136 }
1137}
1138
1139/**
1140 * Returns a pointer to the dependent child (registered using
1141 * #addDependentChild()) corresponding to the given interface pointer or NULL if
1142 * the given pointer is unrelated.
1143 *
1144 * The relation is checked by using the given interface pointer as a key in the
1145 * map of dependent children.
1146 *
1147 * Note that ComPtr <IUnknown> is used as an argument instead of IUnknown * in
1148 * order to guarantee IUnknown identity and disambiguation by doing
1149 * QueryInterface (IUnknown) rather than a regular C cast.
1150 *
1151 * @param aUnk Pointer to map to the dependent child object.
1152 * @return Pointer to the dependent VirtualBoxBase child object.
1153 *
1154 * @note Locks #childrenLock() for reading.
1155 */
1156VirtualBoxBaseNEXT *
1157VirtualBoxBaseWithChildrenNEXT::getDependentChild (const ComPtr <IUnknown> &aUnk)
1158{
1159 AssertReturn (!aUnk.isNull(), NULL);
1160
1161 AutoCaller autoCaller (this);
1162
1163 /* return NULL if uninitDependentChildren() is in action */
1164 if (autoCaller.state() == InUninit)
1165 return NULL;
1166
1167 AutoReadLock alock (childrenLock());
1168
1169 DependentChildren::const_iterator it = mDependentChildren.find (aUnk);
1170 if (it == mDependentChildren.end())
1171 return NULL;
1172
1173 return (*it).second;
1174}
1175
1176/** Helper for addDependentChild(). */
1177void VirtualBoxBaseWithChildrenNEXT::doAddDependentChild (
1178 IUnknown *aUnk, VirtualBoxBaseNEXT *aChild)
1179{
1180 AssertReturnVoid (aUnk != NULL);
1181 AssertReturnVoid (aChild != NULL);
1182
1183 AutoCaller autoCaller (this);
1184
1185 /* sanity */
1186 AssertReturnVoid (autoCaller.state() == InInit ||
1187 autoCaller.state() == Ready ||
1188 autoCaller.state() == Limited);
1189
1190 AutoWriteLock alock (childrenLock());
1191
1192 std::pair <DependentChildren::iterator, bool> result =
1193 mDependentChildren.insert (DependentChildren::value_type (aUnk, aChild));
1194 AssertMsg (result.second, ("Failed to insert child %p to the map\n", aUnk));
1195}
1196
1197/** Helper for removeDependentChild(). */
1198void VirtualBoxBaseWithChildrenNEXT::doRemoveDependentChild (IUnknown *aUnk)
1199{
1200 AssertReturnVoid (aUnk);
1201
1202 AutoCaller autoCaller (this);
1203
1204 /* sanity */
1205 AssertReturnVoid (autoCaller.state() == InUninit ||
1206 autoCaller.state() == InInit ||
1207 autoCaller.state() == Ready ||
1208 autoCaller.state() == Limited);
1209
1210 AutoWriteLock alock (childrenLock());
1211
1212 DependentChildren::size_type result = mDependentChildren.erase (aUnk);
1213 AssertMsg (result == 1, ("Failed to remove child %p from the map\n", aUnk));
1214 NOREF (result);
1215}
1216
1217
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