VirtualBox

source: vbox/trunk/src/VBox/Main/include/VirtualBoxBase.h@ 8215

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1/** @file
2 *
3 * VirtualBox COM base classes definition
4 */
5
6/*
7 * Copyright (C) 2006-2007 Sun Microsystems, Inc.
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 * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa
18 * Clara, CA 95054 USA or visit http://www.sun.com if you need
19 * additional information or have any questions.
20 */
21
22#ifndef ____H_VIRTUALBOXBASEIMPL
23#define ____H_VIRTUALBOXBASEIMPL
24
25#include "VBox/com/string.h"
26#include "VBox/com/Guid.h"
27#include "VBox/com/ptr.h"
28#include "VBox/com/ErrorInfo.h"
29
30#include "VBox/com/VirtualBox.h"
31
32#include <VBox/settings.h>
33
34#include "AutoLock.h"
35
36using namespace com;
37using namespace util;
38
39#include <iprt/cdefs.h>
40#include <iprt/critsect.h>
41#include <iprt/thread.h>
42
43#include <list>
44#include <map>
45
46#if !defined (VBOX_WITH_XPCOM)
47
48#include <atlcom.h>
49
50// use a special version of the singleton class factory,
51// see KB811591 in msdn for more info.
52
53#undef DECLARE_CLASSFACTORY_SINGLETON
54#define DECLARE_CLASSFACTORY_SINGLETON(obj) DECLARE_CLASSFACTORY_EX(CMyComClassFactorySingleton<obj>)
55
56template <class T>
57class CMyComClassFactorySingleton : public CComClassFactory
58{
59public:
60 CMyComClassFactorySingleton() : m_hrCreate(S_OK){}
61 virtual ~CMyComClassFactorySingleton(){}
62 // IClassFactory
63 STDMETHOD(CreateInstance)(LPUNKNOWN pUnkOuter, REFIID riid, void** ppvObj)
64 {
65 HRESULT hRes = E_POINTER;
66 if (ppvObj != NULL)
67 {
68 *ppvObj = NULL;
69 // Aggregation is not supported in singleton objects.
70 ATLASSERT(pUnkOuter == NULL);
71 if (pUnkOuter != NULL)
72 hRes = CLASS_E_NOAGGREGATION;
73 else
74 {
75 if (m_hrCreate == S_OK && m_spObj == NULL)
76 {
77 Lock();
78 __try
79 {
80 // Fix: The following If statement was moved inside the __try statement.
81 // Did another thread arrive here first?
82 if (m_hrCreate == S_OK && m_spObj == NULL)
83 {
84 // lock the module to indicate activity
85 // (necessary for the monitor shutdown thread to correctly
86 // terminate the module in case when CreateInstance() fails)
87 _pAtlModule->Lock();
88 CComObjectCached<T> *p;
89 m_hrCreate = CComObjectCached<T>::CreateInstance(&p);
90 if (SUCCEEDED(m_hrCreate))
91 {
92 m_hrCreate = p->QueryInterface(IID_IUnknown, (void**)&m_spObj);
93 if (FAILED(m_hrCreate))
94 {
95 delete p;
96 }
97 }
98 _pAtlModule->Unlock();
99 }
100 }
101 __finally
102 {
103 Unlock();
104 }
105 }
106 if (m_hrCreate == S_OK)
107 {
108 hRes = m_spObj->QueryInterface(riid, ppvObj);
109 }
110 else
111 {
112 hRes = m_hrCreate;
113 }
114 }
115 }
116 return hRes;
117 }
118 HRESULT m_hrCreate;
119 CComPtr<IUnknown> m_spObj;
120};
121
122#endif // !defined (VBOX_WITH_XPCOM)
123
124// macros
125////////////////////////////////////////////////////////////////////////////////
126
127/**
128 * Special version of the Assert macro to be used within VirtualBoxBase
129 * subclasses that also inherit the VirtualBoxSupportErrorInfoImpl template.
130 *
131 * In the debug build, this macro is equivalent to Assert.
132 * In the release build, this macro uses |setError (E_FAIL, ...)| to set the
133 * error info from the asserted expression.
134 *
135 * @see VirtualBoxSupportErrorInfoImpl::setError
136 *
137 * @param expr Expression which should be true.
138 */
139#if defined (DEBUG)
140#define ComAssert(expr) Assert (expr)
141#else
142#define ComAssert(expr) \
143 do { \
144 if (!(expr)) \
145 setError (E_FAIL, "Assertion failed: [%s] at '%s' (%d) in %s.\n" \
146 "Please contact the product vendor!", \
147 #expr, __FILE__, __LINE__, __PRETTY_FUNCTION__); \
148 } while (0)
149#endif
150
151/**
152 * Special version of the AssertMsg macro to be used within VirtualBoxBase
153 * subclasses that also inherit the VirtualBoxSupportErrorInfoImpl template.
154 *
155 * See ComAssert for more info.
156 *
157 * @param expr Expression which should be true.
158 * @param a printf argument list (in parenthesis).
159 */
160#if defined (DEBUG)
161#define ComAssertMsg(expr, a) AssertMsg (expr, a)
162#else
163#define ComAssertMsg(expr, a) \
164 do { \
165 if (!(expr)) \
166 setError (E_FAIL, "Assertion failed: [%s] at '%s' (%d) in %s.\n" \
167 "%s.\n" \
168 "Please contact the product vendor!", \
169 #expr, __FILE__, __LINE__, __PRETTY_FUNCTION__, Utf8StrFmt a .raw()); \
170 } while (0)
171#endif
172
173/**
174 * Special version of the AssertRC macro to be used within VirtualBoxBase
175 * subclasses that also inherit the VirtualBoxSupportErrorInfoImpl template.
176 *
177 * See ComAssert for more info.
178 *
179 * @param vrc VBox status code.
180 */
181#if defined (DEBUG)
182#define ComAssertRC(vrc) AssertRC (vrc)
183#else
184#define ComAssertRC(vrc) ComAssertMsgRC (vrc, ("%Vra", vrc))
185#endif
186
187/**
188 * Special version of the AssertMsgRC macro to be used within VirtualBoxBase
189 * subclasses that also inherit the VirtualBoxSupportErrorInfoImpl template.
190 *
191 * See ComAssert for more info.
192 *
193 * @param vrc VBox status code.
194 * @param msg printf argument list (in parenthesis).
195 */
196#if defined (DEBUG)
197#define ComAssertMsgRC(vrc, msg) AssertMsgRC (vrc, msg)
198#else
199#define ComAssertMsgRC(vrc, msg) ComAssertMsg (VBOX_SUCCESS (vrc), msg)
200#endif
201
202
203/**
204 * Special version of the AssertFailed macro to be used within VirtualBoxBase
205 * subclasses that also inherit the VirtualBoxSupportErrorInfoImpl template.
206 *
207 * See ComAssert for more info.
208 */
209#if defined (DEBUG)
210#define ComAssertFailed() AssertFailed()
211#else
212#define ComAssertFailed() \
213 do { \
214 setError (E_FAIL, "Assertion failed at '%s' (%d) in %s.\n" \
215 "Please contact the product vendor!", \
216 __FILE__, __LINE__, __PRETTY_FUNCTION__); \
217 } while (0)
218#endif
219
220/**
221 * Special version of the AssertMsgFailed macro to be used within VirtualBoxBase
222 * subclasses that also inherit the VirtualBoxSupportErrorInfoImpl template.
223 *
224 * See ComAssert for more info.
225 *
226 * @param a printf argument list (in parenthesis).
227 */
228#if defined (DEBUG)
229#define ComAssertMsgFailed(a) AssertMsgFailed(a)
230#else
231#define ComAssertMsgFailed(a) \
232 do { \
233 setError (E_FAIL, "Assertion failed at '%s' (%d) in %s.\n" \
234 "%s.\n" \
235 "Please contact the product vendor!", \
236 __FILE__, __LINE__, __PRETTY_FUNCTION__, Utf8StrFmt a .raw()); \
237 } while (0)
238#endif
239
240/**
241 * Special version of the ComAssertMsgFailed macro that additionally takes
242 * line number, file and function arguments to inject an assertion position
243 * that differs from the position where this macro is instantiated.
244 *
245 * @param a printf argument list (in parenthesis).
246 * @param file, line, func Line number (int), file and function (const char *).
247 */
248#if defined (DEBUG)
249#define ComAssertMsgFailedPos(a, file, line, func) \
250 do { \
251 AssertMsg1 ((const char *) 0, line, file, func); \
252 AssertMsg2 a; \
253 AssertBreakpoint(); \
254 } while (0)
255#else
256#define ComAssertMsgFailedPos(a, file, line, func) \
257 do { \
258 setError (E_FAIL, \
259 "Assertion failed at '%s' (%d) in %s.\n" \
260 "%s.\n" \
261 "Please contact the product vendor!", \
262 file, line, func, Utf8StrFmt a .raw()); \
263 } while (0)
264#endif
265
266/**
267 * Special version of the AssertComRC macro to be used within VirtualBoxBase
268 * subclasses that also inherit the VirtualBoxSupportErrorInfoImpl template.
269 *
270 * See ComAssert for more info.
271 *
272 * @param rc COM result code
273 */
274#if defined (DEBUG)
275#define ComAssertComRC(rc) AssertComRC (rc)
276#else
277#define ComAssertComRC(rc) ComAssertMsg (SUCCEEDED (rc), ("COM RC = 0x%08X\n", rc))
278#endif
279
280
281/** Special version of ComAssert that returns ret if expr fails */
282#define ComAssertRet(expr, ret) \
283 do { ComAssert (expr); if (!(expr)) return (ret); } while (0)
284/** Special version of ComAssertMsg that returns ret if expr fails */
285#define ComAssertMsgRet(expr, a, ret) \
286 do { ComAssertMsg (expr, a); if (!(expr)) return (ret); } while (0)
287/** Special version of ComAssertRC that returns ret if vrc does not succeed */
288#define ComAssertRCRet(vrc, ret) \
289 do { ComAssertRC (vrc); if (!VBOX_SUCCESS (vrc)) return (ret); } while (0)
290/** Special version of ComAssertMsgRC that returns ret if vrc does not succeed */
291#define ComAssertMsgRCRet(vrc, msg, ret) \
292 do { ComAssertMsgRC (vrc, msg); if (!VBOX_SUCCESS (vrc)) return (ret); } while (0)
293/** Special version of ComAssertFailed that returns ret */
294#define ComAssertFailedRet(ret) \
295 do { ComAssertFailed(); return (ret); } while (0)
296/** Special version of ComAssertMsgFailed that returns ret */
297#define ComAssertMsgFailedRet(msg, ret) \
298 do { ComAssertMsgFailed (msg); return (ret); } while (0)
299/** Special version of ComAssertComRC that returns ret if rc does not succeed */
300#define ComAssertComRCRet(rc, ret) \
301 do { ComAssertComRC (rc); if (!SUCCEEDED (rc)) return (ret); } while (0)
302/** Special version of ComAssertComRC that returns rc if rc does not succeed */
303#define ComAssertComRCRetRC(rc) \
304 do { ComAssertComRC (rc); if (!SUCCEEDED (rc)) return (rc); } while (0)
305
306
307/** Special version of ComAssert that evaulates eval and breaks if expr fails */
308#define ComAssertBreak(expr, eval) \
309 if (1) { ComAssert (expr); if (!(expr)) { eval; break; } } else do {} while (0)
310/** Special version of ComAssertMsg that evaulates eval and breaks if expr fails */
311#define ComAssertMsgBreak(expr, a, eval) \
312 if (1) { ComAssertMsg (expr, a); if (!(expr)) { eval; break; } } else do {} while (0)
313/** Special version of ComAssertRC that evaulates eval and breaks if vrc does not succeed */
314#define ComAssertRCBreak(vrc, eval) \
315 if (1) { ComAssertRC (vrc); if (!VBOX_SUCCESS (vrc)) { eval; break; } } else do {} while (0)
316/** Special version of ComAssertMsgRC that evaulates eval and breaks if vrc does not succeed */
317#define ComAssertMsgRCBreak(vrc, msg, eval) \
318 if (1) { ComAssertMsgRC (vrc, msg); if (!VBOX_SUCCESS (vrc)) { eval; break; } } else do {} while (0)
319/** Special version of ComAssertFailed that evaulates eval and breaks */
320#define ComAssertFailedBreak(eval) \
321 if (1) { ComAssertFailed(); { eval; break; } } else do {} while (0)
322/** Special version of ComAssertMsgFailed that evaulates eval and breaks */
323#define ComAssertMsgFailedBreak(msg, eval) \
324 if (1) { ComAssertMsgFailed (msg); { eval; break; } } else do {} while (0)
325/** Special version of ComAssertComRC that evaulates eval and breaks if rc does not succeed */
326#define ComAssertComRCBreak(rc, eval) \
327 if (1) { ComAssertComRC (rc); if (!SUCCEEDED (rc)) { eval; break; } } else do {} while (0)
328/** Special version of ComAssertComRC that just breaks if rc does not succeed */
329#define ComAssertComRCBreakRC(rc) \
330 if (1) { ComAssertComRC (rc); if (!SUCCEEDED (rc)) { break; } } else do {} while (0)
331
332
333/** Special version of ComAssert that evaulates eval and throws it if expr fails */
334#define ComAssertThrow(expr, eval) \
335 if (1) { ComAssert (expr); if (!(expr)) { throw (eval); } } else do {} while (0)
336/** Special version of ComAssertMsg that evaulates eval and throws it if expr fails */
337#define ComAssertMsgThrow(expr, a, eval) \
338 if (1) { ComAssertMsg (expr, a); if (!(expr)) { throw (eval); } } else do {} while (0)
339/** Special version of ComAssertRC that evaulates eval and throws it if vrc does not succeed */
340#define ComAssertRCThrow(vrc, eval) \
341 if (1) { ComAssertRC (vrc); if (!VBOX_SUCCESS (vrc)) { throw (eval); } } else do {} while (0)
342/** Special version of ComAssertMsgRC that evaulates eval and throws it if vrc does not succeed */
343#define ComAssertMsgRCThrow(vrc, msg, eval) \
344 if (1) { ComAssertMsgRC (vrc, msg); if (!VBOX_SUCCESS (vrc)) { throw (eval); } } else do {} while (0)
345/** Special version of ComAssertFailed that evaulates eval and throws it */
346#define ComAssertFailedThrow(eval) \
347 if (1) { ComAssertFailed(); { throw (eval); } } else do {} while (0)
348/** Special version of ComAssertMsgFailed that evaulates eval and throws it */
349#define ComAssertMsgFailedThrow(msg, eval) \
350 if (1) { ComAssertMsgFailed (msg); { throw (eval); } } else do {} while (0)
351/** Special version of ComAssertComRC that evaulates eval and throws it if rc does not succeed */
352#define ComAssertComRCThrow(rc, eval) \
353 if (1) { ComAssertComRC (rc); if (!SUCCEEDED (rc)) { throw (eval); } } else do {} while (0)
354/** Special version of ComAssertComRC that just throws rc if rc does not succeed */
355#define ComAssertComRCThrowRC(rc) \
356 if (1) { ComAssertComRC (rc); if (!SUCCEEDED (rc)) { throw rc; } } else do {} while (0)
357
358
359/// @todo (dmik) remove after we switch to VirtualBoxBaseNEXT completely
360/**
361 * Checks whether this object is ready or not. Objects are typically ready
362 * after they are successfully created by their parent objects and become
363 * not ready when the respective parent itsef becomes not ready or gets
364 * destroyed while a reference to the child is still held by the caller
365 * (which prevents it from destruction).
366 *
367 * When this object is not ready, the macro sets error info and returns
368 * E_UNEXPECTED (the translatable error message is defined in null context).
369 * Otherwise, the macro does nothing.
370 *
371 * This macro <b>must</b> be used at the beginning of all interface methods
372 * (right after entering the class lock) in classes derived from both
373 * VirtualBoxBase and VirtualBoxSupportErrorInfoImpl.
374 */
375#define CHECK_READY() \
376 do { \
377 if (!isReady()) \
378 return setError (E_UNEXPECTED, tr ("The object is not ready")); \
379 } while (0)
380
381/**
382 * Declares an empty construtor and destructor for the given class.
383 * This is useful to prevent the compiler from generating the default
384 * ctor and dtor, which in turn allows to use forward class statements
385 * (instead of including their header files) when declaring data members of
386 * non-fundamental types with constructors (which are always called implicitly
387 * by constructors and by the destructor of the class).
388 *
389 * This macro is to be palced within (the public section of) the class
390 * declaration. Its counterpart, DEFINE_EMPTY_CTOR_DTOR, must be placed
391 * somewhere in one of the translation units (usually .cpp source files).
392 *
393 * @param cls class to declare a ctor and dtor for
394 */
395#define DECLARE_EMPTY_CTOR_DTOR(cls) cls(); ~cls();
396
397/**
398 * Defines an empty construtor and destructor for the given class.
399 * See DECLARE_EMPTY_CTOR_DTOR for more info.
400 */
401#define DEFINE_EMPTY_CTOR_DTOR(cls) \
402 cls::cls () {}; cls::~cls () {};
403
404////////////////////////////////////////////////////////////////////////////////
405
406namespace stdx
407{
408 /**
409 * A wrapper around the container that owns pointers it stores.
410 *
411 * @note
412 * Ownership is recognized only when destructing the container!
413 * Pointers are not deleted when erased using erase() etc.
414 *
415 * @param container
416 * class that meets Container requirements (for example, an instance of
417 * std::list<>, std::vector<> etc.). The given class must store
418 * pointers (for example, std::list <MyType *>).
419 */
420 template <typename container>
421 class ptr_container : public container
422 {
423 public:
424 ~ptr_container()
425 {
426 for (typename container::iterator it = container::begin();
427 it != container::end();
428 ++ it)
429 delete (*it);
430 }
431 };
432}
433
434////////////////////////////////////////////////////////////////////////////////
435
436class ATL_NO_VTABLE VirtualBoxBaseNEXT_base
437#if !defined (VBOX_WITH_XPCOM)
438 : public CComObjectRootEx <CComMultiThreadModel>
439#else
440 : public CComObjectRootEx
441#endif
442 , public Lockable
443{
444public:
445
446 enum State { NotReady, Ready, InInit, InUninit, InitFailed, Limited };
447
448protected:
449
450 VirtualBoxBaseNEXT_base();
451 virtual ~VirtualBoxBaseNEXT_base();
452
453public:
454
455 // util::Lockable interface
456 virtual RWLockHandle *lockHandle() const;
457
458 /**
459 * Virtual unintialization method.
460 * Must be called by all implementations (COM classes) when the last
461 * reference to the object is released, before calling the destructor.
462 * Also, this method is called automatically by the uninit() method of the
463 * parent of this object, when this object is a dependent child of a class
464 * derived from VirtualBoxBaseWithChildren (@sa
465 * VirtualBoxBaseWithChildren::addDependentChild).
466 */
467 virtual void uninit() {}
468
469 virtual HRESULT addCaller (State *aState = NULL, bool aLimited = false);
470 virtual void releaseCaller();
471
472 /**
473 * Adds a limited caller. This method is equivalent to doing
474 * <tt>addCaller (aState, true)</tt>, but it is preferred because
475 * provides better self-descriptiveness. See #addCaller() for more info.
476 */
477 HRESULT addLimitedCaller (State *aState = NULL)
478 {
479 return addCaller (aState, true /* aLimited */);
480 }
481
482 /**
483 * Smart class that automatically increases the number of callers of the
484 * given VirtualBoxBase object when an instance is constructed and decreases
485 * it back when the created instance goes out of scope (i.e. gets destroyed).
486 *
487 * If #rc() returns a failure after the instance creation, it means that
488 * the managed VirtualBoxBase object is not Ready, or in any other invalid
489 * state, so that the caller must not use the object and can return this
490 * failed result code to the upper level.
491 *
492 * See VirtualBoxBase::addCaller(), VirtualBoxBase::addLimitedCaller() and
493 * VirtualBoxBase::releaseCaller() for more details about object callers.
494 *
495 * @param aLimited |false| if this template should use
496 * VirtualiBoxBase::addCaller() calls to add callers, or
497 * |true| if VirtualiBoxBase::addLimitedCaller() should be
498 * used.
499 *
500 * @note It is preferrable to use the AutoCaller and AutoLimitedCaller
501 * classes than specify the @a aLimited argument, for better
502 * self-descriptiveness.
503 */
504 template <bool aLimited>
505 class AutoCallerBase
506 {
507 public:
508
509 /**
510 * Increases the number of callers of the given object
511 * by calling VirtualBoxBase::addCaller().
512 *
513 * @param aObj Object to add a caller to. If NULL, this
514 * instance is effectively turned to no-op (where
515 * rc() will return S_OK and state() will be
516 * NotReady).
517 */
518 AutoCallerBase (VirtualBoxBaseNEXT_base *aObj)
519 : mObj (aObj)
520 , mRC (S_OK)
521 , mState (NotReady)
522 {
523 if (mObj)
524 mRC = mObj->addCaller (&mState, aLimited);
525 }
526
527 /**
528 * If the number of callers was successfully increased,
529 * decreases it using VirtualBoxBase::releaseCaller(), otherwise
530 * does nothing.
531 */
532 ~AutoCallerBase()
533 {
534 if (mObj && SUCCEEDED (mRC))
535 mObj->releaseCaller();
536 }
537
538 /**
539 * Stores the result code returned by VirtualBoxBase::addCaller()
540 * after instance creation or after the last #add() call. A successful
541 * result code means the number of callers was successfully increased.
542 */
543 HRESULT rc() const { return mRC; }
544
545 /**
546 * Returns |true| if |SUCCEEDED (rc())| is |true|, for convenience.
547 * |true| means the number of callers was successfully increased.
548 */
549 bool isOk() const { return SUCCEEDED (mRC); }
550
551 /**
552 * Stores the object state returned by VirtualBoxBase::addCaller()
553 * after instance creation or after the last #add() call.
554 */
555 State state() const { return mState; }
556
557 /**
558 * Temporarily decreases the number of callers of the managed object.
559 * May only be called if #isOk() returns |true|. Note that #rc() will
560 * return E_FAIL after this method succeeds.
561 */
562 void release()
563 {
564 Assert (SUCCEEDED (mRC));
565 if (SUCCEEDED (mRC))
566 {
567 if (mObj)
568 mObj->releaseCaller();
569 mRC = E_FAIL;
570 }
571 }
572
573 /**
574 * Restores the number of callers decreased by #release(). May only
575 * be called after #release().
576 */
577 void add()
578 {
579 Assert (!SUCCEEDED (mRC));
580 if (mObj && !SUCCEEDED (mRC))
581 mRC = mObj->addCaller (&mState, aLimited);
582 }
583
584 private:
585
586 DECLARE_CLS_COPY_CTOR_ASSIGN_NOOP (AutoCallerBase)
587 DECLARE_CLS_NEW_DELETE_NOOP (AutoCallerBase)
588
589 VirtualBoxBaseNEXT_base *mObj;
590 HRESULT mRC;
591 State mState;
592 };
593
594 /**
595 * Smart class that automatically increases the number of normal
596 * (non-limited) callers of the given VirtualBoxBase object when an
597 * instance is constructed and decreases it back when the created instance
598 * goes out of scope (i.e. gets destroyed).
599 *
600 * A typical usage pattern to declare a normal method of some object
601 * (i.e. a method that is valid only when the object provides its
602 * full functionality) is:
603 * <code>
604 * STDMETHODIMP Component::Foo()
605 * {
606 * AutoCaller autoCaller (this);
607 * CheckComRCReturnRC (autoCaller.rc());
608 * ...
609 * </code>
610 *
611 * Using this class is equivalent to using the AutoCallerBase template
612 * with the @a aLimited argument set to |false|, but this class is
613 * preferred because provides better self-descriptiveness.
614 *
615 * See AutoCallerBase for more information about auto caller functionality.
616 */
617 typedef AutoCallerBase <false> AutoCaller;
618
619 /**
620 * Smart class that automatically increases the number of limited callers
621 * of the given VirtualBoxBase object when an instance is constructed and
622 * decreases it back when the created instance goes out of scope (i.e.
623 * gets destroyed).
624 *
625 * A typical usage pattern to declare a limited method of some object
626 * (i.e. a method that is valid even if the object doesn't provide its
627 * full functionality) is:
628 * <code>
629 * STDMETHODIMP Component::Bar()
630 * {
631 * AutoLimitedCaller autoCaller (this);
632 * CheckComRCReturnRC (autoCaller.rc());
633 * ...
634 * </code>
635 *
636 * Using this class is equivalent to using the AutoCallerBase template
637 * with the @a aLimited argument set to |true|, but this class is
638 * preferred because provides better self-descriptiveness.
639 *
640 * See AutoCallerBase for more information about auto caller functionality.
641 */
642 typedef AutoCallerBase <true> AutoLimitedCaller;
643
644protected:
645
646 /**
647 * Smart class to enclose the state transition NotReady->InInit->Ready.
648 *
649 * Instances must be created at the beginning of init() methods of
650 * VirtualBoxBase subclasses as a stack-based variable using |this| pointer
651 * as the argument. When this variable is created it automatically places
652 * the object to the InInit state.
653 *
654 * When the created variable goes out of scope (i.e. gets destroyed),
655 * depending on the success status of this initialization span, it either
656 * places the object to the Ready state or calls the object's
657 * VirtualBoxBase::uninit() method which is supposed to place the object
658 * back to the NotReady state using the AutoUninitSpan class.
659 *
660 * The initial success status of the initialization span is determined by
661 * the @a aSuccess argument of the AutoInitSpan constructor (|false| by
662 * default). Inside the initialization span, the success status can be set
663 * to |true| using #setSucceeded() or to |false| using #setFailed(). Please
664 * don't forget to set the correct success status before letting the
665 * AutoInitSpan variable go out of scope (for example, by performing an
666 * early return from the init() method)!
667 *
668 * Note that if an instance of this class gets constructed when the
669 * object is in the state other than NotReady, #isOk() returns |false| and
670 * methods of this class do nothing: the state transition is not performed.
671 *
672 * A typical usage pattern is:
673 * <code>
674 * HRESULT Component::init()
675 * {
676 * AutoInitSpan autoInitSpan (this);
677 * AssertReturn (autoInitSpan.isOk(), E_UNEXPECTED);
678 * ...
679 * if (FAILED (rc))
680 * return rc;
681 * ...
682 * if (SUCCEEDED (rc))
683 * autoInitSpan.setSucceeded();
684 * return rc;
685 * }
686 * </code>
687 *
688 * @note Never create instances of this class outside init() methods of
689 * VirtualBoxBase subclasses and never pass anything other than |this| as
690 * the argument to the constructor!
691 */
692 class AutoInitSpan
693 {
694 public:
695
696 enum Status { Failed = 0x0, Succeeded = 0x1, Limited = 0x2 };
697
698 AutoInitSpan (VirtualBoxBaseNEXT_base *aObj, Status aStatus = Failed);
699 ~AutoInitSpan();
700
701 /**
702 * Returns |true| if this instance has been created at the right moment
703 * (when the object was in the NotReady state) and |false| otherwise.
704 */
705 bool isOk() const { return mOk; }
706
707 /**
708 * Sets the initialization status to Succeeded to indicates successful
709 * initialization. The AutoInitSpan destructor will place the managed
710 * VirtualBoxBase object to the Ready state.
711 */
712 void setSucceeded() { mStatus = Succeeded; }
713
714 /**
715 * Sets the initialization status to Succeeded to indicate limited
716 * (partly successful) initialization. The AutoInitSpan destructor will
717 * place the managed VirtualBoxBase object to the Limited state.
718 */
719 void setLimited() { mStatus = Limited; }
720
721 /**
722 * Sets the initialization status to Failure to indicates failed
723 * initialization. The AutoInitSpan destructor will place the managed
724 * VirtualBoxBase object to the InitFailed state and will automatically
725 * call its uninit() method which is supposed to place the object back
726 * to the NotReady state using AutoUninitSpan.
727 */
728 void setFailed() { mStatus = Failed; }
729
730 /** Returns the current initialization status. */
731 Status status() { return mStatus; }
732
733 private:
734
735 DECLARE_CLS_COPY_CTOR_ASSIGN_NOOP (AutoInitSpan)
736 DECLARE_CLS_NEW_DELETE_NOOP (AutoInitSpan)
737
738 VirtualBoxBaseNEXT_base *mObj;
739 Status mStatus : 3; // must be at least total number of bits + 1 (sign)
740 bool mOk : 1;
741 };
742
743 /**
744 * Smart class to enclose the state transition Limited->InInit->Ready.
745 *
746 * Instances must be created at the beginning of methods of VirtualBoxBase
747 * subclasses that try to re-initialize the object to bring it to the
748 * Ready state (full functionality) after partial initialization
749 * (limited functionality)>, as a stack-based variable using |this| pointer
750 * as the argument. When this variable is created it automatically places
751 * the object to the InInit state.
752 *
753 * When the created variable goes out of scope (i.e. gets destroyed),
754 * depending on the success status of this initialization span, it either
755 * places the object to the Ready state or brings it back to the Limited
756 * state.
757 *
758 * The initial success status of the re-initialization span is |false|.
759 * In order to make it successful, #setSucceeded() must be called before
760 * the instance is destroyed.
761 *
762 * Note that if an instance of this class gets constructed when the
763 * object is in the state other than Limited, #isOk() returns |false| and
764 * methods of this class do nothing: the state transition is not performed.
765 *
766 * A typical usage pattern is:
767 * <code>
768 * HRESULT Component::reinit()
769 * {
770 * AutoReadySpan autoReadySpan (this);
771 * AssertReturn (autoReadySpan.isOk(), E_UNEXPECTED);
772 * ...
773 * if (FAILED (rc))
774 * return rc;
775 * ...
776 * if (SUCCEEDED (rc))
777 * autoReadySpan.setSucceeded();
778 * return rc;
779 * }
780 * </code>
781 *
782 * @note Never create instances of this class outside re-initialization
783 * methods of VirtualBoxBase subclasses and never pass anything other than
784 * |this| as the argument to the constructor!
785 */
786 class AutoReadySpan
787 {
788 public:
789
790 AutoReadySpan (VirtualBoxBaseNEXT_base *aObj);
791 ~AutoReadySpan();
792
793 /**
794 * Returns |true| if this instance has been created at the right moment
795 * (when the object was in the Limited state) and |false| otherwise.
796 */
797 bool isOk() const { return mOk; }
798
799 /**
800 * Sets the re-initialization status to Succeeded to indicates
801 * successful re-initialization. The AutoReadySpan destructor will
802 * place the managed VirtualBoxBase object to the Ready state.
803 */
804 void setSucceeded() { mSucceeded = true; }
805
806 private:
807
808 DECLARE_CLS_COPY_CTOR_ASSIGN_NOOP (AutoReadySpan)
809 DECLARE_CLS_NEW_DELETE_NOOP (AutoReadySpan)
810
811 VirtualBoxBaseNEXT_base *mObj;
812 bool mSucceeded : 1;
813 bool mOk : 1;
814 };
815
816 /**
817 * Smart class to enclose the state transition Ready->InUnnit->NotReady or
818 * InitFailed->InUnnit->NotReady.
819 *
820 * Must be created at the beginning of uninit() methods of VirtualBoxBase
821 * subclasses as a stack-based variable using |this| pointer as the argument.
822 * When this variable is created it automatically places the object to the
823 * InUninit state, unless it is already in the NotReady state as indicated
824 * by #uninitDone() returning |true|. In the latter case, the uninit()
825 * method must immediately return because there should be nothing to
826 * uninitialize.
827 *
828 * When this variable goes out of scope (i.e. gets destroyed), it places
829 * the object to the NotReady state.
830 *
831 * A typical usage pattern is:
832 * <code>
833 * void Component::uninit()
834 * {
835 * AutoUninitSpan autoUninitSpan (this);
836 * if (autoUninitSpan.uninitDone())
837 * retrun;
838 * ...
839 * </code>
840 *
841 * @note Never create instances of this class outside uninit() methods and
842 * never pass anything other than |this| as the argument to the constructor!
843 */
844 class AutoUninitSpan
845 {
846 public:
847
848 AutoUninitSpan (VirtualBoxBaseNEXT_base *aObj);
849 ~AutoUninitSpan();
850
851 /** |true| when uninit() is called as a result of init() failure */
852 bool initFailed() { return mInitFailed; }
853
854 /** |true| when uninit() has already been called (so the object is NotReady) */
855 bool uninitDone() { return mUninitDone; }
856
857 private:
858
859 DECLARE_CLS_COPY_CTOR_ASSIGN_NOOP (AutoUninitSpan)
860 DECLARE_CLS_NEW_DELETE_NOOP (AutoUninitSpan)
861
862 VirtualBoxBaseNEXT_base *mObj;
863 bool mInitFailed : 1;
864 bool mUninitDone : 1;
865 };
866
867 /**
868 * Returns a lock handle used to protect the primary state fields (used by
869 * #addCaller(), AutoInitSpan, AutoUninitSpan, etc.). Only intended to be
870 * used for similar purposes in subclasses. WARNING: NO any other locks may
871 * be requested while holding this lock!
872 */
873 WriteLockHandle *stateLockHandle() { return &mStateLock; }
874
875private:
876
877 void setState (State aState)
878 {
879 Assert (mState != aState);
880 mState = aState;
881 mStateChangeThread = RTThreadSelf();
882 }
883
884 /** Primary state of this object */
885 State mState;
886 /** Thread that caused the last state change */
887 RTTHREAD mStateChangeThread;
888 /** Total number of active calls to this object */
889 unsigned mCallers;
890 /** Semaphore posted when the number of callers drops to zero */
891 RTSEMEVENT mZeroCallersSem;
892 /** Semaphore posted when the object goes from InInit some other state */
893 RTSEMEVENTMULTI mInitDoneSem;
894 /** Number of threads waiting for mInitDoneSem */
895 unsigned mInitDoneSemUsers;
896
897 /** Protects access to state related data members */
898 WriteLockHandle mStateLock;
899
900 /** User-level object lock for subclasses */
901 mutable RWLockHandle *mObjectLock;
902};
903
904/**
905 * This macro adds the error info support to methods of the VirtualBoxBase
906 * class (by overriding them). Place it to the public section of the
907 * VirtualBoxBase subclass and the following methods will set the extended
908 * error info in case of failure instead of just returning the result code:
909 *
910 * <ul>
911 * <li>VirtualBoxBase::addCaller()
912 * </ul>
913 *
914 * @note The given VirtualBoxBase subclass must also inherit from both
915 * VirtualBoxSupportErrorInfoImpl and VirtualBoxSupportTranslation templates!
916 *
917 * @param C VirtualBoxBase subclass to add the error info support to
918 */
919#define VIRTUALBOXBASE_ADD_ERRORINFO_SUPPORT(C) \
920 virtual HRESULT addCaller (VirtualBoxBaseNEXT_base::State *aState = NULL, \
921 bool aLimited = false) \
922 { \
923 VirtualBoxBaseNEXT_base::State state; \
924 HRESULT rc = VirtualBoxBaseNEXT_base::addCaller (&state, aLimited); \
925 if (FAILED (rc)) \
926 { \
927 if (state == VirtualBoxBaseNEXT_base::Limited) \
928 rc = setError (rc, tr ("The object functonality is limited")); \
929 else \
930 rc = setError (rc, tr ("The object is not ready")); \
931 } \
932 if (aState) \
933 *aState = state; \
934 return rc; \
935 } \
936
937////////////////////////////////////////////////////////////////////////////////
938
939/// @todo (dmik) remove after we switch to VirtualBoxBaseNEXT completely
940class ATL_NO_VTABLE VirtualBoxBase : public VirtualBoxBaseNEXT_base
941//#if !defined (VBOX_WITH_XPCOM)
942// : public CComObjectRootEx<CComMultiThreadModel>
943//#else
944// : public CComObjectRootEx
945//#endif
946{
947
948public:
949 VirtualBoxBase()
950 {
951 mReady = false;
952 }
953 virtual ~VirtualBoxBase()
954 {
955 }
956
957 /**
958 * Virtual unintialization method. Called during parent object's
959 * uninitialization, if the given subclass instance is a dependent child of
960 * a class dervived from VirtualBoxBaseWithChildren (@sa
961 * VirtualBoxBaseWithChildren::addDependentChild). In this case, this
962 * method's impelemtation must call setReady (false),
963 */
964 virtual void uninit() {}
965
966
967 // sets the ready state of the object
968 void setReady(bool isReady)
969 {
970 mReady = isReady;
971 }
972 // get the ready state of the object
973 bool isReady()
974 {
975 return mReady;
976 }
977
978 static const char *translate (const char *context, const char *sourceText,
979 const char *comment = 0);
980
981private:
982
983 // flag determining whether an object is ready
984 // for usage, i.e. methods may be called
985 bool mReady;
986 // mutex semaphore to lock the object
987};
988
989/**
990 * Temporary class to disable deprecated methods of VirtualBoxBase.
991 * Can be used as a base for components that are completely switched to
992 * the new locking scheme (VirtualBoxBaseNEXT_base).
993 *
994 * @todo remove after we switch to VirtualBoxBaseNEXT completely.
995 */
996class VirtualBoxBaseNEXT : public VirtualBoxBase
997{
998private:
999
1000 void lock();
1001 void unlock();
1002 void setReady (bool isReady);
1003 bool isReady();
1004};
1005
1006////////////////////////////////////////////////////////////////////////////////
1007
1008/** Helper for VirtualBoxSupportTranslation */
1009class VirtualBoxSupportTranslationBase
1010{
1011protected:
1012 static bool cutClassNameFrom__PRETTY_FUNCTION__ (char *prettyFunctionName);
1013};
1014
1015/**
1016 * This template implements the NLS string translation support for the
1017 * given class by providing a #tr() function.
1018 *
1019 * @param C class that needs to support the string translation
1020 *
1021 * @note
1022 * Every class that wants to use the #tr() function in its own methods must
1023 * inherit from this template, regardless of whether its base class (if any)
1024 * inherits from it or not! Otherwise, the translation service will not
1025 * work correctly. However, the declaration of the resulting class must
1026 * contain the VIRTUALBOXSUPPORTTRANSLATION_OVERRIDE(<ClassName>) macro
1027 * if one of its base classes also inherits from this template (to resolve
1028 * the ambiguity of the #tr() function).
1029 */
1030template <class C>
1031class VirtualBoxSupportTranslation : virtual protected VirtualBoxSupportTranslationBase
1032{
1033public:
1034
1035 /**
1036 * Translates the given text string according to the currently installed
1037 * translation table and current context, which is determined by the
1038 * class name. See VirtualBoxBase::translate() for more info.
1039 *
1040 * @param sourceText the string to translate
1041 * @param comment the comment to the string (NULL means no comment)
1042 *
1043 * @return
1044 * the translated version of the source string in UTF-8 encoding,
1045 * or the source string itself if the translation is not found in
1046 * the current context.
1047 */
1048 inline static const char *tr (const char *sourceText, const char *comment = 0)
1049 {
1050 return VirtualBoxBase::translate (getClassName(), sourceText, comment);
1051 }
1052
1053protected:
1054
1055 static const char *getClassName()
1056 {
1057 static char fn [sizeof (__PRETTY_FUNCTION__) + 1];
1058 if (!className)
1059 {
1060 strcpy (fn, __PRETTY_FUNCTION__);
1061 cutClassNameFrom__PRETTY_FUNCTION__ (fn);
1062 className = fn;
1063 }
1064 return className;
1065 }
1066
1067private:
1068
1069 static const char *className;
1070};
1071
1072template <class C>
1073const char *VirtualBoxSupportTranslation <C>::className = NULL;
1074
1075/**
1076 * This macro must be invoked inside the public section of the declaration of
1077 * the class inherited from the VirtualBoxSupportTranslation template, in case
1078 * when one of its other base classes also inherits from that template. This is
1079 * necessary to resolve the ambiguity of the #tr() function.
1080 *
1081 * @param C class that inherits from the VirtualBoxSupportTranslation template
1082 * more than once (through its other base clases)
1083 */
1084#define VIRTUALBOXSUPPORTTRANSLATION_OVERRIDE(C) \
1085 inline static const char *tr (const char *sourceText, const char *comment = 0) \
1086 { \
1087 return VirtualBoxSupportTranslation <C>::tr (sourceText, comment); \
1088 }
1089
1090/**
1091 * A dummy macro that is used to shut down Qt's lupdate tool warnings
1092 * in some situations. This macro needs to be present inside (better at the
1093 * very beginning) of the declaration of the class that inherits from
1094 * VirtualBoxSupportTranslation template, to make lupdate happy.
1095 */
1096#define Q_OBJECT
1097
1098////////////////////////////////////////////////////////////////////////////////
1099
1100/**
1101 * Helper for the VirtualBoxSupportErrorInfoImpl template.
1102 */
1103class VirtualBoxSupportErrorInfoImplBase
1104{
1105 static HRESULT setErrorInternal (HRESULT aResultCode, const GUID &aIID,
1106 const Bstr &aComponent, const Bstr &aText,
1107 bool aWarning);
1108
1109protected:
1110
1111 /**
1112 * The MultiResult class is a com::LWResult enhancement that also acts as a
1113 * switch to turn on multi-error mode for #setError() or #setWarning()
1114 * calls.
1115 *
1116 * When an instance of this class is created, multi-error mode is turned on
1117 * for the current thread and the turn-on counter is increased by one. In
1118 * multi-error mode, a call to #setError() or #setWarning() does not
1119 * overwrite the current error or warning info object possibly set on the
1120 * current thread by other method calls, but instead it stores this old
1121 * object in the IVirtualBoxErrorInfo::next attribute of the new error
1122 * object being set.
1123 *
1124 * This way, error/warning objects are stacked together and form a chain of
1125 * errors where the most recent error is the first one retrieved by the
1126 * calling party, the preceeding error is what the
1127 * IVirtualBoxErrorInfo::next attribute of the first error points to, and so
1128 * on, upto the first error or warning occured which is the last in the
1129 * chain. See IVirtualBoxErrorInfo documentation for more info.
1130 *
1131 * When the instance of the MultiResult class goes out of scope and gets
1132 * destroyed, it automatically decreases the turn-on counter by one. If
1133 * the counter drops to zero, multi-error mode for the current thread is
1134 * turned off and the thread switches back to single-error mode where every
1135 * next error or warning object overwrites the previous one.
1136 *
1137 * Note that the caller of a COM methid uses a non-S_OK result code to
1138 * decide if the method has returned an error (negative codes) or a warning
1139 * (positive non-zero codes) and will query extended error info only in
1140 * these two cases. However, since multi-error mode implies that the method
1141 * doesn't return control return to the caller immediately after the first
1142 * error or warning but continues its execution, the functionality provided
1143 * by the base com::LWResult class becomes very useful because it allows to
1144 * preseve the error or the warning result code even if it is later assigned
1145 * a S_OK value multiple times. See com::LWResult for details.
1146 *
1147 * Here is the typical usage pattern:
1148 * <code>
1149
1150 HRESULT Bar::method()
1151 {
1152 // assume multi-errors are turned off here...
1153
1154 if (something)
1155 {
1156 // Turn on multi-error mode and make sure severity is preserved
1157 MultiResult rc = foo->method1();
1158
1159 // return on fatal error, but continue on warning or on success
1160 CheckComRCReturnRC (rc);
1161
1162 rc = foo->method2();
1163 // no matter what result, stack it and continue
1164
1165 // ...
1166
1167 // return the last worst result code (it will be preserved even if
1168 // foo->method2() returns S_OK.
1169 return rc;
1170 }
1171
1172 // multi-errors are turned off here again...
1173
1174 return S_OK;
1175 }
1176
1177 * </code>
1178 *
1179 *
1180 * @note This class is intended to be instantiated on the stack, therefore
1181 * You cannot create them using new(). Although it is possible to copy
1182 * instances of MultiResult or return them by value, please never do
1183 * that as it is breaks the class semantics (and will assert);
1184 */
1185 class MultiResult : public com::LWResult
1186 {
1187 public:
1188
1189 /**
1190 * @see com::LWResult::LWResult().
1191 */
1192 MultiResult (HRESULT aRC = E_FAIL) : LWResult (aRC) { init(); }
1193
1194 MultiResult (const MultiResult &aThat) : LWResult (aThat)
1195 {
1196 /* We need this copy constructor only for GCC that wants to have
1197 * it in case of expressions like |MultiResult rc = E_FAIL;|. But
1198 * we assert since the optimizer should actually avoid the
1199 * temporary and call the other constructor directly istead. */
1200 AssertFailed();
1201 init();
1202 }
1203
1204 ~MultiResult();
1205
1206 MultiResult &operator= (HRESULT aRC)
1207 {
1208 com::LWResult::operator= (aRC);
1209 return *this;
1210 }
1211
1212 MultiResult &operator= (const MultiResult &aThat)
1213 {
1214 /* We need this copy constructor only for GCC that wants to have
1215 * it in case of expressions like |MultiResult rc = E_FAIL;|. But
1216 * we assert since the optimizer should actually avoid the
1217 * temporary and call the other constructor directly istead. */
1218 AssertFailed();
1219 com::LWResult::operator= (aThat);
1220 return *this;
1221 }
1222
1223 private:
1224
1225 DECLARE_CLS_NEW_DELETE_NOOP (MultiResult)
1226
1227 void init();
1228
1229 static RTTLS sCounter;
1230
1231 friend class VirtualBoxSupportErrorInfoImplBase;
1232 };
1233
1234 static HRESULT setError (HRESULT aResultCode, const GUID &aIID,
1235 const Bstr &aComponent,
1236 const Bstr &aText)
1237 {
1238 return setErrorInternal (aResultCode, aIID, aComponent, aText,
1239 false /* aWarning */);
1240 }
1241
1242 static HRESULT setWarning (HRESULT aResultCode, const GUID &aIID,
1243 const Bstr &aComponent,
1244 const Bstr &aText)
1245 {
1246 return setErrorInternal (aResultCode, aIID, aComponent, aText,
1247 true /* aWarning */);
1248 }
1249
1250 static HRESULT setError (HRESULT aResultCode, const GUID &aIID,
1251 const Bstr &aComponent,
1252 const char *aText, va_list aArgs)
1253 {
1254 return setErrorInternal (aResultCode, aIID, aComponent,
1255 Utf8StrFmtVA (aText, aArgs),
1256 false /* aWarning */);
1257 }
1258
1259 static HRESULT setWarning (HRESULT aResultCode, const GUID &aIID,
1260 const Bstr &aComponent,
1261 const char *aText, va_list aArgs)
1262 {
1263 return setErrorInternal (aResultCode, aIID, aComponent,
1264 Utf8StrFmtVA (aText, aArgs),
1265 true /* aWarning */);
1266 }
1267};
1268
1269/**
1270 * This template implements ISupportErrorInfo for the given component class
1271 * and provides the #setError() method to conveniently set the error information
1272 * from within interface methods' implementations.
1273 *
1274 * On Windows, the template argument must define a COM interface map using
1275 * BEGIN_COM_MAP / END_COM_MAP macros and this map must contain a
1276 * COM_INTERFACE_ENTRY(ISupportErrorInfo) definition. All interface entries
1277 * that follow it will be considered to support IErrorInfo, i.e. the
1278 * InterfaceSupportsErrorInfo() implementation will return S_OK for the
1279 * corresponding IID.
1280 *
1281 * On all platforms, the template argument must also define the following
1282 * method: |public static const wchar_t *C::getComponentName()|. See
1283 * #setError (HRESULT, const char *, ...) for a description on how it is
1284 * used.
1285 *
1286 * @param C
1287 * component class that implements one or more COM interfaces
1288 * @param I
1289 * default interface for the component. This interface's IID is used
1290 * by the shortest form of #setError, for convenience.
1291 */
1292template <class C, class I>
1293class ATL_NO_VTABLE VirtualBoxSupportErrorInfoImpl
1294 : protected VirtualBoxSupportErrorInfoImplBase
1295#if !defined (VBOX_WITH_XPCOM)
1296 , public ISupportErrorInfo
1297#else
1298#endif
1299{
1300public:
1301
1302#if !defined (VBOX_WITH_XPCOM)
1303 STDMETHOD(InterfaceSupportsErrorInfo) (REFIID riid)
1304 {
1305 const _ATL_INTMAP_ENTRY* pEntries = C::_GetEntries();
1306 Assert (pEntries);
1307 if (!pEntries)
1308 return S_FALSE;
1309
1310 BOOL bSupports = FALSE;
1311 BOOL bISupportErrorInfoFound = FALSE;
1312
1313 while (pEntries->pFunc != NULL && !bSupports)
1314 {
1315 if (!bISupportErrorInfoFound)
1316 {
1317 // skip the com map entries until ISupportErrorInfo is found
1318 bISupportErrorInfoFound =
1319 InlineIsEqualGUID (*(pEntries->piid), IID_ISupportErrorInfo);
1320 }
1321 else
1322 {
1323 // look for the requested interface in the rest of the com map
1324 bSupports = InlineIsEqualGUID (*(pEntries->piid), riid);
1325 }
1326 pEntries++;
1327 }
1328
1329 Assert (bISupportErrorInfoFound);
1330
1331 return bSupports ? S_OK : S_FALSE;
1332 }
1333#endif // !defined (VBOX_WITH_XPCOM)
1334
1335protected:
1336
1337 /**
1338 * Sets the error information for the current thread.
1339 * This information can be retrieved by a caller of an interface method
1340 * using IErrorInfo on Windows or nsIException on Linux, or the cross-platform
1341 * IVirtualBoxErrorInfo interface that provides extended error info (only
1342 * for components from the VirtualBox COM library). Alternatively, the
1343 * platform-independent class com::ErrorInfo (defined in VBox[XP]COM.lib)
1344 * can be used to retrieve error info in a convenient way.
1345 *
1346 * It is assumed that the interface method that uses this function returns
1347 * an unsuccessful result code to the caller (otherwise, there is no reason
1348 * for the caller to try to retrieve error info after method invocation).
1349 *
1350 * Here is a table of correspondence between this method's arguments
1351 * and IErrorInfo/nsIException/IVirtualBoxErrorInfo attributes/methods:
1352 *
1353 * argument IErrorInfo nsIException IVirtualBoxErrorInfo
1354 * ----------------------------------------------------------------
1355 * resultCode -- result resultCode
1356 * iid GetGUID -- interfaceID
1357 * component GetSource -- component
1358 * text GetDescription message text
1359 *
1360 * This method is rarely needs to be used though. There are more convenient
1361 * overloaded versions, that automatically substitute some arguments
1362 * taking their values from the template parameters. See
1363 * #setError (HRESULT, const char *, ...) for an example.
1364 *
1365 * @param aResultCode result (error) code, must not be S_OK
1366 * @param aIID IID of the intrface that defines the error
1367 * @param aComponent name of the component that generates the error
1368 * @param aText error message (must not be null), an RTStrPrintf-like
1369 * format string in UTF-8 encoding
1370 * @param ... list of arguments for the format string
1371 *
1372 * @return
1373 * the error argument, for convenience, If an error occures while
1374 * creating error info itself, that error is returned instead of the
1375 * error argument.
1376 */
1377 static HRESULT setError (HRESULT aResultCode, const GUID &aIID,
1378 const wchar_t *aComponent,
1379 const char *aText, ...)
1380 {
1381 va_list args;
1382 va_start (args, aText);
1383 HRESULT rc = VirtualBoxSupportErrorInfoImplBase::setError
1384 (aResultCode, aIID, aComponent, aText, args);
1385 va_end (args);
1386 return rc;
1387 }
1388
1389 /**
1390 * This method is the same as #setError() except that it makes sure @a
1391 * aResultCode doesn't have the error severty bit (31) set when passed
1392 * down to the created IVirtualBoxErrorInfo object.
1393 *
1394 * The error severity bit is always cleared by this call, thereofe you can
1395 * use ordinary E_XXX result code constancs, for convenience. However, this
1396 * behavior may be non-stanrard on some COM platforms.
1397 */
1398 static HRESULT setWarning (HRESULT aResultCode, const GUID &aIID,
1399 const wchar_t *aComponent,
1400 const char *aText, ...)
1401 {
1402 va_list args;
1403 va_start (args, aText);
1404 HRESULT rc = VirtualBoxSupportErrorInfoImplBase::setWarning
1405 (aResultCode, aIID, aComponent, aText, args);
1406 va_end (args);
1407 return rc;
1408 }
1409
1410 /**
1411 * Sets the error information for the current thread.
1412 * A convenience method that automatically sets the default interface
1413 * ID (taken from the I template argument) and the component name
1414 * (a value of C::getComponentName()).
1415 *
1416 * See #setError (HRESULT, const GUID &, const wchar_t *, const char *text, ...)
1417 * for details.
1418 *
1419 * This method is the most common (and convenient) way to set error
1420 * information from within interface methods. A typical pattern of usage
1421 * is looks like this:
1422 *
1423 * <code>
1424 * return setError (E_FAIL, "Terrible Error");
1425 * </code>
1426 * or
1427 * <code>
1428 * HRESULT rc = setError (E_FAIL, "Terrible Error");
1429 * ...
1430 * return rc;
1431 * </code>
1432 */
1433 static HRESULT setError (HRESULT aResultCode, const char *aText, ...)
1434 {
1435 va_list args;
1436 va_start (args, aText);
1437 HRESULT rc = VirtualBoxSupportErrorInfoImplBase::setError
1438 (aResultCode, COM_IIDOF(I), C::getComponentName(), aText, args);
1439 va_end (args);
1440 return rc;
1441 }
1442
1443 /**
1444 * This method is the same as #setError() except that it makes sure @a
1445 * aResultCode doesn't have the error severty bit (31) set when passed
1446 * down to the created IVirtualBoxErrorInfo object.
1447 *
1448 * The error severity bit is always cleared by this call, thereofe you can
1449 * use ordinary E_XXX result code constancs, for convenience. However, this
1450 * behavior may be non-stanrard on some COM platforms.
1451 */
1452 static HRESULT setWarning (HRESULT aResultCode, const char *aText, ...)
1453 {
1454 va_list args;
1455 va_start (args, aText);
1456 HRESULT rc = VirtualBoxSupportErrorInfoImplBase::setWarning
1457 (aResultCode, COM_IIDOF(I), C::getComponentName(), aText, args);
1458 va_end (args);
1459 return rc;
1460 }
1461
1462 /**
1463 * Sets the error information for the current thread, va_list variant.
1464 * A convenience method that automatically sets the default interface
1465 * ID (taken from the I template argument) and the component name
1466 * (a value of C::getComponentName()).
1467 *
1468 * See #setError (HRESULT, const GUID &, const wchar_t *, const char *text, ...)
1469 * and #setError (HRESULT, const char *, ...) for details.
1470 */
1471 static HRESULT setErrorV (HRESULT aResultCode, const char *aText,
1472 va_list aArgs)
1473 {
1474 HRESULT rc = VirtualBoxSupportErrorInfoImplBase::setError
1475 (aResultCode, COM_IIDOF(I), C::getComponentName(), aText, aArgs);
1476 return rc;
1477 }
1478
1479 /**
1480 * This method is the same as #setErrorV() except that it makes sure @a
1481 * aResultCode doesn't have the error severty bit (31) set when passed
1482 * down to the created IVirtualBoxErrorInfo object.
1483 *
1484 * The error severity bit is always cleared by this call, thereofe you can
1485 * use ordinary E_XXX result code constancs, for convenience. However, this
1486 * behavior may be non-stanrard on some COM platforms.
1487 */
1488 static HRESULT setWarningV (HRESULT aResultCode, const char *aText,
1489 va_list aArgs)
1490 {
1491 HRESULT rc = VirtualBoxSupportErrorInfoImplBase::setWarning
1492 (aResultCode, COM_IIDOF(I), C::getComponentName(), aText, aArgs);
1493 return rc;
1494 }
1495
1496 /**
1497 * Sets the error information for the current thread, BStr variant.
1498 * A convenience method that automatically sets the default interface
1499 * ID (taken from the I template argument) and the component name
1500 * (a value of C::getComponentName()).
1501 *
1502 * This method is preferred iy you have a ready (translated and formatted)
1503 * Bstr string, because it omits an extra conversion Utf8Str -> Bstr.
1504 *
1505 * See #setError (HRESULT, const GUID &, const wchar_t *, const char *text, ...)
1506 * and #setError (HRESULT, const char *, ...) for details.
1507 */
1508 static HRESULT setErrorBstr (HRESULT aResultCode, const Bstr &aText)
1509 {
1510 HRESULT rc = VirtualBoxSupportErrorInfoImplBase::setError
1511 (aResultCode, COM_IIDOF(I), C::getComponentName(), aText);
1512 return rc;
1513 }
1514
1515 /**
1516 * This method is the same as #setErrorBstr() except that it makes sure @a
1517 * aResultCode doesn't have the error severty bit (31) set when passed
1518 * down to the created IVirtualBoxErrorInfo object.
1519 *
1520 * The error severity bit is always cleared by this call, thereofe you can
1521 * use ordinary E_XXX result code constancs, for convenience. However, this
1522 * behavior may be non-stanrard on some COM platforms.
1523 */
1524 static HRESULT setWarningBstr (HRESULT aResultCode, const Bstr &aText)
1525 {
1526 HRESULT rc = VirtualBoxSupportErrorInfoImplBase::setWarning
1527 (aResultCode, COM_IIDOF(I), C::getComponentName(), aText);
1528 return rc;
1529 }
1530
1531 /**
1532 * Sets the error information for the current thread.
1533 * A convenience method that automatically sets the component name
1534 * (a value of C::getComponentName()), but allows to specify the interface
1535 * id manually.
1536 *
1537 * See #setError (HRESULT, const GUID &, const wchar_t *, const char *text, ...)
1538 * for details.
1539 */
1540 static HRESULT setError (HRESULT aResultCode, const GUID &aIID,
1541 const char *aText, ...)
1542 {
1543 va_list args;
1544 va_start (args, aText);
1545 HRESULT rc = VirtualBoxSupportErrorInfoImplBase::setError
1546 (aResultCode, aIID, C::getComponentName(), aText, args);
1547 va_end (args);
1548 return rc;
1549 }
1550
1551 /**
1552 * This method is the same as #setError() except that it makes sure @a
1553 * aResultCode doesn't have the error severty bit (31) set when passed
1554 * down to the created IVirtualBoxErrorInfo object.
1555 *
1556 * The error severity bit is always cleared by this call, thereofe you can
1557 * use ordinary E_XXX result code constancs, for convenience. However, this
1558 * behavior may be non-stanrard on some COM platforms.
1559 */
1560 static HRESULT setWarning (HRESULT aResultCode, const GUID &aIID,
1561 const char *aText, ...)
1562 {
1563 va_list args;
1564 va_start (args, aText);
1565 HRESULT rc = VirtualBoxSupportErrorInfoImplBase::setWarning
1566 (aResultCode, aIID, C::getComponentName(), aText, args);
1567 va_end (args);
1568 return rc;
1569 }
1570
1571private:
1572
1573};
1574
1575////////////////////////////////////////////////////////////////////////////////
1576
1577/**
1578 * Base class to track VirtualBoxBase chlidren of the component.
1579 *
1580 * This class is a preferrable VirtualBoxBase replacement for components
1581 * that operate with collections of child components. It gives two useful
1582 * possibilities:
1583 *
1584 * <ol><li>
1585 * Given an IUnknown instance, it's possible to quickly determine
1586 * whether this instance represents a child object created by the given
1587 * component, and if so, get a valid VirtualBoxBase pointer to the child
1588 * object. The returned pointer can be then safely casted to the
1589 * actual class of the child object (to get access to its "internal"
1590 * non-interface methods) provided that no other child components implement
1591 * the same initial interface IUnknown is queried from.
1592 * </li><li>
1593 * When the parent object uninitializes itself, it can easily unintialize
1594 * all its VirtualBoxBase derived children (using their
1595 * VirtualBoxBase::uninit() implementations). This is done simply by
1596 * calling the #uninitDependentChildren() method.
1597 * </li></ol>
1598 *
1599 * In order to let the above work, the following must be done:
1600 * <ol><li>
1601 * When a child object is initialized, it calls #addDependentChild() of
1602 * its parent to register itself within the list of dependent children.
1603 * </li><li>
1604 * When a child object it is uninitialized, it calls #removeDependentChild()
1605 * to unregister itself. This must be done <b>after</b> the child has called
1606 * setReady(false) to indicate it is no more valid, and <b>not</b> from under
1607 * the child object's lock. Note also, that the first action the child's
1608 * uninit() implementation must do is to check for readiness after acquiring
1609 * the object's lock and return immediately if not ready.
1610 * </li></ol>
1611 *
1612 * Children added by #addDependentChild() are <b>weakly</b> referenced
1613 * (i.e. AddRef() is not called), so when a child is externally destructed
1614 * (i.e. its reference count goes to zero), it will automatically remove
1615 * itself from a map of dependent children, provided that it follows the
1616 * rules described here.
1617 *
1618 * @note
1619 * Because of weak referencing, deadlocks and assertions are very likely
1620 * if #addDependentChild() or #removeDependentChild() are used incorrectly
1621 * (called at inappropriate times). Check the above rules once more.
1622 *
1623 * @deprecated Use VirtualBoxBaseWithChildrenNEXT for new classes.
1624 */
1625class VirtualBoxBaseWithChildren : public VirtualBoxBase
1626{
1627public:
1628
1629 VirtualBoxBaseWithChildren()
1630 : mUninitDoneSem (NIL_RTSEMEVENT), mChildrenLeft (0)
1631 {}
1632
1633 virtual ~VirtualBoxBaseWithChildren()
1634 {}
1635
1636 /**
1637 * Adds the given child to the map of dependent children.
1638 * Intended to be called from the child's init() method,
1639 * from under the child's lock.
1640 *
1641 * @param C the child object to add (must inherit VirtualBoxBase AND
1642 * implement some interface)
1643 */
1644 template <class C>
1645 void addDependentChild (C *child)
1646 {
1647 AssertReturn (child, (void) 0);
1648 addDependentChild (child, child);
1649 }
1650
1651 /**
1652 * Removes the given child from the map of dependent children.
1653 * Must be called <b>after<b> the child has called setReady(false), and
1654 * <b>not</b> from under the child object's lock.
1655 *
1656 * @param C the child object to remove (must inherit VirtualBoxBase AND
1657 * implement some interface)
1658 */
1659 template <class C>
1660 void removeDependentChild (C *child)
1661 {
1662 AssertReturn (child, (void) 0);
1663 /// @todo (r=dmik) the below check (and the relevant comment above)
1664 // seems to be not necessary any more once we completely switch to
1665 // the NEXT locking scheme. This requires altering removeDependentChild()
1666 // and uninitDependentChildren() as well (due to the new state scheme,
1667 // there is a separate mutex for state transition, so calling the
1668 // child's uninit() from under the children map lock should not produce
1669 // dead-locks any more).
1670 Assert (!child->isWriteLockOnCurrentThread());
1671 removeDependentChild (ComPtr <IUnknown> (child));
1672 }
1673
1674protected:
1675
1676 void uninitDependentChildren();
1677
1678 VirtualBoxBase *getDependentChild (const ComPtr <IUnknown> &unk);
1679
1680private:
1681
1682 void addDependentChild (const ComPtr <IUnknown> &unk, VirtualBoxBase *child);
1683 void removeDependentChild (const ComPtr <IUnknown> &unk);
1684
1685 typedef std::map <IUnknown *, VirtualBoxBase *> DependentChildren;
1686 DependentChildren mDependentChildren;
1687
1688 WriteLockHandle mMapLock;
1689
1690 RTSEMEVENT mUninitDoneSem;
1691 unsigned mChildrenLeft;
1692};
1693
1694////////////////////////////////////////////////////////////////////////////////
1695
1696/**
1697 *
1698 * Base class to track VirtualBoxBaseNEXT chlidren of the component.
1699 *
1700 * This class is a preferrable VirtualBoxBase replacement for components that
1701 * operate with collections of child components. It gives two useful
1702 * possibilities:
1703 *
1704 * <ol><li>
1705 * Given an IUnknown instance, it's possible to quickly determine
1706 * whether this instance represents a child object created by the given
1707 * component, and if so, get a valid VirtualBoxBase pointer to the child
1708 * object. The returned pointer can be then safely casted to the
1709 * actual class of the child object (to get access to its "internal"
1710 * non-interface methods) provided that no other child components implement
1711 * the same initial interface IUnknown is queried from.
1712 * </li><li>
1713 * When the parent object uninitializes itself, it can easily unintialize
1714 * all its VirtualBoxBase derived children (using their
1715 * VirtualBoxBase::uninit() implementations). This is done simply by
1716 * calling the #uninitDependentChildren() method.
1717 * </li></ol>
1718 *
1719 * In order to let the above work, the following must be done:
1720 * <ol><li>
1721 * When a child object is initialized, it calls #addDependentChild() of
1722 * its parent to register itself within the list of dependent children.
1723 * </li><li>
1724 * When a child object it is uninitialized, it calls
1725 * #removeDependentChild() to unregister itself. Since the child's
1726 * uninitialization may originate both from this method and from the child
1727 * itself calling its uninit() on another thread at the same time, please
1728 * make sure that #removeDependentChild() is called:
1729 * <ul><li>
1730 * after the child has successfully entered AutoUninitSpan -- to make
1731 * sure this method is called only once for the given child object
1732 * transitioning from Ready to NotReady. A failure to do so will at
1733 * least likely cause an assertion ("Failed to remove the child from
1734 * the map").
1735 * </li><li>
1736 * outside the child object's lock -- to avoid guaranteed deadlocks
1737 * caused by different lock order: (child_lock, map_lock) in uninit()
1738 * and (map_lock, child_lock) in this method.
1739 * </li></ul>
1740 * </li></ol>
1741 *
1742 * Note that children added by #addDependentChild() are <b>weakly</b> referenced
1743 * (i.e. AddRef() is not called), so when a child object is deleted externally
1744 * (because it's reference count goes to zero), it will automatically remove
1745 * itself from the map of dependent children provided that it follows the rules
1746 * described here.
1747 *
1748 * @note Once again: because of weak referencing, deadlocks and assertions are
1749 * very likely if #addDependentChild() or #removeDependentChild() are used
1750 * incorrectly (called at inappropriate times). Check the above rules once
1751 * more.
1752 *
1753 * @todo This is a VirtualBoxBaseWithChildren equivalent that uses the
1754 * VirtualBoxBaseNEXT implementation. Will completely supercede
1755 * VirtualBoxBaseWithChildren after the old VirtualBoxBase implementation
1756 * has gone.
1757 */
1758class VirtualBoxBaseWithChildrenNEXT : public VirtualBoxBaseNEXT
1759{
1760public:
1761
1762 VirtualBoxBaseWithChildrenNEXT()
1763 : mUninitDoneSem (NIL_RTSEMEVENT), mChildrenLeft (0)
1764 {}
1765
1766 virtual ~VirtualBoxBaseWithChildrenNEXT()
1767 {}
1768
1769 /**
1770 * Adds the given child to the map of dependent children.
1771 *
1772 * Typically called from the child's init() method, from within the
1773 * AutoInitSpan scope. Otherwise, VirtualBoxBase::AutoCaller must be
1774 * used on @a aChild to make sure it is not uninitialized during this
1775 * method's call.
1776 *
1777 * @param aChild Child object to add (must inherit VirtualBoxBase AND
1778 * implement some interface).
1779 */
1780 template <class C>
1781 void addDependentChild (C *aChild)
1782 {
1783 AssertReturnVoid (aChild);
1784 doAddDependentChild (ComPtr <IUnknown> (aChild), aChild);
1785 }
1786
1787 /**
1788 * Removes the given child from the map of dependent children.
1789 *
1790 * Make sure this method is called after the child has successfully entered
1791 * AutoUninitSpan and outside the child lock.
1792 *
1793 * If called not from within the AutoUninitSpan scope,
1794 * VirtualBoxBase::AutoCaller must be used on @a aChild to make sure it is
1795 * not uninitialized during this method's call.
1796 *
1797 * @param aChild Child object to remove (must inherit VirtualBoxBase AND
1798 * implement some interface).
1799 */
1800 template <class C>
1801 void removeDependentChild (C *aChild)
1802 {
1803 AssertReturnVoid (aChild);
1804 Assert (!aChild->isWriteLockOnCurrentThread());
1805 doRemoveDependentChild (ComPtr <IUnknown> (aChild));
1806 }
1807
1808protected:
1809
1810 void uninitDependentChildren();
1811
1812 VirtualBoxBaseNEXT *getDependentChild (const ComPtr <IUnknown> &aUnk);
1813
1814private:
1815
1816 /// @todo temporarily reinterpret VirtualBoxBase * as VirtualBoxBaseNEXT *
1817 // until ported HardDisk and Progress to the new scheme.
1818 void doAddDependentChild (IUnknown *aUnk, VirtualBoxBase *aChild)
1819 {
1820 doAddDependentChild (aUnk,
1821 reinterpret_cast <VirtualBoxBaseNEXT *> (aChild));
1822 }
1823
1824 void doAddDependentChild (IUnknown *aUnk, VirtualBoxBaseNEXT *aChild);
1825 void doRemoveDependentChild (IUnknown *aUnk);
1826
1827 typedef std::map <IUnknown *, VirtualBoxBaseNEXT *> DependentChildren;
1828 DependentChildren mDependentChildren;
1829
1830 RTSEMEVENT mUninitDoneSem;
1831 size_t mChildrenLeft;
1832
1833 /* Protects all the fields above */
1834 RWLockHandle mMapLock;
1835};
1836
1837////////////////////////////////////////////////////////////////////////////////
1838
1839/**
1840 * Base class to track component's chlidren of some particular type.
1841 *
1842 * This class is similar to VirtualBoxBaseWithChildren, with the exception
1843 * that all children must be of the same type. For this reason, it's not
1844 * necessary to use a map to store children, so a list is used instead.
1845 *
1846 * As opposed to VirtualBoxBaseWithChildren, children added by
1847 * #addDependentChild() are <b>strongly</b> referenced, so that they cannot
1848 * be externally destructed until #removeDependentChild() is called.
1849 * For this reason, strict rules of calling #removeDependentChild() don't
1850 * apply to instances of this class -- it can be called anywhere in the
1851 * child's uninit() implementation.
1852 *
1853 * @param C type of child objects (must inherit VirtualBoxBase AND
1854 * implement some interface)
1855 *
1856 * @deprecated Use VirtualBoxBaseWithTypedChildrenNEXT for new classes.
1857 */
1858template <class C>
1859class VirtualBoxBaseWithTypedChildren : public VirtualBoxBase
1860{
1861public:
1862
1863 typedef std::list <ComObjPtr <C> > DependentChildren;
1864
1865 VirtualBoxBaseWithTypedChildren() : mInUninit (false) {}
1866
1867 virtual ~VirtualBoxBaseWithTypedChildren() {}
1868
1869 /**
1870 * Adds the given child to the list of dependent children.
1871 * Must be called from the child's init() method,
1872 * from under the child's lock.
1873 *
1874 * @param C the child object to add (must inherit VirtualBoxBase AND
1875 * implement some interface)
1876 */
1877 void addDependentChild (C *child)
1878 {
1879 AssertReturn (child, (void) 0);
1880
1881 AutoWriteLock alock (mMapLock);
1882 if (mInUninit)
1883 return;
1884
1885 mDependentChildren.push_back (child);
1886 }
1887
1888 /**
1889 * Removes the given child from the list of dependent children.
1890 * Must be called from the child's uninit() method,
1891 * under the child's lock.
1892 *
1893 * @param C the child object to remove (must inherit VirtualBoxBase AND
1894 * implement some interface)
1895 */
1896 void removeDependentChild (C *child)
1897 {
1898 AssertReturn (child, (void) 0);
1899
1900 AutoWriteLock alock (mMapLock);
1901 if (mInUninit)
1902 return;
1903
1904 mDependentChildren.remove (child);
1905 }
1906
1907protected:
1908
1909 /**
1910 * Returns an internal lock handle to lock the list of children
1911 * returned by #dependentChildren() using AutoWriteLock:
1912 * <code>
1913 * AutoWriteLock alock (dependentChildrenLock());
1914 * </code>
1915 */
1916 RWLockHandle *dependentChildrenLock() const { return &mMapLock; }
1917
1918 /**
1919 * Returns the read-only list of all dependent children.
1920 * @note
1921 * Access the returned list (iterate, get size etc.) only after
1922 * doing |AutoWriteLock alock (dependentChildrenLock());|!
1923 */
1924 const DependentChildren &dependentChildren() const { return mDependentChildren; }
1925
1926 /**
1927 * Uninitializes all dependent children registered with #addDependentChild().
1928 *
1929 * @note
1930 * This method will call uninit() methods of children. If these methods
1931 * access the parent object, uninitDependentChildren() must be called
1932 * either at the beginning of the parent uninitialization sequence (when
1933 * it is still operational) or after setReady(false) is called to
1934 * indicate the parent is out of action.
1935 */
1936 void uninitDependentChildren()
1937 {
1938 AutoWriteLock alock (this);
1939 AutoWriteLock mapLock (mMapLock);
1940
1941 if (mDependentChildren.size())
1942 {
1943 // set flag to ignore #removeDependentChild() called from child->uninit()
1944 mInUninit = true;
1945
1946 // leave the locks to let children waiting for #removeDependentChild() run
1947 mapLock.leave();
1948 alock.leave();
1949
1950 for (typename DependentChildren::iterator it = mDependentChildren.begin();
1951 it != mDependentChildren.end(); ++ it)
1952 {
1953 C *child = (*it);
1954 Assert (child);
1955 if (child)
1956 child->uninit();
1957 }
1958 mDependentChildren.clear();
1959
1960 alock.enter();
1961 mapLock.enter();
1962
1963 mInUninit = false;
1964 }
1965 }
1966
1967 /**
1968 * Removes (detaches) all dependent children registered with
1969 * #addDependentChild(), without uninitializing them.
1970 *
1971 * @note This method must be called from under the main object's lock
1972 */
1973 void removeDependentChildren()
1974 {
1975 AutoWriteLock alock (mMapLock);
1976 mDependentChildren.clear();
1977 }
1978
1979private:
1980
1981 DependentChildren mDependentChildren;
1982
1983 bool mInUninit;
1984 mutable RWLockHandle mMapLock;
1985};
1986
1987////////////////////////////////////////////////////////////////////////////////
1988
1989/**
1990 * Base class to track component's chlidren of the particular type.
1991 *
1992 * This class is similar to VirtualBoxBaseWithChildren, with the exception that
1993 * all children must be of the same type. For this reason, it's not necessary to
1994 * use a map to store children, so a list is used instead.
1995 *
1996 * As opposed to VirtualBoxBaseWithChildren, children added by
1997 * #addDependentChild() are <b>strongly</b> referenced, so that they cannot be
1998 * externally deleted until #removeDependentChild() is called. For this
1999 * reason, strict rules of calling #removeDependentChild() don't apply to
2000 * instances of this class -- it can be called anywhere in the child's uninit()
2001 * implementation.
2002 *
2003 * @param C Type of child objects (must inherit VirtualBoxBase AND implementsome
2004 * interface).
2005 *
2006 * @todo This is a VirtualBoxBaseWithChildren equivalent that uses the
2007 * VirtualBoxBaseNEXT implementation. Will completely supercede
2008 * VirtualBoxBaseWithChildren after the old VirtualBoxBase implementation
2009 * has gone.
2010 */
2011template <class C>
2012class VirtualBoxBaseWithTypedChildrenNEXT : public VirtualBoxBaseNEXT
2013{
2014public:
2015
2016 typedef std::list <ComObjPtr <C> > DependentChildren;
2017
2018 VirtualBoxBaseWithTypedChildrenNEXT() : mInUninit (false) {}
2019
2020 virtual ~VirtualBoxBaseWithTypedChildrenNEXT() {}
2021
2022 /**
2023 * Adds the given child to the list of dependent children.
2024 *
2025 * VirtualBoxBase::AutoCaller must be used on @a aChild to make sure it is
2026 * not uninitialized during this method's call.
2027 *
2028 * @param aChild Child object to add (must inherit VirtualBoxBase AND
2029 * implement some interface).
2030 */
2031 void addDependentChild (C *aChild)
2032 {
2033 AssertReturnVoid (aChild);
2034
2035 AutoWriteLock alock (mMapLock);
2036 if (mInUninit)
2037 return;
2038
2039 mDependentChildren.push_back (aChild);
2040 }
2041
2042 /**
2043 * Removes the given child from the list of dependent children.
2044 *
2045 * VirtualBoxBase::AutoCaller must be used on @a aChild to make sure it is
2046 * not uninitialized during this method's call.
2047 *
2048 * @param aChild the child object to remove (must inherit VirtualBoxBase
2049 * AND implement some interface).
2050 */
2051 void removeDependentChild (C *aChild)
2052 {
2053 AssertReturnVoid (aChild);
2054
2055 AutoWriteLock alock (mMapLock);
2056 if (mInUninit)
2057 return;
2058
2059 mDependentChildren.remove (aChild);
2060 }
2061
2062protected:
2063
2064 /**
2065 * Returns an internal lock handle used to lock the list of children
2066 * returned by #dependentChildren(). This lock is to be used by
2067 * AutoWriteLock as follows:
2068 * <code>
2069 * AutoWriteLock alock (dependentChildrenLock());
2070 * </code>
2071 */
2072 RWLockHandle *dependentChildrenLock() const { return &mMapLock; }
2073
2074 /**
2075 * Returns the read-only list of all dependent children.
2076 *
2077 * @note Access the returned list (iterate, get size etc.) only after doing
2078 * AutoWriteLock alock (dependentChildrenLock())!
2079 */
2080 const DependentChildren &dependentChildren() const { return mDependentChildren; }
2081
2082 void uninitDependentChildren();
2083
2084 /**
2085 * Removes (detaches) all dependent children registered with
2086 * #addDependentChild(), without uninitializing them.
2087 *
2088 * @note This method must be called from under the main object's lock.
2089 */
2090 void removeDependentChildren()
2091 {
2092 /// @todo why?..
2093 AssertReturnVoid (isWriteLockOnCurrentThread());
2094
2095 AutoWriteLock alock (mMapLock);
2096 mDependentChildren.clear();
2097 }
2098
2099private:
2100
2101 DependentChildren mDependentChildren;
2102
2103 bool mInUninit;
2104
2105 /* Protects the two fields above */
2106 mutable RWLockHandle mMapLock;
2107};
2108
2109////////////////////////////////////////////////////////////////////////////////
2110
2111/// @todo (dmik) remove after we switch to VirtualBoxBaseNEXT completely
2112/**
2113 * Simple template that manages data structure allocation/deallocation
2114 * and supports data pointer sharing (the instance that shares the pointer is
2115 * not responsible for memory deallocation as opposed to the instance that
2116 * owns it).
2117 */
2118template <class D>
2119class Shareable
2120{
2121public:
2122
2123 Shareable() : mData (NULL), mIsShared (FALSE) {}
2124 ~Shareable() { free(); }
2125
2126 void allocate() { attach (new D); }
2127
2128 virtual void free() {
2129 if (mData) {
2130 if (!mIsShared)
2131 delete mData;
2132 mData = NULL;
2133 mIsShared = false;
2134 }
2135 }
2136
2137 void attach (D *data) {
2138 AssertMsg (data, ("new data must not be NULL"));
2139 if (data && mData != data) {
2140 if (mData && !mIsShared)
2141 delete mData;
2142 mData = data;
2143 mIsShared = false;
2144 }
2145 }
2146
2147 void attach (Shareable &data) {
2148 AssertMsg (
2149 data.mData == mData || !data.mIsShared,
2150 ("new data must not be shared")
2151 );
2152 if (this != &data && !data.mIsShared) {
2153 attach (data.mData);
2154 data.mIsShared = true;
2155 }
2156 }
2157
2158 void share (D *data) {
2159 AssertMsg (data, ("new data must not be NULL"));
2160 if (mData != data) {
2161 if (mData && !mIsShared)
2162 delete mData;
2163 mData = data;
2164 mIsShared = true;
2165 }
2166 }
2167
2168 void share (const Shareable &data) { share (data.mData); }
2169
2170 void attachCopy (const D *data) {
2171 AssertMsg (data, ("data to copy must not be NULL"));
2172 if (data)
2173 attach (new D (*data));
2174 }
2175
2176 void attachCopy (const Shareable &data) {
2177 attachCopy (data.mData);
2178 }
2179
2180 virtual D *detach() {
2181 D *d = mData;
2182 mData = NULL;
2183 mIsShared = false;
2184 return d;
2185 }
2186
2187 D *data() const {
2188 return mData;
2189 }
2190
2191 D *operator->() const {
2192 AssertMsg (mData, ("data must not be NULL"));
2193 return mData;
2194 }
2195
2196 bool isNull() const { return mData == NULL; }
2197 bool operator!() const { return isNull(); }
2198
2199 bool isShared() const { return mIsShared; }
2200
2201protected:
2202
2203 D *mData;
2204 bool mIsShared;
2205};
2206
2207/// @todo (dmik) remove after we switch to VirtualBoxBaseNEXT completely
2208/**
2209 * Simple template that enhances Shareable<> and supports data
2210 * backup/rollback/commit (using the copy constructor of the managed data
2211 * structure).
2212 */
2213template <class D>
2214class Backupable : public Shareable <D>
2215{
2216public:
2217
2218 Backupable() : Shareable <D> (), mBackupData (NULL) {}
2219
2220 void free()
2221 {
2222 AssertMsg (this->mData || !mBackupData, ("backup must be NULL if data is NULL"));
2223 rollback();
2224 Shareable <D>::free();
2225 }
2226
2227 D *detach()
2228 {
2229 AssertMsg (this->mData || !mBackupData, ("backup must be NULL if data is NULL"));
2230 rollback();
2231 return Shareable <D>::detach();
2232 }
2233
2234 void share (const Backupable &data)
2235 {
2236 AssertMsg (!data.isBackedUp(), ("data to share must not be backed up"));
2237 if (!data.isBackedUp())
2238 Shareable <D>::share (data.mData);
2239 }
2240
2241 /**
2242 * Stores the current data pointer in the backup area, allocates new data
2243 * using the copy constructor on current data and makes new data active.
2244 */
2245 void backup()
2246 {
2247 AssertMsg (this->mData, ("data must not be NULL"));
2248 if (this->mData && !mBackupData)
2249 {
2250 mBackupData = this->mData;
2251 this->mData = new D (*mBackupData);
2252 }
2253 }
2254
2255 /**
2256 * Deletes new data created by #backup() and restores previous data pointer
2257 * stored in the backup area, making it active again.
2258 */
2259 void rollback()
2260 {
2261 if (this->mData && mBackupData)
2262 {
2263 delete this->mData;
2264 this->mData = mBackupData;
2265 mBackupData = NULL;
2266 }
2267 }
2268
2269 /**
2270 * Commits current changes by deleting backed up data and clearing up the
2271 * backup area. The new data pointer created by #backup() remains active
2272 * and becomes the only managed pointer.
2273 *
2274 * This method is much faster than #commitCopy() (just a single pointer
2275 * assignment operation), but makes the previous data pointer invalid
2276 * (because it is freed). For this reason, this method must not be
2277 * used if it's possible that data managed by this instance is shared with
2278 * some other Shareable instance. See #commitCopy().
2279 */
2280 void commit()
2281 {
2282 if (this->mData && mBackupData)
2283 {
2284 if (!this->mIsShared)
2285 delete mBackupData;
2286 mBackupData = NULL;
2287 this->mIsShared = false;
2288 }
2289 }
2290
2291 /**
2292 * Commits current changes by assigning new data to the previous data
2293 * pointer stored in the backup area using the assignment operator.
2294 * New data is deleted, the backup area is cleared and the previous data
2295 * pointer becomes active and the only managed pointer.
2296 *
2297 * This method is slower than #commit(), but it keeps the previous data
2298 * pointer valid (i.e. new data is copied to the same memory location).
2299 * For that reason it's safe to use this method on instances that share
2300 * managed data with other Shareable instances.
2301 */
2302 void commitCopy()
2303 {
2304 if (this->mData && mBackupData)
2305 {
2306 *mBackupData = *(this->mData);
2307 delete this->mData;
2308 this->mData = mBackupData;
2309 mBackupData = NULL;
2310 }
2311 }
2312
2313 void assignCopy (const D *data)
2314 {
2315 AssertMsg (this->mData, ("data must not be NULL"));
2316 AssertMsg (data, ("data to copy must not be NULL"));
2317 if (this->mData && data)
2318 {
2319 if (!mBackupData)
2320 {
2321 mBackupData = this->mData;
2322 this->mData = new D (*data);
2323 }
2324 else
2325 *this->mData = *data;
2326 }
2327 }
2328
2329 void assignCopy (const Backupable &data)
2330 {
2331 assignCopy (data.mData);
2332 }
2333
2334 bool isBackedUp() const
2335 {
2336 return mBackupData != NULL;
2337 }
2338
2339 bool hasActualChanges() const
2340 {
2341 AssertMsg (this->mData, ("data must not be NULL"));
2342 return this->mData != NULL && mBackupData != NULL &&
2343 !(*this->mData == *mBackupData);
2344 }
2345
2346 D *backedUpData() const
2347 {
2348 return mBackupData;
2349 }
2350
2351protected:
2352
2353 D *mBackupData;
2354};
2355
2356#if defined VBOX_MAIN_SETTINGS_ADDONS
2357
2358/**
2359 * Settinsg API additions.
2360 */
2361namespace settings
2362{
2363
2364/// @todo once string data in Bstr and Utf8Str is auto_ref_ptr, enable the
2365/// code below
2366
2367#if 0
2368
2369/** Specialization of FromString for Bstr. */
2370template<> com::Bstr FromString <com::Bstr> (const char *aValue);
2371
2372#endif
2373
2374/** Specialization of ToString for Bstr. */
2375template<> stdx::char_auto_ptr
2376ToString <com::Bstr> (const com::Bstr &aValue, unsigned int aExtra);
2377
2378/** Specialization of FromString for Guid. */
2379template<> com::Guid FromString <com::Guid> (const char *aValue);
2380
2381/** Specialization of ToString for Guid. */
2382template<> stdx::char_auto_ptr
2383ToString <com::Guid> (const com::Guid &aValue, unsigned int aExtra);
2384
2385} /* namespace settings */
2386
2387#endif /* VBOX_MAIN_SETTINGS_ADDONS */
2388
2389#endif // ____H_VIRTUALBOXBASEIMPL
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