/* $Id: ProgressImpl.cpp 20220 2009-06-03 08:40:29Z vboxsync $ */ /** @file * * VirtualBox Progress COM class implementation */ /* * Copyright (C) 2006-2009 Sun Microsystems, Inc. * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. * * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa * Clara, CA 95054 USA or visit http://www.sun.com if you need * additional information or have any questions. */ #include #if defined (VBOX_WITH_XPCOM) #include #include #include #endif /* defined (VBOX_WITH_XPCOM) */ #include "ProgressImpl.h" #include "VirtualBoxImpl.h" #include "VirtualBoxErrorInfoImpl.h" #include "Logging.h" #include #include #include //////////////////////////////////////////////////////////////////////////////// // ProgressBase class //////////////////////////////////////////////////////////////////////////////// // constructor / destructor //////////////////////////////////////////////////////////////////////////////// DEFINE_EMPTY_CTOR_DTOR (ProgressBase) /** * Subclasses must call this method from their FinalConstruct() implementations. */ HRESULT ProgressBase::FinalConstruct() { mCancelable = FALSE; mCompleted = FALSE; mCanceled = FALSE; mResultCode = S_OK; m_cOperations = m_ulTotalOperationsWeight = m_ulOperationsCompletedWeight = m_ulCurrentOperation = m_ulCurrentOperationWeight = m_ulOperationPercent = 0; // get creation timestamp m_ullTimestamp = RTTimeMilliTS(); return S_OK; } // protected initializer/uninitializer for internal purposes only //////////////////////////////////////////////////////////////////////////////// /** * Initializes the progress base object. * * Subclasses should call this or any other #protectedInit() method from their * init() implementations. * * @param aAutoInitSpan AutoInitSpan object instantiated by a subclass. * @param aParent Parent object (only for server-side Progress objects). * @param aInitiator Initiator of the task (for server-side objects. Can be * NULL which means initiator = parent, otherwise must not * be NULL). * @param aDescription Task description. * @param aID Address of result GUID structure (optional). * * @return COM result indicator. */ HRESULT ProgressBase::protectedInit (AutoInitSpan &aAutoInitSpan, #if !defined (VBOX_COM_INPROC) VirtualBox *aParent, #endif IUnknown *aInitiator, CBSTR aDescription, OUT_GUID aId /* = NULL */) { /* Guarantees subclasses call this method at the proper time */ NOREF (aAutoInitSpan); AutoCaller autoCaller(this); AssertReturn (autoCaller.state() == InInit, E_FAIL); #if !defined (VBOX_COM_INPROC) AssertReturn (aParent, E_INVALIDARG); #else AssertReturn (aInitiator, E_INVALIDARG); #endif AssertReturn (aDescription, E_INVALIDARG); #if !defined (VBOX_COM_INPROC) /* share parent weakly */ unconst (mParent) = aParent; /* register with parent early, since uninit() will unconditionally * unregister on failure */ mParent->addDependentChild (this); #endif #if !defined (VBOX_COM_INPROC) /* assign (and therefore addref) initiator only if it is not VirtualBox * (to avoid cycling); otherwise mInitiator will remain null which means * that it is the same as the parent */ if (aInitiator && !mParent.equalsTo (aInitiator)) unconst (mInitiator) = aInitiator; #else unconst (mInitiator) = aInitiator; #endif unconst (mId).create(); if (aId) mId.cloneTo (aId); #if !defined (VBOX_COM_INPROC) /* add to the global collection of progress operations (note: after * creating mId) */ mParent->addProgress (this); #endif unconst (mDescription) = aDescription; return S_OK; } /** * Initializes the progress base object. * * This is a special initializer that doesn't initialize any field. Used by one * of the Progress::init() forms to create sub-progress operations combined * together using a CombinedProgress instance, so it doesn't require the parent, * initiator, description and doesn't create an ID. * * Subclasses should call this or any other #protectedInit() method from their * init() implementations. * * @param aAutoInitSpan AutoInitSpan object instantiated by a subclass. */ HRESULT ProgressBase::protectedInit (AutoInitSpan &aAutoInitSpan) { /* Guarantees subclasses call this method at the proper time */ NOREF (aAutoInitSpan); return S_OK; } /** * Uninitializes the instance. * * Subclasses should call this from their uninit() implementations. * * @param aAutoUninitSpan AutoUninitSpan object instantiated by a subclass. * * @note Using the mParent member after this method returns is forbidden. */ void ProgressBase::protectedUninit (AutoUninitSpan &aAutoUninitSpan) { /* release initiator (effective only if mInitiator has been assigned in * init()) */ unconst (mInitiator).setNull(); #if !defined (VBOX_COM_INPROC) if (mParent) { /* remove the added progress on failure to complete the initialization */ if (aAutoUninitSpan.initFailed() && !mId.isEmpty()) mParent->removeProgress (mId); mParent->removeDependentChild (this); unconst (mParent).setNull(); } #endif } // IProgress properties ///////////////////////////////////////////////////////////////////////////// STDMETHODIMP ProgressBase::COMGETTER(Id) (BSTR *aId) { CheckComArgOutPointerValid(aId); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); /* mId is constant during life time, no need to lock */ mId.toUtf16().cloneTo (aId); return S_OK; } STDMETHODIMP ProgressBase::COMGETTER(Description) (BSTR *aDescription) { CheckComArgOutPointerValid(aDescription); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); /* mDescription is constant during life time, no need to lock */ mDescription.cloneTo (aDescription); return S_OK; } STDMETHODIMP ProgressBase::COMGETTER(Initiator) (IUnknown **aInitiator) { CheckComArgOutPointerValid(aInitiator); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); /* mInitiator/mParent are constant during life time, no need to lock */ #if !defined (VBOX_COM_INPROC) if (mInitiator) mInitiator.queryInterfaceTo (aInitiator); else mParent.queryInterfaceTo (aInitiator); #else mInitiator.queryInterfaceTo (aInitiator); #endif return S_OK; } STDMETHODIMP ProgressBase::COMGETTER(Cancelable) (BOOL *aCancelable) { CheckComArgOutPointerValid(aCancelable); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); AutoReadLock alock (this); *aCancelable = mCancelable; return S_OK; } /** * Internal helper to compute the total percent value based on the member values and * returns it as a "double". This is used both by GetPercent (which returns it as a * rounded ULONG) and GetTimeRemaining(). * * Requires locking by the caller! * * @return fractional percentage as a double value. */ double ProgressBase::calcTotalPercent() { // avoid division by zero if (m_ulTotalOperationsWeight == 0) return 0; double dPercent = ( (double)m_ulOperationsCompletedWeight // weight of operations that have been completed + ((double)m_ulOperationPercent * (double)m_ulCurrentOperationWeight / (double)100) // plus partial weight of the current operation ) * (double)100 / (double)m_ulTotalOperationsWeight; return dPercent; } STDMETHODIMP ProgressBase::COMGETTER(TimeRemaining)(LONG *aTimeRemaining) { CheckComArgOutPointerValid(aTimeRemaining); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); AutoReadLock alock(this); if (mCompleted) *aTimeRemaining = 0; else { double dPercentDone = calcTotalPercent(); if (dPercentDone < 1) *aTimeRemaining = -1; // unreliable, or avoid division by 0 below else { uint64_t ullTimeNow = RTTimeMilliTS(); uint64_t ullTimeElapsed = ullTimeNow - m_ullTimestamp; uint64_t ullTimeTotal = (uint64_t)(ullTimeElapsed / dPercentDone * 100); uint64_t ullTimeRemaining = ullTimeTotal - ullTimeElapsed; // Log(("ProgressBase::GetTimeRemaining: dPercentDone %RI32, ullTimeNow = %RI64, ullTimeElapsed = %RI64, ullTimeTotal = %RI64, ullTimeRemaining = %RI64\n", // (uint32_t)dPercentDone, ullTimeNow, ullTimeElapsed, ullTimeTotal, ullTimeRemaining)); *aTimeRemaining = (LONG)(ullTimeRemaining / 1000); } } return S_OK; } STDMETHODIMP ProgressBase::COMGETTER(Percent)(ULONG *aPercent) { CheckComArgOutPointerValid(aPercent); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); AutoReadLock alock(this); if (mCompleted && SUCCEEDED (mResultCode)) *aPercent = 100; else { ULONG ulPercent = (ULONG)calcTotalPercent(); // do not report 100% until we're really really done with everything as the Qt GUI dismisses progress dialogs in that case if ( ulPercent == 100 && ( m_ulOperationPercent < 100 || (m_ulCurrentOperation < m_cOperations -1) ) ) *aPercent = 99; else *aPercent = ulPercent; } return S_OK; } STDMETHODIMP ProgressBase::COMGETTER(Completed) (BOOL *aCompleted) { CheckComArgOutPointerValid(aCompleted); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); AutoReadLock alock (this); *aCompleted = mCompleted; return S_OK; } STDMETHODIMP ProgressBase::COMGETTER(Canceled) (BOOL *aCanceled) { CheckComArgOutPointerValid(aCanceled); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); AutoReadLock alock (this); *aCanceled = mCanceled; return S_OK; } STDMETHODIMP ProgressBase::COMGETTER(ResultCode) (LONG *aResultCode) { CheckComArgOutPointerValid(aResultCode); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); AutoReadLock alock (this); if (!mCompleted) return setError (E_FAIL, tr ("Result code is not available, operation is still in progress")); *aResultCode = mResultCode; return S_OK; } STDMETHODIMP ProgressBase::COMGETTER(ErrorInfo) (IVirtualBoxErrorInfo **aErrorInfo) { CheckComArgOutPointerValid(aErrorInfo); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); AutoReadLock alock (this); if (!mCompleted) return setError (E_FAIL, tr ("Error info is not available, operation is still in progress")); mErrorInfo.queryInterfaceTo (aErrorInfo); return S_OK; } STDMETHODIMP ProgressBase::COMGETTER(OperationCount) (ULONG *aOperationCount) { CheckComArgOutPointerValid(aOperationCount); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); AutoReadLock alock (this); *aOperationCount = m_cOperations; return S_OK; } STDMETHODIMP ProgressBase::COMGETTER(Operation) (ULONG *aOperation) { CheckComArgOutPointerValid(aOperation); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); AutoReadLock alock (this); *aOperation = m_ulCurrentOperation; return S_OK; } STDMETHODIMP ProgressBase::COMGETTER(OperationDescription) (BSTR *aOperationDescription) { CheckComArgOutPointerValid(aOperationDescription); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); AutoReadLock alock (this); m_bstrOperationDescription.cloneTo(aOperationDescription); return S_OK; } STDMETHODIMP ProgressBase::COMGETTER(OperationPercent)(ULONG *aOperationPercent) { CheckComArgOutPointerValid(aOperationPercent); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); AutoReadLock alock (this); if (mCompleted && SUCCEEDED (mResultCode)) *aOperationPercent = 100; else *aOperationPercent = m_ulOperationPercent; return S_OK; } // public methods only for internal purposes //////////////////////////////////////////////////////////////////////////////// /** * Sets the error info stored in the given progress object as the error info on * the current thread. * * This method is useful if some other COM method uses IProgress to wait for * something and then wants to return a failed result of the operation it was * waiting for as its own result retaining the extended error info. * * If the operation tracked by this progress object is completed successfully * and returned S_OK, this method does nothing but returns S_OK. Otherwise, the * failed warning or error result code specified at progress completion is * returned and the extended error info object (if any) is set on the current * thread. * * Note that the given progress object must be completed, otherwise this method * will assert and fail. */ /* static */ HRESULT ProgressBase::setErrorInfoOnThread (IProgress *aProgress) { AssertReturn (aProgress != NULL, E_INVALIDARG); LONG iRc; HRESULT rc = aProgress->COMGETTER(ResultCode) (&iRc); AssertComRCReturnRC (rc); HRESULT resultCode = iRc; if (resultCode == S_OK) return resultCode; ComPtr errorInfo; rc = aProgress->COMGETTER(ErrorInfo) (errorInfo.asOutParam()); AssertComRCReturnRC (rc); if (!errorInfo.isNull()) setErrorInfo (errorInfo); return resultCode; } //////////////////////////////////////////////////////////////////////////////// // Progress class //////////////////////////////////////////////////////////////////////////////// HRESULT Progress::FinalConstruct() { HRESULT rc = ProgressBase::FinalConstruct(); CheckComRCReturnRC (rc); mCompletedSem = NIL_RTSEMEVENTMULTI; mWaitersCount = 0; return S_OK; } void Progress::FinalRelease() { uninit(); } // public initializer/uninitializer for internal purposes only //////////////////////////////////////////////////////////////////////////////// /** * Initializes the normal progress object. With this variant, one can have * an arbitrary number of sub-operation which IProgress can analyze to * have a weighted progress computed. * * For example, say that one IProgress is supposed to track the cloning * of two hard disk images, which are 100 MB and 1000 MB in size, respectively, * and each of these hard disks should be one sub-operation of the IProgress. * * Obviously the progress would be misleading if the progress displayed 50% * after the smaller image was cloned and would then take much longer for * the second half. * * With weighted progress, one can invoke the following calls: * * 1) create progress object with cOperations = 2 and ulTotalOperationsWeight = * 1100 (100 MB plus 1100, but really the weights can be any ULONG); pass * in ulFirstOperationWeight = 100 for the first sub-operation * * 2) Then keep calling setCurrentOperationProgress() with a percentage * for the first image; the total progress will increase up to a value * of 9% (100MB / 1100MB * 100%). * * 3) Then call setNextOperation with the second weight (1000 for the megabytes * of the second disk). * * 4) Then keep calling setCurrentOperationProgress() with a percentage for * the second image, where 100% of the operation will then yield a 100% * progress of the entire task. * * Weighting is optional; you can simply assign a weight of 1 to each operation * and pass ulTotalOperationsWeight == cOperations to this constructor (but * for that variant and for backwards-compatibility a simpler constructor exists * in ProgressImpl.h as well). * * Even simpler, if you need no sub-operations at all, pass in cOperations = * ulTotalOperationsWeight = ulFirstOperationWeight = 1. * * @param aParent See ProgressBase::init(). * @param aInitiator See ProgressBase::init(). * @param aDescription See ProgressBase::init(). * @param aCancelable Flag whether the task maybe canceled. * @param cOperations Number of operations within this task (at least 1). * @param ulTotalOperationsWeight Total weight of operations; must be the sum of ulFirstOperationWeight and * what is later passed with each subsequent setNextOperation() call. * @param bstrFirstOperationDescription Description of the first operation. * @param ulFirstOperationWeight Weight of first sub-operation. * @param aId See ProgressBase::init(). */ HRESULT Progress::init ( #if !defined (VBOX_COM_INPROC) VirtualBox *aParent, #endif IUnknown *aInitiator, CBSTR aDescription, BOOL aCancelable, ULONG cOperations, ULONG ulTotalOperationsWeight, CBSTR bstrFirstOperationDescription, ULONG ulFirstOperationWeight, OUT_GUID aId /* = NULL */) { LogFlowThisFunc (("aDescription=\"%ls\"\n", aDescription)); AssertReturn(bstrFirstOperationDescription, E_INVALIDARG); AssertReturn(ulTotalOperationsWeight >= 1, E_INVALIDARG); /* Enclose the state transition NotReady->InInit->Ready */ AutoInitSpan autoInitSpan (this); AssertReturn (autoInitSpan.isOk(), E_FAIL); HRESULT rc = S_OK; rc = ProgressBase::protectedInit (autoInitSpan, #if !defined (VBOX_COM_INPROC) aParent, #endif aInitiator, aDescription, aId); CheckComRCReturnRC (rc); mCancelable = aCancelable; m_cOperations = cOperations; m_ulTotalOperationsWeight = ulTotalOperationsWeight; m_ulOperationsCompletedWeight = 0; m_ulCurrentOperation = 0; m_bstrOperationDescription = bstrFirstOperationDescription; m_ulCurrentOperationWeight = ulFirstOperationWeight; m_ulOperationPercent = 0; int vrc = RTSemEventMultiCreate (&mCompletedSem); ComAssertRCRet (vrc, E_FAIL); RTSemEventMultiReset (mCompletedSem); /* Confirm a successful initialization when it's the case */ if (SUCCEEDED (rc)) autoInitSpan.setSucceeded(); return rc; } /** * Initializes the sub-progress object that represents a specific operation of * the whole task. * * Objects initialized with this method are then combined together into the * single task using a CombinedProgress instance, so it doesn't require the * parent, initiator, description and doesn't create an ID. Note that calling * respective getter methods on an object initialized with this method is * useless. Such objects are used only to provide a separate wait semaphore and * store individual operation descriptions. * * @param aCancelable Flag whether the task maybe canceled. * @param aOperationCount Number of sub-operations within this task (at least 1). * @param aOperationDescription Description of the individual operation. */ HRESULT Progress::init(BOOL aCancelable, ULONG aOperationCount, CBSTR aOperationDescription) { LogFlowThisFunc (("aOperationDescription=\"%ls\"\n", aOperationDescription)); /* Enclose the state transition NotReady->InInit->Ready */ AutoInitSpan autoInitSpan (this); AssertReturn (autoInitSpan.isOk(), E_FAIL); HRESULT rc = S_OK; rc = ProgressBase::protectedInit (autoInitSpan); CheckComRCReturnRC (rc); mCancelable = aCancelable; // for this variant we assume for now that all operations are weighed "1" // and equal total weight = operation count m_cOperations = aOperationCount; m_ulTotalOperationsWeight = aOperationCount; m_ulOperationsCompletedWeight = 0; m_ulCurrentOperation = 0; m_bstrOperationDescription = aOperationDescription; m_ulCurrentOperationWeight = 1; m_ulOperationPercent = 0; int vrc = RTSemEventMultiCreate (&mCompletedSem); ComAssertRCRet (vrc, E_FAIL); RTSemEventMultiReset (mCompletedSem); /* Confirm a successful initialization when it's the case */ if (SUCCEEDED (rc)) autoInitSpan.setSucceeded(); return rc; } /** * Uninitializes the instance and sets the ready flag to FALSE. * * Called either from FinalRelease() or by the parent when it gets destroyed. */ void Progress::uninit() { LogFlowThisFunc (("\n")); /* Enclose the state transition Ready->InUninit->NotReady */ AutoUninitSpan autoUninitSpan (this); if (autoUninitSpan.uninitDone()) return; /* wake up all threads still waiting on occasion */ if (mWaitersCount > 0) { LogFlow (("WARNING: There are still %d threads waiting for '%ls' completion!\n", mWaitersCount, mDescription.raw())); RTSemEventMultiSignal (mCompletedSem); } RTSemEventMultiDestroy (mCompletedSem); ProgressBase::protectedUninit (autoUninitSpan); } // IProgress properties ///////////////////////////////////////////////////////////////////////////// // IProgress methods ///////////////////////////////////////////////////////////////////////////// /** * @note XPCOM: when this method is not called on the main XPCOM thread, it * simply blocks the thread until mCompletedSem is signalled. If the * thread has its own event queue (hmm, what for?) that it must run, then * calling this method will definitely freeze event processing. */ STDMETHODIMP Progress::WaitForCompletion (LONG aTimeout) { LogFlowThisFuncEnter(); LogFlowThisFunc (("aTimeout=%d\n", aTimeout)); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); AutoWriteLock alock(this); /* if we're already completed, take a shortcut */ if (!mCompleted) { RTTIMESPEC time; RTTimeNow (&time); int vrc = VINF_SUCCESS; bool forever = aTimeout < 0; int64_t timeLeft = aTimeout; int64_t lastTime = RTTimeSpecGetMilli (&time); while (!mCompleted && (forever || timeLeft > 0)) { mWaitersCount ++; alock.leave(); int vrc = RTSemEventMultiWait (mCompletedSem, forever ? RT_INDEFINITE_WAIT : (unsigned) timeLeft); alock.enter(); mWaitersCount --; /* the last waiter resets the semaphore */ if (mWaitersCount == 0) RTSemEventMultiReset (mCompletedSem); if (RT_FAILURE (vrc) && vrc != VERR_TIMEOUT) break; if (!forever) { RTTimeNow (&time); timeLeft -= RTTimeSpecGetMilli (&time) - lastTime; lastTime = RTTimeSpecGetMilli (&time); } } if (RT_FAILURE (vrc) && vrc != VERR_TIMEOUT) return setError (VBOX_E_IPRT_ERROR, tr ("Failed to wait for the task completion (%Rrc)"), vrc); } LogFlowThisFuncLeave(); return S_OK; } /** * @note XPCOM: when this method is not called on the main XPCOM thread, it * simply blocks the thread until mCompletedSem is signalled. If the * thread has its own event queue (hmm, what for?) that it must run, then * calling this method will definitely freeze event processing. */ STDMETHODIMP Progress::WaitForOperationCompletion(ULONG aOperation, LONG aTimeout) { LogFlowThisFuncEnter(); LogFlowThisFunc (("aOperation=%d, aTimeout=%d\n", aOperation, aTimeout)); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); AutoWriteLock alock(this); CheckComArgExpr(aOperation, aOperation < m_cOperations); /* if we're already completed or if the given operation is already done, * then take a shortcut */ if ( !mCompleted && aOperation >= m_ulCurrentOperation) { RTTIMESPEC time; RTTimeNow (&time); int vrc = VINF_SUCCESS; bool forever = aTimeout < 0; int64_t timeLeft = aTimeout; int64_t lastTime = RTTimeSpecGetMilli (&time); while (!mCompleted && aOperation >= m_ulCurrentOperation && (forever || timeLeft > 0)) { mWaitersCount ++; alock.leave(); int vrc = RTSemEventMultiWait (mCompletedSem, forever ? RT_INDEFINITE_WAIT : (unsigned) timeLeft); alock.enter(); mWaitersCount --; /* the last waiter resets the semaphore */ if (mWaitersCount == 0) RTSemEventMultiReset (mCompletedSem); if (RT_FAILURE (vrc) && vrc != VERR_TIMEOUT) break; if (!forever) { RTTimeNow (&time); timeLeft -= RTTimeSpecGetMilli (&time) - lastTime; lastTime = RTTimeSpecGetMilli (&time); } } if (RT_FAILURE (vrc) && vrc != VERR_TIMEOUT) return setError (E_FAIL, tr ("Failed to wait for the operation completion (%Rrc)"), vrc); } LogFlowThisFuncLeave(); return S_OK; } STDMETHODIMP Progress::Cancel() { AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); AutoWriteLock alock(this); if (!mCancelable) return setError (VBOX_E_INVALID_OBJECT_STATE, tr ("Operation cannot be canceled")); mCanceled = TRUE; return S_OK; } // public methods only for internal purposes ///////////////////////////////////////////////////////////////////////////// /** * Updates the percentage value of the current operation. * * @param aPercent New percentage value of the operation in progress * (in range [0, 100]). */ HRESULT Progress::setCurrentOperationProgress(ULONG aPercent) { AutoCaller autoCaller(this); AssertComRCReturnRC (autoCaller.rc()); AutoWriteLock alock(this); AssertReturn(aPercent <= 100, E_INVALIDARG); if (mCancelable && mCanceled) { Assert(!mCompleted); return E_FAIL; } else AssertReturn (!mCompleted && !mCanceled, E_FAIL); m_ulOperationPercent = aPercent; return S_OK; } /** * Signals that the current operation is successfully completed and advances to * the next operation. The operation percentage is reset to 0. * * @param aOperationDescription Description of the next operation. * * @note The current operation must not be the last one. */ HRESULT Progress::setNextOperation(CBSTR bstrNextOperationDescription, ULONG ulNextOperationsWeight) { AssertReturn(bstrNextOperationDescription, E_INVALIDARG); AutoCaller autoCaller(this); AssertComRCReturnRC (autoCaller.rc()); AutoWriteLock alock(this); AssertReturn (!mCompleted && !mCanceled, E_FAIL); AssertReturn (m_ulCurrentOperation + 1 < m_cOperations, E_FAIL); ++m_ulCurrentOperation; m_ulOperationsCompletedWeight += m_ulCurrentOperationWeight; m_bstrOperationDescription = bstrNextOperationDescription; m_ulCurrentOperationWeight = ulNextOperationsWeight; m_ulOperationPercent = 0; Log(("Progress::setNextOperation(%ls): ulNextOperationsWeight = %d; m_ulCurrentOperation is now %d, m_ulOperationsCompletedWeight is now %d\n", m_bstrOperationDescription.raw(), ulNextOperationsWeight, m_ulCurrentOperation, m_ulOperationsCompletedWeight)); /* wake up all waiting threads */ if (mWaitersCount > 0) RTSemEventMultiSignal (mCompletedSem); return S_OK; } /** * Marks the whole task as complete and sets the result code. * * If the result code indicates a failure (|FAILED (@a aResultCode)|) then this * method will import the error info from the current thread and assign it to * the errorInfo attribute (it will return an error if no info is available in * such case). * * If the result code indicates a success (|SUCCEEDED (@a aResultCode)|) then * the current operation is set to the last. * * Note that this method may be called only once for the given Progress object. * Subsequent calls will assert. * * @param aResultCode Operation result code. */ HRESULT Progress::notifyComplete (HRESULT aResultCode) { AutoCaller autoCaller(this); AssertComRCReturnRC (autoCaller.rc()); AutoWriteLock alock(this); AssertReturn (mCompleted == FALSE, E_FAIL); if (mCanceled && SUCCEEDED(aResultCode)) aResultCode = E_FAIL; mCompleted = TRUE; mResultCode = aResultCode; HRESULT rc = S_OK; if (FAILED (aResultCode)) { /* try to import error info from the current thread */ #if !defined (VBOX_WITH_XPCOM) ComPtr err; rc = ::GetErrorInfo (0, err.asOutParam()); if (rc == S_OK && err) { rc = err.queryInterfaceTo (mErrorInfo.asOutParam()); if (SUCCEEDED (rc) && !mErrorInfo) rc = E_FAIL; } #else /* !defined (VBOX_WITH_XPCOM) */ nsCOMPtr es; es = do_GetService (NS_EXCEPTIONSERVICE_CONTRACTID, &rc); if (NS_SUCCEEDED (rc)) { nsCOMPtr em; rc = es->GetCurrentExceptionManager (getter_AddRefs (em)); if (NS_SUCCEEDED (rc)) { ComPtr ex; rc = em->GetCurrentException (ex.asOutParam()); if (NS_SUCCEEDED (rc) && ex) { rc = ex.queryInterfaceTo (mErrorInfo.asOutParam()); if (NS_SUCCEEDED (rc) && !mErrorInfo) rc = E_FAIL; } } } #endif /* !defined (VBOX_WITH_XPCOM) */ AssertMsg (rc == S_OK, ("Couldn't get error info (rc=%08X) while trying " "to set a failed result (%08X)!\n", rc, aResultCode)); } else { m_ulCurrentOperation = m_cOperations - 1; /* last operation */ m_ulOperationPercent = 100; } #if !defined VBOX_COM_INPROC /* remove from the global collection of pending progress operations */ if (mParent) mParent->removeProgress (mId); #endif /* wake up all waiting threads */ if (mWaitersCount > 0) RTSemEventMultiSignal (mCompletedSem); return rc; } /** * Marks the operation as complete and attaches full error info. * * See com::SupportErrorInfoImpl::setError(HRESULT, const GUID &, const wchar_t * *, const char *, ...) for more info. * * @param aResultCode Operation result (error) code, must not be S_OK. * @param aIID IID of the interface that defines the error. * @param aComponent Name of the component that generates the error. * @param aText Error message (must not be null), an RTStrPrintf-like * format string in UTF-8 encoding. * @param ... List of arguments for the format string. */ HRESULT Progress::notifyComplete (HRESULT aResultCode, const GUID &aIID, const Bstr &aComponent, const char *aText, ...) { va_list args; va_start (args, aText); Bstr text = Utf8StrFmtVA (aText, args); va_end (args); return notifyCompleteBstr (aResultCode, aIID, aComponent, text); } /** * Marks the operation as complete and attaches full error info. * * See com::SupportErrorInfoImpl::setError(HRESULT, const GUID &, const wchar_t * *, const char *, ...) for more info. * * This method is preferred if you have a ready (translated and formatted) Bstr * string, because it omits an extra conversion Utf8Str -> Bstr. * * @param aResultCode Operation result (error) code, must not be S_OK. * @param aIID IID of the interface that defines the error. * @param aComponent Name of the component that generates the error. * @param aText Error message (must not be null). */ HRESULT Progress::notifyCompleteBstr (HRESULT aResultCode, const GUID &aIID, const Bstr &aComponent, const Bstr &aText) { AutoCaller autoCaller(this); AssertComRCReturnRC (autoCaller.rc()); AutoWriteLock alock(this); AssertReturn (mCompleted == FALSE, E_FAIL); if (mCanceled && SUCCEEDED(aResultCode)) aResultCode = E_FAIL; mCompleted = TRUE; mResultCode = aResultCode; AssertReturn (FAILED (aResultCode), E_FAIL); ComObjPtr errorInfo; HRESULT rc = errorInfo.createObject(); AssertComRC (rc); if (SUCCEEDED (rc)) { errorInfo->init (aResultCode, aIID, aComponent, aText); errorInfo.queryInterfaceTo (mErrorInfo.asOutParam()); } #if !defined VBOX_COM_INPROC /* remove from the global collection of pending progress operations */ if (mParent) mParent->removeProgress (mId); #endif /* wake up all waiting threads */ if (mWaitersCount > 0) RTSemEventMultiSignal (mCompletedSem); return rc; } //////////////////////////////////////////////////////////////////////////////// // CombinedProgress class //////////////////////////////////////////////////////////////////////////////// HRESULT CombinedProgress::FinalConstruct() { HRESULT rc = ProgressBase::FinalConstruct(); CheckComRCReturnRC (rc); mProgress = 0; mCompletedOperations = 0; return S_OK; } void CombinedProgress::FinalRelease() { uninit(); } // public initializer/uninitializer for internal purposes only //////////////////////////////////////////////////////////////////////////////// /** * Initializes this object based on individual combined progresses. * Must be called only from #init()! * * @param aAutoInitSpan AutoInitSpan object instantiated by a subclass. * @param aParent See ProgressBase::init(). * @param aInitiator See ProgressBase::init(). * @param aDescription See ProgressBase::init(). * @param aId See ProgressBase::init(). */ HRESULT CombinedProgress::protectedInit (AutoInitSpan &aAutoInitSpan, #if !defined (VBOX_COM_INPROC) VirtualBox *aParent, #endif IUnknown *aInitiator, CBSTR aDescription, OUT_GUID aId) { LogFlowThisFunc (("aDescription={%ls} mProgresses.size()=%d\n", aDescription, mProgresses.size())); HRESULT rc = S_OK; rc = ProgressBase::protectedInit (aAutoInitSpan, #if !defined (VBOX_COM_INPROC) aParent, #endif aInitiator, aDescription, aId); CheckComRCReturnRC (rc); mProgress = 0; /* the first object */ mCompletedOperations = 0; mCompleted = FALSE; mCancelable = TRUE; /* until any progress returns FALSE */ mCanceled = FALSE; m_cOperations = 0; /* will be calculated later */ m_ulCurrentOperation = 0; rc = mProgresses [0]->COMGETTER(OperationDescription) ( m_bstrOperationDescription.asOutParam()); CheckComRCReturnRC (rc); for (size_t i = 0; i < mProgresses.size(); i ++) { if (mCancelable) { BOOL cancelable = FALSE; rc = mProgresses [i]->COMGETTER(Cancelable) (&cancelable); CheckComRCReturnRC (rc); if (!cancelable) mCancelable = FALSE; } { ULONG opCount = 0; rc = mProgresses [i]->COMGETTER(OperationCount) (&opCount); CheckComRCReturnRC (rc); m_cOperations += opCount; } } rc = checkProgress(); CheckComRCReturnRC (rc); return rc; } /** * Initializes the combined progress object given two normal progress * objects. * * @param aParent See ProgressBase::init(). * @param aInitiator See ProgressBase::init(). * @param aDescription See ProgressBase::init(). * @param aProgress1 First normal progress object. * @param aProgress2 Second normal progress object. * @param aId See ProgressBase::init(). */ HRESULT CombinedProgress::init ( #if !defined (VBOX_COM_INPROC) VirtualBox *aParent, #endif IUnknown *aInitiator, CBSTR aDescription, IProgress *aProgress1, IProgress *aProgress2, OUT_GUID aId /* = NULL */) { /* Enclose the state transition NotReady->InInit->Ready */ AutoInitSpan autoInitSpan (this); AssertReturn (autoInitSpan.isOk(), E_FAIL); mProgresses.resize (2); mProgresses [0] = aProgress1; mProgresses [1] = aProgress2; HRESULT rc = protectedInit (autoInitSpan, #if !defined (VBOX_COM_INPROC) aParent, #endif aInitiator, aDescription, aId); /* Confirm a successful initialization when it's the case */ if (SUCCEEDED (rc)) autoInitSpan.setSucceeded(); return rc; } /** * Uninitializes the instance and sets the ready flag to FALSE. * * Called either from FinalRelease() or by the parent when it gets destroyed. */ void CombinedProgress::uninit() { LogFlowThisFunc (("\n")); /* Enclose the state transition Ready->InUninit->NotReady */ AutoUninitSpan autoUninitSpan (this); if (autoUninitSpan.uninitDone()) return; mProgress = 0; mProgresses.clear(); ProgressBase::protectedUninit (autoUninitSpan); } // IProgress properties //////////////////////////////////////////////////////////////////////////////// STDMETHODIMP CombinedProgress::COMGETTER(Percent)(ULONG *aPercent) { CheckComArgOutPointerValid(aPercent); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); /* checkProgress needs a write lock */ AutoWriteLock alock(this); if (mCompleted && SUCCEEDED (mResultCode)) *aPercent = 100; else { HRESULT rc = checkProgress(); CheckComRCReturnRC (rc); /* global percent = * (100 / m_cOperations) * mOperation + * ((100 / m_cOperations) / 100) * m_ulOperationPercent */ *aPercent = (100 * m_ulCurrentOperation + m_ulOperationPercent) / m_cOperations; } return S_OK; } STDMETHODIMP CombinedProgress::COMGETTER(Completed) (BOOL *aCompleted) { CheckComArgOutPointerValid(aCompleted); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); /* checkProgress needs a write lock */ AutoWriteLock alock(this); HRESULT rc = checkProgress(); CheckComRCReturnRC (rc); return ProgressBase::COMGETTER(Completed) (aCompleted); } STDMETHODIMP CombinedProgress::COMGETTER(Canceled) (BOOL *aCanceled) { CheckComArgOutPointerValid(aCanceled); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); /* checkProgress needs a write lock */ AutoWriteLock alock(this); HRESULT rc = checkProgress(); CheckComRCReturnRC (rc); return ProgressBase::COMGETTER(Canceled) (aCanceled); } STDMETHODIMP CombinedProgress::COMGETTER(ResultCode) (LONG *aResultCode) { CheckComArgOutPointerValid(aResultCode); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); /* checkProgress needs a write lock */ AutoWriteLock alock(this); HRESULT rc = checkProgress(); CheckComRCReturnRC (rc); return ProgressBase::COMGETTER(ResultCode) (aResultCode); } STDMETHODIMP CombinedProgress::COMGETTER(ErrorInfo) (IVirtualBoxErrorInfo **aErrorInfo) { CheckComArgOutPointerValid(aErrorInfo); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); /* checkProgress needs a write lock */ AutoWriteLock alock(this); HRESULT rc = checkProgress(); CheckComRCReturnRC (rc); return ProgressBase::COMGETTER(ErrorInfo) (aErrorInfo); } STDMETHODIMP CombinedProgress::COMGETTER(Operation) (ULONG *aOperation) { CheckComArgOutPointerValid(aOperation); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); /* checkProgress needs a write lock */ AutoWriteLock alock(this); HRESULT rc = checkProgress(); CheckComRCReturnRC (rc); return ProgressBase::COMGETTER(Operation) (aOperation); } STDMETHODIMP CombinedProgress::COMGETTER(OperationDescription) (BSTR *aOperationDescription) { CheckComArgOutPointerValid(aOperationDescription); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); /* checkProgress needs a write lock */ AutoWriteLock alock(this); HRESULT rc = checkProgress(); CheckComRCReturnRC (rc); return ProgressBase::COMGETTER(OperationDescription) (aOperationDescription); } STDMETHODIMP CombinedProgress::COMGETTER(OperationPercent)(ULONG *aOperationPercent) { CheckComArgOutPointerValid(aOperationPercent); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); /* checkProgress needs a write lock */ AutoWriteLock alock(this); HRESULT rc = checkProgress(); CheckComRCReturnRC (rc); return ProgressBase::COMGETTER(OperationPercent) (aOperationPercent); } // IProgress methods ///////////////////////////////////////////////////////////////////////////// /** * @note XPCOM: when this method is called not on the main XPCOM thread, it * simply blocks the thread until mCompletedSem is signalled. If the * thread has its own event queue (hmm, what for?) that it must run, then * calling this method will definitely freeze event processing. */ STDMETHODIMP CombinedProgress::WaitForCompletion (LONG aTimeout) { LogFlowThisFuncEnter(); LogFlowThisFunc (("aTtimeout=%d\n", aTimeout)); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); AutoWriteLock alock(this); /* if we're already completed, take a shortcut */ if (!mCompleted) { RTTIMESPEC time; RTTimeNow (&time); HRESULT rc = S_OK; bool forever = aTimeout < 0; int64_t timeLeft = aTimeout; int64_t lastTime = RTTimeSpecGetMilli (&time); while (!mCompleted && (forever || timeLeft > 0)) { alock.leave(); rc = mProgresses.back()->WaitForCompletion ( forever ? -1 : (LONG) timeLeft); alock.enter(); if (SUCCEEDED (rc)) rc = checkProgress(); CheckComRCBreakRC (rc); if (!forever) { RTTimeNow (&time); timeLeft -= RTTimeSpecGetMilli (&time) - lastTime; lastTime = RTTimeSpecGetMilli (&time); } } CheckComRCReturnRC (rc); } LogFlowThisFuncLeave(); return S_OK; } /** * @note XPCOM: when this method is called not on the main XPCOM thread, it * simply blocks the thread until mCompletedSem is signalled. If the * thread has its own event queue (hmm, what for?) that it must run, then * calling this method will definitely freeze event processing. */ STDMETHODIMP CombinedProgress::WaitForOperationCompletion (ULONG aOperation, LONG aTimeout) { LogFlowThisFuncEnter(); LogFlowThisFunc (("aOperation=%d, aTimeout=%d\n", aOperation, aTimeout)); AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); AutoWriteLock alock(this); if (aOperation >= m_cOperations) return setError (E_FAIL, tr ("Operation number must be in range [0, %d]"), m_ulCurrentOperation - 1); /* if we're already completed or if the given operation is already done, * then take a shortcut */ if (!mCompleted && aOperation >= m_ulCurrentOperation) { HRESULT rc = S_OK; /* find the right progress object to wait for */ size_t progress = mProgress; ULONG operation = 0, completedOps = mCompletedOperations; do { ULONG opCount = 0; rc = mProgresses [progress]->COMGETTER(OperationCount) (&opCount); if (FAILED (rc)) return rc; if (completedOps + opCount > aOperation) { /* found the right progress object */ operation = aOperation - completedOps; break; } completedOps += opCount; progress ++; ComAssertRet (progress < mProgresses.size(), E_FAIL); } while (1); LogFlowThisFunc (("will wait for mProgresses [%d] (%d)\n", progress, operation)); RTTIMESPEC time; RTTimeNow (&time); bool forever = aTimeout < 0; int64_t timeLeft = aTimeout; int64_t lastTime = RTTimeSpecGetMilli (&time); while (!mCompleted && aOperation >= m_ulCurrentOperation && (forever || timeLeft > 0)) { alock.leave(); /* wait for the appropriate progress operation completion */ rc = mProgresses [progress]-> WaitForOperationCompletion ( operation, forever ? -1 : (LONG) timeLeft); alock.enter(); if (SUCCEEDED (rc)) rc = checkProgress(); CheckComRCBreakRC (rc); if (!forever) { RTTimeNow (&time); timeLeft -= RTTimeSpecGetMilli (&time) - lastTime; lastTime = RTTimeSpecGetMilli (&time); } } CheckComRCReturnRC (rc); } LogFlowThisFuncLeave(); return S_OK; } STDMETHODIMP CombinedProgress::Cancel() { AutoCaller autoCaller(this); CheckComRCReturnRC(autoCaller.rc()); AutoWriteLock alock(this); if (!mCancelable) return setError (E_FAIL, tr ("Operation cannot be cancelled")); mCanceled = TRUE; return S_OK; } // private methods //////////////////////////////////////////////////////////////////////////////// /** * Fetches the properties of the current progress object and, if it is * successfully completed, advances to the next uncompleted or unsuccessfully * completed object in the vector of combined progress objects. * * @note Must be called from under this object's write lock! */ HRESULT CombinedProgress::checkProgress() { /* do nothing if we're already marked ourselves as completed */ if (mCompleted) return S_OK; AssertReturn (mProgress < mProgresses.size(), E_FAIL); ComPtr progress = mProgresses [mProgress]; ComAssertRet (!progress.isNull(), E_FAIL); HRESULT rc = S_OK; BOOL completed = FALSE; do { rc = progress->COMGETTER(Completed) (&completed); if (FAILED (rc)) return rc; if (completed) { rc = progress->COMGETTER(Canceled) (&mCanceled); if (FAILED (rc)) return rc; LONG iRc; rc = progress->COMGETTER(ResultCode) (&iRc); if (FAILED (rc)) return rc; mResultCode = iRc; if (FAILED (mResultCode)) { rc = progress->COMGETTER(ErrorInfo) (mErrorInfo.asOutParam()); if (FAILED (rc)) return rc; } if (FAILED (mResultCode) || mCanceled) { mCompleted = TRUE; } else { ULONG opCount = 0; rc = progress->COMGETTER(OperationCount) (&opCount); if (FAILED (rc)) return rc; mCompletedOperations += opCount; mProgress ++; if (mProgress < mProgresses.size()) progress = mProgresses [mProgress]; else mCompleted = TRUE; } } } while (completed && !mCompleted); rc = progress->COMGETTER(OperationPercent) (&m_ulOperationPercent); if (SUCCEEDED (rc)) { ULONG operation = 0; rc = progress->COMGETTER(Operation) (&operation); if (SUCCEEDED (rc) && mCompletedOperations + operation > m_ulCurrentOperation) { m_ulCurrentOperation = mCompletedOperations + operation; rc = progress->COMGETTER(OperationDescription) ( m_bstrOperationDescription.asOutParam()); } } return rc; } /* vi: set tabstop=4 shiftwidth=4 expandtab: */