/* $Id: MultiResult.h $ */ /** @file * MS COM / XPCOM Abstraction Layer - MultiResult class declarations. */ /* * Copyright (C) 2008-2019 Oracle Corporation * * 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. * * The contents of this file may alternatively be used under the terms * of the Common Development and Distribution License Version 1.0 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the * VirtualBox OSE distribution, in which case the provisions of the * CDDL are applicable instead of those of the GPL. * * You may elect to license modified versions of this file under the * terms and conditions of either the GPL or the CDDL or both. */ #ifndef VBOX_INCLUDED_com_MultiResult_h #define VBOX_INCLUDED_com_MultiResult_h #ifndef RT_WITHOUT_PRAGMA_ONCE # pragma once #endif #include "VBox/com/defs.h" #include "VBox/com/string.h" #include /** @defgroup grp_com_mr MultiResult Classes * @ingroup grp_com * @{ */ namespace com { /** * "First worst" result type. * * Variables of this class are used instead of HRESULT variables when it is * desirable to memorize the "first worst" result code instead of the last * assigned one. In other words, an assignment operation to a variable of this * class will succeed only if the result code to assign has worse severity. The * following table demonstrate this (the first column lists the previous result * code stored in the variable, the first row lists the new result code being * assigned, 'A' means the assignment will take place, '> S_OK' means a warning * result code): * * {{{ * FAILED > S_OK S_OK * FAILED - - - * > S_OK A - - * S_OK A A - * * }}} * * In practice, you will need to use a FWResult variable when you call some COM * method B after another COM method A fails and want to return the result code * of A even if B also fails, but want to return the failed result code of B if * A issues a warning or succeeds. */ class FWResult { public: /** * Constructs a new variable. Note that by default this constructor sets the * result code to E_FAIL to make sure a failure is returned to the caller if * the variable is never assigned another value (which is considered as the * improper use of this class). */ FWResult (HRESULT aRC = E_FAIL) : mRC (aRC) {} FWResult &operator= (HRESULT aRC) { if ((FAILED (aRC) && !FAILED (mRC)) || (mRC == S_OK && aRC != S_OK)) mRC = aRC; return *this; } operator HRESULT() const { return mRC; } HRESULT *operator&() { return &mRC; } private: HRESULT mRC; }; /** * The MultiResult class is a com::FWResult enhancement that also acts as a * switch to turn on multi-error mode for VirtualBoxBase::setError() and * VirtualBoxBase::setWarning() calls. * * When an instance of this class is created, multi-error mode is turned on * for the current thread and the turn-on counter is increased by one. In * multi-error mode, a call to setError() or setWarning() does not * overwrite the current error or warning info object possibly set on the * current thread by other method calls, but instead it stores this old * object in the IVirtualBoxErrorInfo::next attribute of the new error * object being set. * * This way, error/warning objects are stacked together and form a chain of * errors where the most recent error is the first one retrieved by the * calling party, the preceding error is what the * IVirtualBoxErrorInfo::next attribute of the first error points to, and so * on, up to the first error or warning occurred which is the last in the * chain. See IVirtualBoxErrorInfo documentation for more info. * * When the instance of the MultiResult class goes out of scope and gets * destroyed, it automatically decreases the turn-on counter by one. If * the counter drops to zero, multi-error mode for the current thread is * turned off and the thread switches back to single-error mode where every * next error or warning object overwrites the previous one. * * Note that the caller of a COM method uses a non-S_OK result code to * decide if the method has returned an error (negative codes) or a warning * (positive non-zero codes) and will query extended error info only in * these two cases. However, since multi-error mode implies that the method * doesn't return control return to the caller immediately after the first * error or warning but continues its execution, the functionality provided * by the base com::FWResult class becomes very useful because it allows to * preserve the error or the warning result code even if it is later assigned * a S_OK value multiple times. See com::FWResult for details. * * Here is the typical usage pattern: * @code HRESULT Bar::method() { // assume multi-errors are turned off here... if (something) { // Turn on multi-error mode and make sure severity is preserved MultiResult rc = foo->method1(); // return on fatal error, but continue on warning or on success CheckComRCReturnRC (rc); rc = foo->method2(); // no matter what result, stack it and continue // ... // return the last worst result code (it will be preserved even if // foo->method2() returns S_OK. return rc; } // multi-errors are turned off here again... return S_OK; } * @endcode * * @note This class is intended to be instantiated on the stack, therefore * You cannot create them using new(). Although it is possible to copy * instances of MultiResult or return them by value, please never do * that as it is breaks the class semantics (and will assert); */ class MultiResult : public FWResult { public: /** * @copydoc FWResult::FWResult() */ MultiResult (HRESULT aRC = E_FAIL) : FWResult (aRC) { incCounter(); } MultiResult (const MultiResult &aThat) : FWResult (aThat) { /* We need this copy constructor only for GCC that wants to have * it in case of expressions like |MultiResult rc = E_FAIL;|. But * we assert since the optimizer should actually avoid the * temporary and call the other constructor directly instead. */ AssertFailed(); } ~MultiResult() { decCounter(); } MultiResult &operator= (HRESULT aRC) { FWResult::operator= (aRC); return *this; } MultiResult &operator= (const MultiResult & /* aThat */) { /* We need this copy constructor only for GCC that wants to have * it in case of expressions like |MultiResult rc = E_FAIL;|. But * we assert since the optimizer should actually avoid the * temporary and call the other constructor directly instead. */ AssertFailed(); return *this; } /** * Returns true if multi-mode is enabled for the current thread (i.e. at * least one MultiResult instance exists on the stack somewhere). * @return */ static bool isMultiEnabled(); private: DECLARE_CLS_NEW_DELETE_NOOP(MultiResult); static void incCounter(); static void decCounter(); static RTTLS sCounter; friend class MultiResultRef; }; /** * The MultiResultRef class is equivalent to MultiResult except that it takes * a reference to the existing HRESULT variable instead of maintaining its own * one. */ class MultiResultRef { public: MultiResultRef (HRESULT &aRC) : mRC (aRC) { MultiResult::incCounter(); } ~MultiResultRef() { MultiResult::decCounter(); } MultiResultRef &operator= (HRESULT aRC) { /* Copied from FWResult */ if ((FAILED (aRC) && !FAILED (mRC)) || (mRC == S_OK && aRC != S_OK)) mRC = aRC; return *this; } operator HRESULT() const { return mRC; } HRESULT *operator&() { return &mRC; } private: DECLARE_CLS_NEW_DELETE_NOOP(MultiResultRef); HRESULT &mRC; }; } /* namespace com */ /** @} */ #endif /* !VBOX_INCLUDED_com_MultiResult_h */