/* * INTEL CONFIDENTIAL * Copyright © 2011 Intel * Corporation All Rights Reserved. * * The source code contained or described herein and all documents related to * the source code ("Material") are owned by Intel Corporation or its suppliers * or licensors. Title to the Material remains with Intel Corporation or its * suppliers and licensors. The Material contains trade secrets and proprietary * and confidential information of Intel or its suppliers and licensors. The * Material is protected by worldwide copyright and trade secret laws and * treaty provisions. No part of the Material may be used, copied, reproduced, * modified, published, uploaded, posted, transmitted, distributed, or * disclosed in any way without Intel’s prior express written permission. * * No license under any patent, copyright, trade secret or other intellectual * property right is granted to or conferred upon you by disclosure or delivery * of the Materials, either expressly, by implication, inducement, estoppel or * otherwise. Any license under such intellectual property rights must be * express and approved by Intel in writing. * * CREATED: 2011-06-01 * UPDATED: 2011-07-27 */ #include "ParameterHandle.h" #include "ParameterAccessContext.h" #include "BaseParameter.h" #include "Subsystem.h" #include #include "ParameterMgr.h" #include "AutoLock.h" CParameterHandle::CParameterHandle(const CBaseParameter* pParameter, CParameterMgr* pParameterMgr) : _pBaseParameter(pParameter), _pParameterMgr(pParameterMgr), _bBigEndianSubsystem(pParameter->getBelongingSubsystem()->isBigEndian()) { } // Parameter features bool CParameterHandle::isRogue() const { return _pBaseParameter->isRogue(); } bool CParameterHandle::isArray() const { return !_pBaseParameter->isScalar(); } // Array Length uint32_t CParameterHandle::getArrayLength() const { return _pBaseParameter->getArrayLength(); } // Parameter path string CParameterHandle::getPath() const { return _pBaseParameter->getPath(); } // Parameter kind string CParameterHandle::getKind() const { return _pBaseParameter->getKind(); } // Boolean access bool CParameterHandle::setAsBoolean(bool bValue, string& strError) { // Check operation validity if (!checkAccessValidity(true, 0, strError)) { return false; } // Ensure we're safe against blackboard foreign access CAutoLock autoLock(_pParameterMgr->getBlackboardMutex()); // When in tuning mode, silently skip the request if (_pParameterMgr->tuningModeOn()) { return true; } // Define access context CParameterAccessContext parameterAccessContext(strError, _bBigEndianSubsystem, _pParameterMgr->getParameterBlackboard()); return _pBaseParameter->accessAsBoolean(bValue, true, parameterAccessContext); } bool CParameterHandle::getAsBoolean(bool bValue, string& strError) const { // Check operation validity if (!checkAccessValidity(false, 0, strError)) { return false; } // Ensure we're safe against blackboard foreign access CAutoLock autoLock(_pParameterMgr->getBlackboardMutex()); // Define access context CParameterAccessContext parameterAccessContext(strError, _bBigEndianSubsystem, _pParameterMgr->getParameterBlackboard()); return _pBaseParameter->accessAsBoolean(bValue, false, parameterAccessContext); } bool CParameterHandle::setAsBooleanArray(const vector& abValues, string& strError) { // Check operation validity if (!checkAccessValidity(true, abValues.size(), strError)) { return false; } // Ensure we're safe against blackboard foreign access CAutoLock autoLock(_pParameterMgr->getBlackboardMutex()); // When in tuning mode, silently skip the request if (_pParameterMgr->tuningModeOn()) { return true; } // Define access context CParameterAccessContext parameterAccessContext(strError, _bBigEndianSubsystem, _pParameterMgr->getParameterBlackboard()); // Copy values for type adaptation vector abUserValues = abValues; return _pBaseParameter->accessAsBooleanArray(abUserValues, true, parameterAccessContext); } bool CParameterHandle::getAsBooleanArray(vector& abValues, string& strError) const { // Check operation validity if (!checkAccessValidity(false, -1, strError)) { return false; } // Ensure we're safe against blackboard foreign access CAutoLock autoLock(_pParameterMgr->getBlackboardMutex()); // Define access context CParameterAccessContext parameterAccessContext(strError, _bBigEndianSubsystem, _pParameterMgr->getParameterBlackboard()); return _pBaseParameter->accessAsBooleanArray(abValues, false, parameterAccessContext); } // Integer Access bool CParameterHandle::setAsInteger(uint32_t uiValue, string& strError) { // Check operation validity if (!checkAccessValidity(true, 0, strError)) { return false; } // Ensure we're safe against blackboard foreign access CAutoLock autoLock(_pParameterMgr->getBlackboardMutex()); // When in tuning mode, silently skip the request if (_pParameterMgr->tuningModeOn()) { return true; } // Define access context CParameterAccessContext parameterAccessContext(strError, _bBigEndianSubsystem, _pParameterMgr->getParameterBlackboard()); return _pBaseParameter->accessAsInteger(uiValue, true, parameterAccessContext); } bool CParameterHandle::getAsInteger(uint32_t& uiValue, string& strError) const { // Check operation validity if (!checkAccessValidity(false, 0, strError)) { return false; } // Ensure we're safe against blackboard foreign access CAutoLock autoLock(_pParameterMgr->getBlackboardMutex()); // Define access context CParameterAccessContext parameterAccessContext(strError, _bBigEndianSubsystem, _pParameterMgr->getParameterBlackboard()); return _pBaseParameter->accessAsInteger(uiValue, false, parameterAccessContext); } bool CParameterHandle::setAsIntegerArray(const vector& auiValues, string& strError) { // Check operation validity if (!checkAccessValidity(true, auiValues.size(), strError)) { return false; } // Ensure we're safe against blackboard foreign access CAutoLock autoLock(_pParameterMgr->getBlackboardMutex()); // When in tuning mode, silently skip the request if (_pParameterMgr->tuningModeOn()) { return true; } // Define access context CParameterAccessContext parameterAccessContext(strError, _bBigEndianSubsystem, _pParameterMgr->getParameterBlackboard()); // Copy values for type adaptation vector auiUserValues = auiValues; return _pBaseParameter->accessAsIntegerArray(auiUserValues, true, parameterAccessContext); } bool CParameterHandle::getAsIntegerArray(vector& auiValues, string& strError) const { // Check operation validity if (!checkAccessValidity(false, -1, strError)) { return false; } // Ensure we're safe against blackboard foreign access CAutoLock autoLock(_pParameterMgr->getBlackboardMutex()); // Define access context CParameterAccessContext parameterAccessContext(strError, _bBigEndianSubsystem, _pParameterMgr->getParameterBlackboard()); return _pBaseParameter->accessAsIntegerArray(auiValues, false, parameterAccessContext); } // Signed Integer Access bool CParameterHandle::setAsSignedInteger(int32_t iValue, string& strError) { // Check operation validity if (!checkAccessValidity(true, 0, strError)) { return false; } // Ensure we're safe against blackboard foreign access CAutoLock autoLock(_pParameterMgr->getBlackboardMutex()); // When in tuning mode, silently skip the request if (_pParameterMgr->tuningModeOn()) { return true; } // Define access context CParameterAccessContext parameterAccessContext(strError, _bBigEndianSubsystem, _pParameterMgr->getParameterBlackboard()); return _pBaseParameter->accessAsSignedInteger(iValue, true, parameterAccessContext); } bool CParameterHandle::getAsSignedInteger(int32_t& iValue, string& strError) const { // Check operation validity if (!checkAccessValidity(false, 0, strError)) { return false; } // Ensure we're safe against blackboard foreign access CAutoLock autoLock(_pParameterMgr->getBlackboardMutex()); // Define access context CParameterAccessContext parameterAccessContext(strError, _bBigEndianSubsystem, _pParameterMgr->getParameterBlackboard()); return _pBaseParameter->accessAsSignedInteger(iValue, false, parameterAccessContext); } bool CParameterHandle::setAsSignedIntegerArray(const vector& aiValues, string& strError) { // Check operation validity if (!checkAccessValidity(true, aiValues.size(), strError)) { return false; } // Ensure we're safe against blackboard foreign access CAutoLock autoLock(_pParameterMgr->getBlackboardMutex()); // When in tuning mode, silently skip the request if (_pParameterMgr->tuningModeOn()) { return true; } // Define access context CParameterAccessContext parameterAccessContext(strError, _bBigEndianSubsystem, _pParameterMgr->getParameterBlackboard()); // Copy values for type adaptation vector aiUserValues = aiValues; return _pBaseParameter->accessAsSignedIntegerArray(aiUserValues, true, parameterAccessContext); } bool CParameterHandle::getAsSignedIntegerArray(vector& aiValues, string& strError) const { // Check operation validity if (!checkAccessValidity(false, -1, strError)) { return false; } // Ensure we're safe against blackboard foreign access CAutoLock autoLock(_pParameterMgr->getBlackboardMutex()); // Define access context CParameterAccessContext parameterAccessContext(strError, _bBigEndianSubsystem, _pParameterMgr->getParameterBlackboard()); return _pBaseParameter->accessAsSignedIntegerArray(aiValues, false, parameterAccessContext); } // Double Access bool CParameterHandle::setAsDouble(double dValue, string& strError) { // Check operation validity if (!checkAccessValidity(true, 0, strError)) { return false; } // Ensure we're safe against blackboard foreign access CAutoLock autoLock(_pParameterMgr->getBlackboardMutex()); // When in tuning mode, silently skip the request if (_pParameterMgr->tuningModeOn()) { return true; } // Define access context CParameterAccessContext parameterAccessContext(strError, _bBigEndianSubsystem, _pParameterMgr->getParameterBlackboard()); return _pBaseParameter->accessAsDouble(dValue, true, parameterAccessContext); } bool CParameterHandle::getAsDouble(double& dValue, string& strError) const { // Check operation validity if (!checkAccessValidity(false, 0, strError)) { return false; } // Ensure we're safe against blackboard foreign access CAutoLock autoLock(_pParameterMgr->getBlackboardMutex()); // Define access context CParameterAccessContext parameterAccessContext(strError, _bBigEndianSubsystem, _pParameterMgr->getParameterBlackboard()); return _pBaseParameter->accessAsDouble(dValue, false, parameterAccessContext); } bool CParameterHandle::setAsDoubleArray(const vector& adValues, string& strError) { // Check operation validity if (!checkAccessValidity(true, adValues.size(), strError)) { return false; } // Ensure we're safe against blackboard foreign access CAutoLock autoLock(_pParameterMgr->getBlackboardMutex()); // When in tuning mode, silently skip the request if (_pParameterMgr->tuningModeOn()) { return true; } // Define access context CParameterAccessContext parameterAccessContext(strError, _bBigEndianSubsystem, _pParameterMgr->getParameterBlackboard()); // Copy values for type adaptation vector adUserValues = adValues; return _pBaseParameter->accessAsDoubleArray(adUserValues, true, parameterAccessContext); } bool CParameterHandle::getAsDoubleArray(vector& adValues, string& strError) const { // Check operation validity if (!checkAccessValidity(false, -1, strError)) { return false; } // Ensure we're safe against blackboard foreign access CAutoLock autoLock(_pParameterMgr->getBlackboardMutex()); // Define access context CParameterAccessContext parameterAccessContext(strError, _bBigEndianSubsystem, _pParameterMgr->getParameterBlackboard()); return _pBaseParameter->accessAsDoubleArray(adValues, false, parameterAccessContext); } // String Access bool CParameterHandle::setAsString(const string& strValue, string& strError) { // Check operation validity if (!checkAccessValidity(true, 0, strError)) { return false; } // Ensure we're safe against blackboard foreign access CAutoLock autoLock(_pParameterMgr->getBlackboardMutex()); // When in tuning mode, silently skip the request if (_pParameterMgr->tuningModeOn()) { return true; } // Define access context CParameterAccessContext parameterAccessContext(strError, _bBigEndianSubsystem, _pParameterMgr->getParameterBlackboard()); // Copy value for type adaptation string strUserValue = strValue; return _pBaseParameter->accessAsString(strUserValue, true, parameterAccessContext); } bool CParameterHandle::getAsString(string& strValue, string& strError) const { // Check operation validity if (!checkAccessValidity(false, 0, strError)) { return false; } // Ensure we're safe against blackboard foreign access CAutoLock autoLock(_pParameterMgr->getBlackboardMutex()); // Define access context CParameterAccessContext parameterAccessContext(strError, _bBigEndianSubsystem, _pParameterMgr->getParameterBlackboard()); return _pBaseParameter->accessAsString(strValue, false, parameterAccessContext); } bool CParameterHandle::setAsStringArray(const vector& astrValues, string& strError) { // Check operation validity if (!checkAccessValidity(true, astrValues.size(), strError)) { return false; } // Ensure we're safe against blackboard foreign access CAutoLock autoLock(_pParameterMgr->getBlackboardMutex()); // When in tuning mode, silently skip the request if (_pParameterMgr->tuningModeOn()) { return true; } // Define access context CParameterAccessContext parameterAccessContext(strError, _bBigEndianSubsystem, _pParameterMgr->getParameterBlackboard()); // Copy values for type adaptation vector astrUserValues = astrValues; return _pBaseParameter->accessAsStringArray(astrUserValues, true, parameterAccessContext); } bool CParameterHandle::getAsStringArray(vector& astrValues, string& strError) const { // Check operation validity if (!checkAccessValidity(false, -1, strError)) { return false; } // Ensure we're safe against blackboard foreign access CAutoLock autoLock(_pParameterMgr->getBlackboardMutex()); // Define access context CParameterAccessContext parameterAccessContext(strError, _bBigEndianSubsystem, _pParameterMgr->getParameterBlackboard()); return _pBaseParameter->accessAsStringArray(astrValues, false, parameterAccessContext); } // Access validity bool CParameterHandle::checkAccessValidity(bool bSet, uint32_t uiArrayLength, string& strError) const { if (bSet && !isRogue()) { strError = "Parameter is not rogue: "; strError += getPath(); return false; } if (uiArrayLength && !isArray()) { strError = "Parameter is scalar: "; strError += getPath(); return false; } if (!uiArrayLength && isArray()) { strError = "Parameter is an array: "; strError += getPath(); return false; } if (bSet && uiArrayLength && (uiArrayLength != getArrayLength())) { strError = "Array length mismatch: "; strError += getPath(); return false; } return true; }