upstream/parameter/ConfigurableElement.cpp - platform/external/parameter-framework - Git at Google

 /*
  * Copyright (c) 2011-2015, Intel Corporation
  * All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without modification,
  * are permitted provided that the following conditions are met:
  *
  * 1. Redistributions of source code must retain the above copyright notice, this
  * list of conditions and the following disclaimer.
  *
  * 2. Redistributions in binary form must reproduce the above copyright notice,
  * this list of conditions and the following disclaimer in the documentation and/or
  * other materials provided with the distribution.
  *
  * 3. Neither the name of the copyright holder nor the names of its contributors
  * may be used to endorse or promote products derived from this software without
  * specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
  * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
  * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
  * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
  * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
  * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
  * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  */
 #include "ConfigurableElement.h"
 #include "MappingData.h"
 #include "SyncerSet.h"
 #include "ConfigurableDomain.h"
 #include "ConfigurationAccessContext.h"
 #include "ConfigurableElementAggregator.h"
 #include "AreaConfiguration.h"
 #include "Iterator.hpp"
 #include "Utility.h"
 #include "XmlParameterSerializingContext.h"
 #include <assert.h>

 #define base CElement

 CConfigurableElement::CConfigurableElement(const std::string &strName) : base(strName)
 {
 }

 bool CConfigurableElement::fromXml(const CXmlElement &xmlElement,
                                    CXmlSerializingContext &serializingContext)
 {
     auto &context = static_cast<CXmlParameterSerializingContext &>(serializingContext);
     auto &accessContext = context.getAccessContext();

     if (accessContext.serializeSettings()) {
         // As serialization and deserialisation are handled through the *same* function
         // the (de)serialize object can not be const in `serializeXmlSettings` signature.
         // As a result a const_cast is unavoidable :(.
         // Fixme: split serializeXmlSettings in two functions (in and out) to avoid the `const_cast`
         return serializeXmlSettings(const_cast<CXmlElement &>(xmlElement),
                                     static_cast<CConfigurationAccessContext &>(accessContext));
     }
     return structureFromXml(xmlElement, serializingContext);
 }

 void CConfigurableElement::toXml(CXmlElement &xmlElement,
                                  CXmlSerializingContext &serializingContext) const
 {
     auto &context = static_cast<CXmlParameterSerializingContext &>(serializingContext);
     auto &accessContext = context.getAccessContext();
     if (accessContext.serializeSettings()) {

         serializeXmlSettings(xmlElement, static_cast<CConfigurationAccessContext &>(accessContext));
     } else {

         structureToXml(xmlElement, serializingContext);
     }
 }

 // XML configuration settings parsing
 bool CConfigurableElement::serializeXmlSettings(
     CXmlElement &xmlConfigurationSettingsElementContent,
     CConfigurationAccessContext &configurationAccessContext) const
 {
     size_t uiNbChildren = getNbChildren();

     if (!configurationAccessContext.serializeOut()) {
         // Just do basic checks and propagate to children
         CXmlElement::CChildIterator it(xmlConfigurationSettingsElementContent);

         CXmlElement xmlChildConfigurableElementSettingsElement;

         // Propagate to children
         for (size_t index = 0; index < uiNbChildren; index++) {

             // Get child
             const CConfigurableElement *pChildConfigurableElement =
                 static_cast<const CConfigurableElement *>(getChild(index));

             if (!it.next(xmlChildConfigurableElementSettingsElement)) {

                 // Structure error
                 configurationAccessContext.setError(
                     "Configuration settings parsing: missing child node " +
                     pChildConfigurableElement->getXmlElementName() + " (name:" +
                     pChildConfigurableElement->getName() + ") in " + getName());

                 return false;
             }

             // Check element type matches in type
             if (xmlChildConfigurableElementSettingsElement.getType() !=
                 pChildConfigurableElement->getXmlElementName()) {

                 // "Component" tag has been renamed to "ParameterBlock", but retro-compatibility
                 // shall be ensured.
                 //
                 // So checking if this case occurs, i.e. element name is "ParameterBlock"
                 // but xml setting name is "Component".
                 bool compatibilityCase =
                     (pChildConfigurableElement->getXmlElementName() == "ParameterBlock") &&
                     (xmlChildConfigurableElementSettingsElement.getType() == "Component");

                 // Error if the compatibility case does not occur.
                 if (!compatibilityCase) {

                     // Type error
                     configurationAccessContext.setError(
                         "Configuration settings parsing: Settings "
                         "for configurable element " +
                         pChildConfigurableElement->getQualifiedPath() +
                         " does not match expected type: " +
                         xmlChildConfigurableElementSettingsElement.getType() + " instead of " +
                         pChildConfigurableElement->getKind());
                     return false;
                 }
             }

             // Check element type matches in name
             if (xmlChildConfigurableElementSettingsElement.getNameAttribute() !=
                 pChildConfigurableElement->getName()) {

                 // Name error
                 configurationAccessContext.setError(
                     "Configuration settings parsing: Under configurable element " +
                     getQualifiedPath() + ", expected element name " +
                     pChildConfigurableElement->getName() + " but found " +
                     xmlChildConfigurableElementSettingsElement.getNameAttribute() + " instead");

                 return false;
             }

             // Parse child configurable element's settings
             if (!pChildConfigurableElement->serializeXmlSettings(
                     xmlChildConfigurableElementSettingsElement, configurationAccessContext)) {

                 return false;
             }
         }
         // There should remain no configurable element to parse
         if (it.next(xmlChildConfigurableElementSettingsElement)) {

             // Structure error
             configurationAccessContext.setError(
                 "Configuration settings parsing: Unexpected xml element node " +
                 xmlChildConfigurableElementSettingsElement.getType() + " in " + getQualifiedPath());

             return false;
         }
     } else {
         // Handle element name attribute
         xmlConfigurationSettingsElementContent.setNameAttribute(getName());

         // Propagate to children
         for (size_t index = 0; index < uiNbChildren; index++) {

             const CConfigurableElement *pChildConfigurableElement =
                 static_cast<const CConfigurableElement *>(getChild(index));

             // Create corresponding child element
             CXmlElement xmlChildConfigurableElementSettingsElement;

             xmlConfigurationSettingsElementContent.createChild(
                 xmlChildConfigurableElementSettingsElement,
                 pChildConfigurableElement->getXmlElementName());

             // Propagate
             pChildConfigurableElement->serializeXmlSettings(
                 xmlChildConfigurableElementSettingsElement, configurationAccessContext);
         }
     }
     // Done
     return true;
 }

 // AreaConfiguration creation
 CAreaConfiguration *CConfigurableElement::createAreaConfiguration(
     const CSyncerSet *pSyncerSet) const
 {
     return new CAreaConfiguration(this, pSyncerSet);
 }

 // Parameter access
 bool CConfigurableElement::accessValue(CPathNavigator &pathNavigator, std::string &strValue,
                                        bool bSet,
                                        CParameterAccessContext &parameterAccessContext) const
 {
     std::string *pStrChildName = pathNavigator.next();

     if (!pStrChildName) {

         parameterAccessContext.setError((bSet ? "Can't set " : "Can't get ") +
                                         pathNavigator.getCurrentPath() +
                                         " because it is not a parameter");

         return false;
     }

     const CConfigurableElement *pChild =
         static_cast<const CConfigurableElement *>(findChild(*pStrChildName));

     if (!pChild) {

         parameterAccessContext.setError("Path not found: " + pathNavigator.getCurrentPath());

         return false;
     }

     return pChild->accessValue(pathNavigator, strValue, bSet, parameterAccessContext);
 }

 // Whole element access
 void CConfigurableElement::getSettingsAsBytes(std::vector<uint8_t> &bytes,
                                               CParameterAccessContext &parameterAccessContext) const
 {
     bytes.resize(getFootPrint());

     parameterAccessContext.getParameterBlackboard()->readBytes(
         bytes, getOffset() - parameterAccessContext.getBaseOffset());
 }

 bool CConfigurableElement::setSettingsAsBytes(const std::vector<uint8_t> &bytes,
                                               CParameterAccessContext &parameterAccessContext) const
 {
     CParameterBlackboard *pParameterBlackboard = parameterAccessContext.getParameterBlackboard();

     // Size
     size_t size = getFootPrint();

     // Check sizes match
     if (size != bytes.size()) {

         parameterAccessContext.setError(std::string("Wrong size: Expected: ") +
                                         std::to_string(size) + " Provided: " +
                                         std::to_string(bytes.size()));

         return false;
     }

     // Write bytes
     pParameterBlackboard->writeBytes(bytes, getOffset() - parameterAccessContext.getBaseOffset());

     if (not parameterAccessContext.getAutoSync()) {
         // Auto sync is not activated, sync will be defered until an explicit request
         return true;
     }

     CSyncerSet syncerSet;
     fillSyncerSet(syncerSet);
     core::Results res;
     if (not syncerSet.sync(*parameterAccessContext.getParameterBlackboard(), false, &res)) {

         parameterAccessContext.setError(utility::asString(res));
         return false;
     }
     return true;
 }

 std::list<const CConfigurableElement *> CConfigurableElement::getConfigurableElementContext() const
 {
     std::list<const CConfigurableElement *> configurableElementPath;

     const CElement *element = this;
     while (element != nullptr and isOfConfigurableElementType(element)) {
         auto configurableElement = static_cast<const CConfigurableElement *>(element);

         configurableElementPath.push_back(configurableElement);
         element = element->getParent();
     }

     return configurableElementPath;
 }

 // Used for simulation and virtual subsystems
 void CConfigurableElement::setDefaultValues(CParameterAccessContext &parameterAccessContext) const
 {
     // Propagate to children
     size_t uiNbChildren = getNbChildren();

     for (size_t index = 0; index < uiNbChildren; index++) {

         const CConfigurableElement *pConfigurableElement =
             static_cast<const CConfigurableElement *>(getChild(index));

         pConfigurableElement->setDefaultValues(parameterAccessContext);
     }
 }

 // Element properties
 void CConfigurableElement::showProperties(std::string &strResult) const
 {
     base::showProperties(strResult);

     strResult += "Total size: " + getFootprintAsString() + "\n";
 }

 std::string CConfigurableElement::logValue(utility::ErrorContext &context) const
 {
     return logValue(static_cast<CParameterAccessContext &>(context));
 }

 std::string CConfigurableElement::logValue(CParameterAccessContext & /*ctx*/) const
 {
     // By default, an element does not have a value. Only leaf elements have
     // one. This method could be pure virtual but then, several derived classes
     // would need to implement it in order to simply return an empty string.
     return "";
 }

 // Offset
 void CConfigurableElement::setOffset(size_t offset)
 {
     // Assign offset locally
     _offset = offset;

     // Propagate to children
     size_t uiNbChildren = getNbChildren();

     for (size_t index = 0; index < uiNbChildren; index++) {

         CConfigurableElement *pConfigurableElement =
             static_cast<CConfigurableElement *>(getChild(index));

         pConfigurableElement->setOffset(offset);

         offset += pConfigurableElement->getFootPrint();
     }
 }

 size_t CConfigurableElement::getOffset() const
 {
     return _offset;
 }

 // Memory
 size_t CConfigurableElement::getFootPrint() const
 {
     size_t uiSize = 0;
     size_t uiNbChildren = getNbChildren();

     for (size_t index = 0; index < uiNbChildren; index++) {

         const CConfigurableElement *pConfigurableElement =
             static_cast<const CConfigurableElement *>(getChild(index));

         uiSize += pConfigurableElement->getFootPrint();
     }

     return uiSize;
 }

 // Browse parent path to find syncer
 ISyncer *CConfigurableElement::getSyncer() const
 {
     // Check parent
     const CElement *pParent = getParent();

     if (isOfConfigurableElementType(pParent)) {

         return static_cast<const CConfigurableElement *>(pParent)->getSyncer();
     }
     return nullptr;
 }

 // Syncer set (me, ascendant or descendant ones)
 void CConfigurableElement::fillSyncerSet(CSyncerSet &syncerSet) const
 {
     //  Try me or ascendants
     ISyncer *pMineOrAscendantSyncer = getSyncer();

     if (pMineOrAscendantSyncer) {

         // Provide found syncer object
         syncerSet += pMineOrAscendantSyncer;

         // Done
         return;
     }
     // Fetch descendant ones
     fillSyncerSetFromDescendant(syncerSet);
 }

 // Syncer set (descendant)
 void CConfigurableElement::fillSyncerSetFromDescendant(CSyncerSet &syncerSet) const
 {
     // Dig
     size_t uiNbChildren = getNbChildren();

     for (size_t index = 0; index < uiNbChildren; index++) {

         const CConfigurableElement *pConfigurableElement =
             static_cast<const CConfigurableElement *>(getChild(index));

         pConfigurableElement->fillSyncerSetFromDescendant(syncerSet);
     }
 }

 // Configurable domain association
 void CConfigurableElement::addAttachedConfigurableDomain(
     const CConfigurableDomain *pConfigurableDomain)
 {
     _configurableDomainList.push_back(pConfigurableDomain);
 }

 void CConfigurableElement::removeAttachedConfigurableDomain(
     const CConfigurableDomain *pConfigurableDomain)
 {
     _configurableDomainList.remove(pConfigurableDomain);
 }

 // Belonging domain
 bool CConfigurableElement::belongsTo(const CConfigurableDomain *pConfigurableDomain) const
 {
     if (containsConfigurableDomain(pConfigurableDomain)) {

         return true;
     }
     return belongsToDomainAscending(pConfigurableDomain);
 }

 // Belonging domains
 void CConfigurableElement::getBelongingDomains(
     std::list<const CConfigurableDomain *> &configurableDomainList) const
 {
     configurableDomainList.insert(configurableDomainList.end(), _configurableDomainList.begin(),
                                   _configurableDomainList.end());

     // Check parent
     const CElement *pParent = getParent();

     if (isOfConfigurableElementType(pParent)) {

         static_cast<const CConfigurableElement *>(pParent)->getBelongingDomains(
             configurableDomainList);
     }
 }

 void CConfigurableElement::listBelongingDomains(std::string &strResult, bool bVertical) const
 {
     // Get belonging domain list
     std::list<const CConfigurableDomain *> configurableDomainList;

     getBelongingDomains(configurableDomainList);

     // Fill list
     listDomains(configurableDomainList, strResult, bVertical);
 }

 // Elements with no domains
 void CConfigurableElement::listRogueElements(std::string &strResult) const
 {
     // Get rogue element aggregate list (no associated domain)
     std::list<const CConfigurableElement *> rogueElementList;

     CConfigurableElementAggregator configurableElementAggregator(
         rogueElementList, &CConfigurableElement::hasNoDomainAssociated);

     configurableElementAggregator.aggegate(this);

     // Build list as std::string
     std::list<const CConfigurableElement *>::const_iterator it;

     for (it = rogueElementList.begin(); it != rogueElementList.end(); ++it) {

         const CConfigurableElement *pConfigurableElement = *it;

         strResult += pConfigurableElement->getPath() + "\n";
     }
 }

 bool CConfigurableElement::isRogue() const
 {
     // Check not belonging to any domin from current level and towards ascendents
     if (getBelongingDomainCount() != 0) {

         return false;
     }

     // Get a list of elements (current + descendants) with no domains associated
     std::list<const CConfigurableElement *> rogueElementList;

     CConfigurableElementAggregator agregator(rogueElementList,
                                              &CConfigurableElement::hasNoDomainAssociated);

     agregator.aggegate(this);

     // Check only one element found which ought to be current one
     return (rogueElementList.size() == 1) && (rogueElementList.front() == this);
 }

 // Footprint as string
 std::string CConfigurableElement::getFootprintAsString() const
 {
     // Get size as string
     return std::to_string(getFootPrint()) + " byte(s)";
 }

 // Matching check for no domain association
 bool CConfigurableElement::hasNoDomainAssociated() const
 {
     return _configurableDomainList.empty();
 }

 // Matching check for no valid associated domains
 bool CConfigurableElement::hasNoValidDomainAssociated() const
 {
     if (_configurableDomainList.empty()) {

         // No domains associated
         return true;
     }

     ConfigurableDomainListConstIterator it;

     // Browse all configurable domains for validity checking
     for (it = _configurableDomainList.begin(); it != _configurableDomainList.end(); ++it) {

         const CConfigurableDomain *pConfigurableDomain = *it;

         if (pConfigurableDomain->isApplicableConfigurationValid(this)) {

             return false;
         }
     }

     return true;
 }

 // Owning domains
 void CConfigurableElement::listAssociatedDomains(std::string &strResult, bool bVertical) const
 {
     // Fill list
     listDomains(_configurableDomainList, strResult, bVertical);
 }

 size_t CConfigurableElement::getBelongingDomainCount() const
 {
     // Get belonging domain list
     std::list<const CConfigurableDomain *> configurableDomainList;

     getBelongingDomains(configurableDomainList);

     return configurableDomainList.size();
 }

 void CConfigurableElement::listDomains(
     const std::list<const CConfigurableDomain *> &configurableDomainList, std::string &strResult,
     bool bVertical) const
 {
     // Fill list
     ConfigurableDomainListConstIterator it;
     bool bFirst = true;

     // Browse all configurable domains for comparison
     for (it = configurableDomainList.begin(); it != configurableDomainList.end(); ++it) {

         const CConfigurableDomain *pConfigurableDomain = *it;

         if (!bVertical && !bFirst) {

             strResult += ", ";
         }

         strResult += pConfigurableDomain->getName();

         if (bVertical) {

             strResult += "\n";
         } else {

             bFirst = false;
         }
     }
 }

 bool CConfigurableElement::containsConfigurableDomain(
     const CConfigurableDomain *pConfigurableDomain) const
 {
     ConfigurableDomainListConstIterator it;

     // Browse all configurable domains for comparison
     for (it = _configurableDomainList.begin(); it != _configurableDomainList.end(); ++it) {

         if (pConfigurableDomain == *it) {

             return true;
         }
     }
     return false;
 }

 // Belonging domain ascending search
 bool CConfigurableElement::belongsToDomainAscending(
     const CConfigurableDomain *pConfigurableDomain) const
 {
     // Check parent
     const CElement *pParent = getParent();

     if (isOfConfigurableElementType(pParent)) {

         return static_cast<const CConfigurableElement *>(pParent)->belongsTo(pConfigurableDomain);
     }
     return false;
 }

 // Belonging subsystem
 const CSubsystem *CConfigurableElement::getBelongingSubsystem() const
 {
     const CElement *pParent = getParent();

     // Stop at system class
     if (!pParent->getParent()) {

         return nullptr;
     }

     return static_cast<const CConfigurableElement *>(pParent)->getBelongingSubsystem();
 }

 // Check element is a parameter
 bool CConfigurableElement::isParameter() const
 {
     return false;
 }

 // Check parent is still of current type (by structure knowledge)
 bool CConfigurableElement::isOfConfigurableElementType(const CElement *pParent) const
 {
     assert(pParent);

     // Up to system class
     return !!pParent->getParent();
 }
	/*
	* Copyright (c) 2011-2015, Intel Corporation
	* All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without modification,
	* are permitted provided that the following conditions are met:
	*
	* 1. Redistributions of source code must retain the above copyright notice, this
	* list of conditions and the following disclaimer.
	*
	* 2. Redistributions in binary form must reproduce the above copyright notice,
	* this list of conditions and the following disclaimer in the documentation and/or
	* other materials provided with the distribution.
	*
	* 3. Neither the name of the copyright holder nor the names of its contributors
	* may be used to endorse or promote products derived from this software without
	* specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
	* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
	* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
	* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
	* ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
	* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
	* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
	* ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
	* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*/
	#include "ConfigurableElement.h"
	#include "MappingData.h"
	#include "SyncerSet.h"
	#include "ConfigurableDomain.h"
	#include "ConfigurationAccessContext.h"
	#include "ConfigurableElementAggregator.h"
	#include "AreaConfiguration.h"
	#include "Iterator.hpp"
	#include "Utility.h"
	#include "XmlParameterSerializingContext.h"
	#include <assert.h>

	#define base CElement

	CConfigurableElement::CConfigurableElement(const std::string &strName) : base(strName)
	{
	}

	bool CConfigurableElement::fromXml(const CXmlElement &xmlElement,
	CXmlSerializingContext &serializingContext)
	{
	auto &context = static_cast<CXmlParameterSerializingContext &>(serializingContext);
	auto &accessContext = context.getAccessContext();

	if (accessContext.serializeSettings()) {
	// As serialization and deserialisation are handled through the same function
	// the (de)serialize object can not be const in `serializeXmlSettings` signature.
	// As a result a const_cast is unavoidable :(.
	// Fixme: split serializeXmlSettings in two functions (in and out) to avoid the `const_cast`
	return serializeXmlSettings(const_cast<CXmlElement &>(xmlElement),
	static_cast<CConfigurationAccessContext &>(accessContext));
	}
	return structureFromXml(xmlElement, serializingContext);
	}

	void CConfigurableElement::toXml(CXmlElement &xmlElement,
	CXmlSerializingContext &serializingContext) const
	{
	auto &context = static_cast<CXmlParameterSerializingContext &>(serializingContext);
	auto &accessContext = context.getAccessContext();
	if (accessContext.serializeSettings()) {

	serializeXmlSettings(xmlElement, static_cast<CConfigurationAccessContext &>(accessContext));
	} else {

	structureToXml(xmlElement, serializingContext);
	}
	}

	// XML configuration settings parsing
	bool CConfigurableElement::serializeXmlSettings(
	CXmlElement &xmlConfigurationSettingsElementContent,
	CConfigurationAccessContext &configurationAccessContext) const
	{
	size_t uiNbChildren = getNbChildren();

	if (!configurationAccessContext.serializeOut()) {
	// Just do basic checks and propagate to children
	CXmlElement::CChildIterator it(xmlConfigurationSettingsElementContent);

	CXmlElement xmlChildConfigurableElementSettingsElement;

	// Propagate to children
	for (size_t index = 0; index < uiNbChildren; index++) {

	// Get child
	const CConfigurableElement *pChildConfigurableElement =
	static_cast<const CConfigurableElement *>(getChild(index));

	if (!it.next(xmlChildConfigurableElementSettingsElement)) {

	// Structure error
	configurationAccessContext.setError(
	"Configuration settings parsing: missing child node " +
	pChildConfigurableElement->getXmlElementName() + " (name:" +
	pChildConfigurableElement->getName() + ") in " + getName());

	return false;
	}

	// Check element type matches in type
	if (xmlChildConfigurableElementSettingsElement.getType() !=
	pChildConfigurableElement->getXmlElementName()) {

	// "Component" tag has been renamed to "ParameterBlock", but retro-compatibility
	// shall be ensured.
	//
	// So checking if this case occurs, i.e. element name is "ParameterBlock"
	// but xml setting name is "Component".
	bool compatibilityCase =
	(pChildConfigurableElement->getXmlElementName() == "ParameterBlock") &&
	(xmlChildConfigurableElementSettingsElement.getType() == "Component");

	// Error if the compatibility case does not occur.
	if (!compatibilityCase) {

	// Type error
	configurationAccessContext.setError(
	"Configuration settings parsing: Settings "
	"for configurable element " +
	pChildConfigurableElement->getQualifiedPath() +
	" does not match expected type: " +
	xmlChildConfigurableElementSettingsElement.getType() + " instead of " +
	pChildConfigurableElement->getKind());
	return false;
	}
	}

	// Check element type matches in name
	if (xmlChildConfigurableElementSettingsElement.getNameAttribute() !=
	pChildConfigurableElement->getName()) {

	// Name error
	configurationAccessContext.setError(
	"Configuration settings parsing: Under configurable element " +
	getQualifiedPath() + ", expected element name " +
	pChildConfigurableElement->getName() + " but found " +
	xmlChildConfigurableElementSettingsElement.getNameAttribute() + " instead");

	return false;
	}

	// Parse child configurable element's settings
	if (!pChildConfigurableElement->serializeXmlSettings(
	xmlChildConfigurableElementSettingsElement, configurationAccessContext)) {

	return false;
	}
	}
	// There should remain no configurable element to parse
	if (it.next(xmlChildConfigurableElementSettingsElement)) {

	// Structure error
	configurationAccessContext.setError(
	"Configuration settings parsing: Unexpected xml element node " +
	xmlChildConfigurableElementSettingsElement.getType() + " in " + getQualifiedPath());

	return false;
	}
	} else {
	// Handle element name attribute
	xmlConfigurationSettingsElementContent.setNameAttribute(getName());

	// Propagate to children
	for (size_t index = 0; index < uiNbChildren; index++) {

	const CConfigurableElement *pChildConfigurableElement =
	static_cast<const CConfigurableElement *>(getChild(index));

	// Create corresponding child element
	CXmlElement xmlChildConfigurableElementSettingsElement;

	xmlConfigurationSettingsElementContent.createChild(
	xmlChildConfigurableElementSettingsElement,
	pChildConfigurableElement->getXmlElementName());

	// Propagate
	pChildConfigurableElement->serializeXmlSettings(
	xmlChildConfigurableElementSettingsElement, configurationAccessContext);
	}
	}
	// Done
	return true;
	}

	// AreaConfiguration creation
	CAreaConfiguration *CConfigurableElement::createAreaConfiguration(
	const CSyncerSet *pSyncerSet) const
	{
	return new CAreaConfiguration(this, pSyncerSet);
	}

	// Parameter access
	bool CConfigurableElement::accessValue(CPathNavigator &pathNavigator, std::string &strValue,
	bool bSet,
	CParameterAccessContext &parameterAccessContext) const
	{
	std::string *pStrChildName = pathNavigator.next();

	if (!pStrChildName) {

	parameterAccessContext.setError((bSet ? "Can't set " : "Can't get ") +
	pathNavigator.getCurrentPath() +
	" because it is not a parameter");

	return false;
	}

	const CConfigurableElement *pChild =
	static_cast<const CConfigurableElement >(findChild(pStrChildName));

	if (!pChild) {

	parameterAccessContext.setError("Path not found: " + pathNavigator.getCurrentPath());

	return false;
	}

	return pChild->accessValue(pathNavigator, strValue, bSet, parameterAccessContext);
	}

	// Whole element access
	void CConfigurableElement::getSettingsAsBytes(std::vector<uint8_t> &bytes,
	CParameterAccessContext &parameterAccessContext) const
	{
	bytes.resize(getFootPrint());

	parameterAccessContext.getParameterBlackboard()->readBytes(
	bytes, getOffset() - parameterAccessContext.getBaseOffset());
	}

	bool CConfigurableElement::setSettingsAsBytes(const std::vector<uint8_t> &bytes,
	CParameterAccessContext &parameterAccessContext) const
	{
	CParameterBlackboard *pParameterBlackboard = parameterAccessContext.getParameterBlackboard();

	// Size
	size_t size = getFootPrint();

	// Check sizes match
	if (size != bytes.size()) {

	parameterAccessContext.setError(std::string("Wrong size: Expected: ") +
	std::to_string(size) + " Provided: " +
	std::to_string(bytes.size()));

	return false;
	}

	// Write bytes
	pParameterBlackboard->writeBytes(bytes, getOffset() - parameterAccessContext.getBaseOffset());

	if (not parameterAccessContext.getAutoSync()) {
	// Auto sync is not activated, sync will be defered until an explicit request
	return true;
	}

	CSyncerSet syncerSet;
	fillSyncerSet(syncerSet);
	core::Results res;
	if (not syncerSet.sync(*parameterAccessContext.getParameterBlackboard(), false, &res)) {

	parameterAccessContext.setError(utility::asString(res));
	return false;
	}
	return true;
	}

	std::list<const CConfigurableElement *> CConfigurableElement::getConfigurableElementContext() const
	{
	std::list<const CConfigurableElement *> configurableElementPath;

	const CElement *element = this;
	while (element != nullptr and isOfConfigurableElementType(element)) {
	auto configurableElement = static_cast<const CConfigurableElement *>(element);

	configurableElementPath.push_back(configurableElement);
	element = element->getParent();
	}

	return configurableElementPath;
	}

	// Used for simulation and virtual subsystems
	void CConfigurableElement::setDefaultValues(CParameterAccessContext &parameterAccessContext) const
	{
	// Propagate to children
	size_t uiNbChildren = getNbChildren();

	for (size_t index = 0; index < uiNbChildren; index++) {

	const CConfigurableElement *pConfigurableElement =
	static_cast<const CConfigurableElement *>(getChild(index));

	pConfigurableElement->setDefaultValues(parameterAccessContext);
	}
	}

	// Element properties
	void CConfigurableElement::showProperties(std::string &strResult) const
	{
	base::showProperties(strResult);

	strResult += "Total size: " + getFootprintAsString() + "\n";
	}

	std::string CConfigurableElement::logValue(utility::ErrorContext &context) const
	{
	return logValue(static_cast<CParameterAccessContext &>(context));
	}

	std::string CConfigurableElement::logValue(CParameterAccessContext & /ctx/) const
	{
	// By default, an element does not have a value. Only leaf elements have
	// one. This method could be pure virtual but then, several derived classes
	// would need to implement it in order to simply return an empty string.
	return "";
	}

	// Offset
	void CConfigurableElement::setOffset(size_t offset)
	{
	// Assign offset locally
	_offset = offset;

	// Propagate to children
	size_t uiNbChildren = getNbChildren();

	for (size_t index = 0; index < uiNbChildren; index++) {

	CConfigurableElement *pConfigurableElement =
	static_cast<CConfigurableElement *>(getChild(index));

	pConfigurableElement->setOffset(offset);

	offset += pConfigurableElement->getFootPrint();
	}
	}

	size_t CConfigurableElement::getOffset() const
	{
	return _offset;
	}

	// Memory
	size_t CConfigurableElement::getFootPrint() const
	{
	size_t uiSize = 0;
	size_t uiNbChildren = getNbChildren();

	for (size_t index = 0; index < uiNbChildren; index++) {

	const CConfigurableElement *pConfigurableElement =
	static_cast<const CConfigurableElement *>(getChild(index));

	uiSize += pConfigurableElement->getFootPrint();
	}

	return uiSize;
	}

	// Browse parent path to find syncer
	ISyncer *CConfigurableElement::getSyncer() const
	{
	// Check parent
	const CElement *pParent = getParent();

	if (isOfConfigurableElementType(pParent)) {

	return static_cast<const CConfigurableElement *>(pParent)->getSyncer();
	}
	return nullptr;
	}

	// Syncer set (me, ascendant or descendant ones)
	void CConfigurableElement::fillSyncerSet(CSyncerSet &syncerSet) const
	{
	// Try me or ascendants
	ISyncer *pMineOrAscendantSyncer = getSyncer();

	if (pMineOrAscendantSyncer) {

	// Provide found syncer object
	syncerSet += pMineOrAscendantSyncer;

	// Done
	return;
	}
	// Fetch descendant ones
	fillSyncerSetFromDescendant(syncerSet);
	}

	// Syncer set (descendant)
	void CConfigurableElement::fillSyncerSetFromDescendant(CSyncerSet &syncerSet) const
	{
	// Dig
	size_t uiNbChildren = getNbChildren();

	for (size_t index = 0; index < uiNbChildren; index++) {

	const CConfigurableElement *pConfigurableElement =
	static_cast<const CConfigurableElement *>(getChild(index));

	pConfigurableElement->fillSyncerSetFromDescendant(syncerSet);
	}
	}

	// Configurable domain association
	void CConfigurableElement::addAttachedConfigurableDomain(
	const CConfigurableDomain *pConfigurableDomain)
	{
	_configurableDomainList.push_back(pConfigurableDomain);
	}

	void CConfigurableElement::removeAttachedConfigurableDomain(
	const CConfigurableDomain *pConfigurableDomain)
	{
	_configurableDomainList.remove(pConfigurableDomain);
	}

	// Belonging domain
	bool CConfigurableElement::belongsTo(const CConfigurableDomain *pConfigurableDomain) const
	{
	if (containsConfigurableDomain(pConfigurableDomain)) {

	return true;
	}
	return belongsToDomainAscending(pConfigurableDomain);
	}

	// Belonging domains
	void CConfigurableElement::getBelongingDomains(
	std::list<const CConfigurableDomain *> &configurableDomainList) const
	{
	configurableDomainList.insert(configurableDomainList.end(), _configurableDomainList.begin(),
	_configurableDomainList.end());

	// Check parent
	const CElement *pParent = getParent();

	if (isOfConfigurableElementType(pParent)) {

	static_cast<const CConfigurableElement *>(pParent)->getBelongingDomains(
	configurableDomainList);
	}
	}

	void CConfigurableElement::listBelongingDomains(std::string &strResult, bool bVertical) const
	{
	// Get belonging domain list
	std::list<const CConfigurableDomain *> configurableDomainList;

	getBelongingDomains(configurableDomainList);

	// Fill list
	listDomains(configurableDomainList, strResult, bVertical);
	}

	// Elements with no domains
	void CConfigurableElement::listRogueElements(std::string &strResult) const
	{
	// Get rogue element aggregate list (no associated domain)
	std::list<const CConfigurableElement *> rogueElementList;

	CConfigurableElementAggregator configurableElementAggregator(
	rogueElementList, &CConfigurableElement::hasNoDomainAssociated);

	configurableElementAggregator.aggegate(this);

	// Build list as std::string
	std::list<const CConfigurableElement *>::const_iterator it;

	for (it = rogueElementList.begin(); it != rogueElementList.end(); ++it) {

	const CConfigurableElement pConfigurableElement = it;

	strResult += pConfigurableElement->getPath() + "\n";
	}
	}

	bool CConfigurableElement::isRogue() const
	{
	// Check not belonging to any domin from current level and towards ascendents
	if (getBelongingDomainCount() != 0) {

	return false;
	}

	// Get a list of elements (current + descendants) with no domains associated
	std::list<const CConfigurableElement *> rogueElementList;

	CConfigurableElementAggregator agregator(rogueElementList,
	&CConfigurableElement::hasNoDomainAssociated);

	agregator.aggegate(this);

	// Check only one element found which ought to be current one
	return (rogueElementList.size() == 1) && (rogueElementList.front() == this);
	}

	// Footprint as string
	std::string CConfigurableElement::getFootprintAsString() const
	{
	// Get size as string
	return std::to_string(getFootPrint()) + " byte(s)";
	}

	// Matching check for no domain association
	bool CConfigurableElement::hasNoDomainAssociated() const
	{
	return _configurableDomainList.empty();
	}

	// Matching check for no valid associated domains
	bool CConfigurableElement::hasNoValidDomainAssociated() const
	{
	if (_configurableDomainList.empty()) {

	// No domains associated
	return true;
	}

	ConfigurableDomainListConstIterator it;

	// Browse all configurable domains for validity checking
	for (it = _configurableDomainList.begin(); it != _configurableDomainList.end(); ++it) {

	const CConfigurableDomain pConfigurableDomain = it;

	if (pConfigurableDomain->isApplicableConfigurationValid(this)) {

	return false;
	}
	}

	return true;
	}

	// Owning domains
	void CConfigurableElement::listAssociatedDomains(std::string &strResult, bool bVertical) const
	{
	// Fill list
	listDomains(_configurableDomainList, strResult, bVertical);
	}

	size_t CConfigurableElement::getBelongingDomainCount() const
	{
	// Get belonging domain list
	std::list<const CConfigurableDomain *> configurableDomainList;

	getBelongingDomains(configurableDomainList);

	return configurableDomainList.size();
	}

	void CConfigurableElement::listDomains(
	const std::list<const CConfigurableDomain *> &configurableDomainList, std::string &strResult,
	bool bVertical) const
	{
	// Fill list
	ConfigurableDomainListConstIterator it;
	bool bFirst = true;

	// Browse all configurable domains for comparison
	for (it = configurableDomainList.begin(); it != configurableDomainList.end(); ++it) {

	const CConfigurableDomain pConfigurableDomain = it;

	if (!bVertical && !bFirst) {

	strResult += ", ";
	}

	strResult += pConfigurableDomain->getName();

	if (bVertical) {

	strResult += "\n";
	} else {

	bFirst = false;
	}
	}
	}

	bool CConfigurableElement::containsConfigurableDomain(
	const CConfigurableDomain *pConfigurableDomain) const
	{
	ConfigurableDomainListConstIterator it;

	// Browse all configurable domains for comparison
	for (it = _configurableDomainList.begin(); it != _configurableDomainList.end(); ++it) {

	if (pConfigurableDomain == *it) {

	return true;
	}
	}
	return false;
	}

	// Belonging domain ascending search
	bool CConfigurableElement::belongsToDomainAscending(
	const CConfigurableDomain *pConfigurableDomain) const
	{
	// Check parent
	const CElement *pParent = getParent();

	if (isOfConfigurableElementType(pParent)) {

	return static_cast<const CConfigurableElement *>(pParent)->belongsTo(pConfigurableDomain);
	}
	return false;
	}

	// Belonging subsystem
	const CSubsystem *CConfigurableElement::getBelongingSubsystem() const
	{
	const CElement *pParent = getParent();

	// Stop at system class
	if (!pParent->getParent()) {

	return nullptr;
	}

	return static_cast<const CConfigurableElement *>(pParent)->getBelongingSubsystem();
	}

	// Check element is a parameter
	bool CConfigurableElement::isParameter() const
	{
	return false;
	}

	// Check parent is still of current type (by structure knowledge)
	bool CConfigurableElement::isOfConfigurableElementType(const CElement *pParent) const
	{
	assert(pParent);

	// Up to system class
	return !!pParent->getParent();
	}