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/*
* Copyright (c) 2011-2014, 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 "DomainConfiguration.h"
#include "AreaConfiguration.h"
#include "ConfigurableElement.h"
#include "CompoundRule.h"
#include "Subsystem.h"
#include "XmlDomainSerializingContext.h"
#include "XmlDomainImportContext.h"
#include "XmlDomainExportContext.h"
#include "ConfigurationAccessContext.h"
#include <assert.h>
#include "RuleParser.h"
#define base CBinarySerializableElement
using std::string;
CDomainConfiguration::CDomainConfiguration(const string& strName) : base(strName)
{
}
CDomainConfiguration::~CDomainConfiguration()
{
AreaConfigurationListIterator it;
for (it = _areaConfigurationList.begin(); it != _areaConfigurationList.end(); ++it) {
delete *it;
}
}
// Class kind
string CDomainConfiguration::getKind() const
{
return "Configuration";
}
// Child dynamic creation
bool CDomainConfiguration::childrenAreDynamic() const
{
return true;
}
// XML configuration settings parsing
bool CDomainConfiguration::parseSettings(CXmlElement& xmlConfigurationSettingsElement, CXmlSerializingContext& serializingContext)
{
// Actual XML context
CXmlDomainImportContext& xmlDomainImportContext = static_cast<CXmlDomainImportContext&>(serializingContext);
// Take care of configurable elements / area configurations ranks
std::list<CAreaConfiguration*> areaConfigurationList;
// Parse configurable element's configuration settings
CXmlElement::CChildIterator it(xmlConfigurationSettingsElement);
CXmlElement xmlConfigurableElementSettingsElement;
while (it.next(xmlConfigurableElementSettingsElement)) {
// Retrieve area configuration
string strConfigurableElementPath = xmlConfigurableElementSettingsElement.getAttributeString("Path");
CAreaConfiguration* pAreaConfiguration = findAreaConfiguration(strConfigurableElementPath);
if (!pAreaConfiguration) {
xmlDomainImportContext.setError("Configurable Element " + strConfigurableElementPath + " referred to by Configuration " + getPath() + " not associated to Domain");
return false;
}
// Ranks
areaConfigurationList.push_back(pAreaConfiguration);
// Parse
if (!serializeConfigurableElementSettings(pAreaConfiguration, xmlConfigurableElementSettingsElement, xmlDomainImportContext, false)) {
return false;
}
}
// Reorder area configurations according to XML content
reorderAreaConfigurations(areaConfigurationList);
return true;
}
// XML configuration settings composing
void CDomainConfiguration::composeSettings(CXmlElement& xmlConfigurationSettingsElement, CXmlSerializingContext& serializingContext) const
{
// Go through all are configurations
AreaConfigurationListIterator it;
for (it = _orderedAreaConfigurationList.begin(); it != _orderedAreaConfigurationList.end(); ++it) {
const CAreaConfiguration* pAreaConfiguration = *it;
// Retrieve configurable element
const CConfigurableElement* pConfigurableElement = pAreaConfiguration->getConfigurableElement();
// Create configurable element child element
CXmlElement xmlConfigurableElementSettingsElement;
xmlConfigurationSettingsElement.createChild(xmlConfigurableElementSettingsElement, "ConfigurableElement");
// Set Path attribute
xmlConfigurableElementSettingsElement.setAttributeString("Path", pConfigurableElement->getPath());
// Delegate composing to area configuration
((CDomainConfiguration&)(*this)).serializeConfigurableElementSettings((CAreaConfiguration*)pAreaConfiguration, xmlConfigurableElementSettingsElement, serializingContext, true);
}
}
// Serialize one configuration for one configurable element
bool CDomainConfiguration::serializeConfigurableElementSettings(CAreaConfiguration* pAreaConfiguration, CXmlElement& xmlConfigurableElementSettingsElement, CXmlSerializingContext& serializingContext, bool bSerializeOut)
{
// Actual XML context
CXmlDomainExportContext& xmlDomainExportContext =
static_cast<CXmlDomainExportContext&>(serializingContext);
// Configurable Element
const CConfigurableElement* pConfigurableElement = pAreaConfiguration->getConfigurableElement();
// Element content
CXmlElement xmlConfigurableElementSettingsElementContent;
// Deal with element itself
if (!bSerializeOut) {
// Check structure
if (xmlConfigurableElementSettingsElement.getNbChildElements() != 1) {
// Structure error
serializingContext.setError("Struture error encountered while parsing settings of " + pConfigurableElement->getKind() + " " + pConfigurableElement->getName() + " in Configuration " + getPath());
return false;
}
// Check name and kind
if (!xmlConfigurableElementSettingsElement.getChildElement(pConfigurableElement->getKind(), pConfigurableElement->getName(), xmlConfigurableElementSettingsElementContent)) {
serializingContext.setError("Couldn't find settings for " + pConfigurableElement->getKind() + " " + pConfigurableElement->getName() + " for Configuration " + getPath());
return false;
}
} else {
// Create child XML element
xmlConfigurableElementSettingsElement.createChild(xmlConfigurableElementSettingsElementContent, pConfigurableElement->getKind());
// Set Name
xmlConfigurableElementSettingsElementContent.setNameAttribute(pConfigurableElement->getName());
}
// Change context type to parameter settings access
string strError;
// Create configuration access context
CConfigurationAccessContext configurationAccessContext(strError, bSerializeOut);
// Provide current value space
configurationAccessContext.setValueSpaceRaw(xmlDomainExportContext.valueSpaceIsRaw());
// Provide current output raw format
configurationAccessContext.setOutputRawFormat(xmlDomainExportContext.outputRawFormatIsHex());
// Get subsystem
const CSubsystem* pSubsystem = pConfigurableElement->getBelongingSubsystem();
if (pSubsystem && pSubsystem != pConfigurableElement) {
// Element is a descendant of subsystem
// Deal with Endianness
configurationAccessContext.setBigEndianSubsystem(pSubsystem->isBigEndian());
}
// Have domain configuration parse settings for configurable element
if (!pAreaConfiguration->serializeXmlSettings(xmlConfigurableElementSettingsElementContent, configurationAccessContext)) {
// Forward error
xmlDomainExportContext.setError(strError);
return false;
}
return true;
}
// Configurable Elements association
void CDomainConfiguration::addConfigurableElement(const CConfigurableElement* pConfigurableElement, const CSyncerSet* pSyncerSet)
{
CAreaConfiguration* pAreaConfiguration = pConfigurableElement->createAreaConfiguration(pSyncerSet);
_areaConfigurationList.push_back(pAreaConfiguration);
_orderedAreaConfigurationList.push_back(pAreaConfiguration);
}
void CDomainConfiguration::removeConfigurableElement(const CConfigurableElement* pConfigurableElement)
{
CAreaConfiguration* pAreaConfigurationToRemove = getAreaConfiguration(pConfigurableElement);
_areaConfigurationList.remove(pAreaConfigurationToRemove);
_orderedAreaConfigurationList.remove(pAreaConfigurationToRemove);
delete pAreaConfigurationToRemove;
}
// Sequence management
bool CDomainConfiguration::setElementSequence(const std::vector<string>& astrNewElementSequence, string& strError)
{
// Build a new list of AreaConfiguration objects
std::list<CAreaConfiguration*> areaConfigurationList;
uint32_t uiConfigurableElement;
for (uiConfigurableElement = 0; uiConfigurableElement < astrNewElementSequence.size(); uiConfigurableElement++) {
string strConfigurableElementPath = astrNewElementSequence[uiConfigurableElement];
CAreaConfiguration* pAreaConfiguration = findAreaConfiguration(strConfigurableElementPath);
if (!pAreaConfiguration) {
strError = "Element " + strConfigurableElementPath + " not found in domain";
return false;
}
// Check not already present in the list
if (findAreaConfiguration(strConfigurableElementPath, areaConfigurationList)) {
strError = "Element " + strConfigurableElementPath + " provided more than once";
return false;
}
// Store new ordered area configuration
areaConfigurationList.push_back(pAreaConfiguration);
}
// Reorder area configurations according to given path list
reorderAreaConfigurations(areaConfigurationList);
return true;
}
void CDomainConfiguration::getElementSequence(string& strResult) const
{
strResult = "\n";
AreaConfigurationListIterator it;
// List configurable element paths out of ordered area configuration list
for (it = _orderedAreaConfigurationList.begin(); it != _orderedAreaConfigurationList.end(); ++it) {
const CAreaConfiguration* pAreaConfiguration = *it;
const CConfigurableElement* pConfigurableElement = pAreaConfiguration->getConfigurableElement();
strResult += pConfigurableElement->getPath() + "\n";
}
}
// Application rule
bool CDomainConfiguration::setApplicationRule(const string& strApplicationRule, const CSelectionCriteriaDefinition* pSelectionCriteriaDefinition, string& strError)
{
// Parser
CRuleParser ruleParser(strApplicationRule, pSelectionCriteriaDefinition);
// Attempt to parse it
if (!ruleParser.parse(NULL, strError)) {
return false;
}
// Replace compound rule
setRule(ruleParser.grabRootRule());
return true;
}
void CDomainConfiguration::clearApplicationRule()
{
// Replace compound rule
setRule(NULL);
}
void CDomainConfiguration::getApplicationRule(string& strResult) const
{
// Rule
const CCompoundRule* pRule = getRule();
if (pRule) {
// Start clear
strResult.clear();
// Dump rule
pRule->dump(strResult);
} else {
strResult = "<none>";
}
}
/**
* Get the Configuration Blackboard.
*
* Fetch the Configuration Blackboard related to the ConfigurableElement given in parameter. This
* Element is used to retrieve the correct AreaConfiguration where the Blackboard is stored.
*
* @param[in] pConfigurableElement A pointer to a ConfigurableElement that is part of the
* Domain. This must have been checked previously, as an
* assertion is performed.
*
* return Pointer to the Blackboard of the Configuration.
*/
CParameterBlackboard* CDomainConfiguration::getBlackboard(const CConfigurableElement* pConfigurableElement) const
{
AreaConfigurationListIterator it;
for (it = _areaConfigurationList.begin(); it != _areaConfigurationList.end(); ++it) {
CAreaConfiguration* pAreaConfiguration = *it;
// Check if the Element is associated with the Domain
if (pAreaConfiguration->getConfigurableElement() == pConfigurableElement) {
return &pAreaConfiguration->getBlackboard();
}
}
assert(0);
return NULL;
}
// Save data from current
void CDomainConfiguration::save(const CParameterBlackboard* pMainBlackboard)
{
AreaConfigurationListIterator it;
// Just propagate to areas
for (it = _areaConfigurationList.begin(); it != _areaConfigurationList.end(); ++it) {
CAreaConfiguration* pAreaConfiguration = *it;
pAreaConfiguration->save(pMainBlackboard);
}
}
// Apply data to current
bool CDomainConfiguration::restore(CParameterBlackboard* pMainBlackboard, bool bSync, std::list<string>* plstrError) const
{
bool bSuccess = true;
AreaConfigurationListIterator it;
// Just propagate to areas
for (it = _orderedAreaConfigurationList.begin(); it != _orderedAreaConfigurationList.end(); ++it) {
const CAreaConfiguration* pAreaConfiguration = *it;
bSuccess &= pAreaConfiguration->restore(pMainBlackboard, bSync, plstrError);
}
return bSuccess;
}
// Ensure validity for configurable element area configuration
void CDomainConfiguration::validate(const CConfigurableElement* pConfigurableElement, const CParameterBlackboard* pMainBlackboard)
{
CAreaConfiguration* pAreaConfigurationToValidate = getAreaConfiguration(pConfigurableElement);
// Delegate
pAreaConfigurationToValidate->validate(pMainBlackboard);
}
// Ensure validity of all area configurations
void CDomainConfiguration::validate(const CParameterBlackboard* pMainBlackboard)
{
AreaConfigurationListIterator it;
for (it = _areaConfigurationList.begin(); it != _areaConfigurationList.end(); ++it) {
CAreaConfiguration* pAreaConfiguration = *it;
pAreaConfiguration->validate(pMainBlackboard);
}
}
// Return configuration validity for given configurable element
bool CDomainConfiguration::isValid(const CConfigurableElement* pConfigurableElement) const
{
// Get child configurable elemnt's area configuration
CAreaConfiguration* pAreaConfiguration = getAreaConfiguration(pConfigurableElement);
assert(pAreaConfiguration);
return pAreaConfiguration->isValid();
}
// Ensure validity of configurable element's area configuration by copying in from a valid one
void CDomainConfiguration::validateAgainst(const CDomainConfiguration* pValidDomainConfiguration, const CConfigurableElement* pConfigurableElement)
{
// Retrieve related area configurations
CAreaConfiguration* pAreaConfigurationToValidate = getAreaConfiguration(pConfigurableElement);
const CAreaConfiguration* pAreaConfigurationToValidateAgainst = pValidDomainConfiguration->getAreaConfiguration(pConfigurableElement);
// Delegate to area
pAreaConfigurationToValidate->validateAgainst(pAreaConfigurationToValidateAgainst);
}
// Ensure validity of all configurable element's area configuration by copying in from a valid ones
void CDomainConfiguration::validateAgainst(const CDomainConfiguration* pValidDomainConfiguration)
{
// Copy in configuration data from against domain
AreaConfigurationListIterator it, itAgainst;
for (it = _areaConfigurationList.begin(), itAgainst = pValidDomainConfiguration->_areaConfigurationList.begin(); it != _areaConfigurationList.end(); ++it, ++itAgainst) {
CAreaConfiguration* pAreaConfigurationToValidate = *it;
const CAreaConfiguration* pAreaConfigurationToValidateAgainst = *itAgainst;
// Delegate to area
pAreaConfigurationToValidate->validateAgainst(pAreaConfigurationToValidateAgainst);
}
}
// Dynamic data application
bool CDomainConfiguration::isApplicable() const
{
const CCompoundRule* pRule = getRule();
return pRule && pRule->matches();
}
// Merge existing configurations to given configurable element ones
void CDomainConfiguration::merge(CConfigurableElement* pToConfigurableElement, CConfigurableElement* pFromConfigurableElement)
{
// Retrieve related area configurations
CAreaConfiguration* pAreaConfigurationToMergeTo = getAreaConfiguration(pToConfigurableElement);
const CAreaConfiguration* pAreaConfigurationToMergeFrom = getAreaConfiguration(pFromConfigurableElement);
// Do the merge
pAreaConfigurationToMergeFrom->copyToOuter(pAreaConfigurationToMergeTo);
}
// Domain splitting
void CDomainConfiguration::split(CConfigurableElement* pFromConfigurableElement)
{
// Retrieve related area configuration
const CAreaConfiguration* pAreaConfigurationToSplitFrom = getAreaConfiguration(pFromConfigurableElement);
// Go through children areas to copy configuration data to them
uint32_t uiNbConfigurableElementChildren = pFromConfigurableElement->getNbChildren();
uint32_t uiChild;
for (uiChild = 0; uiChild < uiNbConfigurableElementChildren; uiChild++) {
CConfigurableElement* pToChildConfigurableElement = static_cast<CConfigurableElement*>(pFromConfigurableElement->getChild(uiChild));
// Get child configurable elemnt's area configuration
CAreaConfiguration* pChildAreaConfiguration = getAreaConfiguration(pToChildConfigurableElement);
// Do the copy
pChildAreaConfiguration->copyFromOuter(pAreaConfigurationToSplitFrom);
}
}
// AreaConfiguration retrieval from configurable element
CAreaConfiguration* CDomainConfiguration::getAreaConfiguration(const CConfigurableElement* pConfigurableElement) const
{
AreaConfigurationListIterator it;
for (it = _areaConfigurationList.begin(); it != _areaConfigurationList.end(); ++it) {
CAreaConfiguration* pAreaConfiguration = *it;
if (pAreaConfiguration->getConfigurableElement() == pConfigurableElement) {
return pAreaConfiguration;
}
}
// Not found?
assert(0);
return NULL;
}
// AreaConfiguration retrieval from present area configurations
CAreaConfiguration* CDomainConfiguration::findAreaConfiguration(const string& strConfigurableElementPath) const
{
return findAreaConfiguration(strConfigurableElementPath, _areaConfigurationList);
}
// AreaConfiguration retrieval from given area configuration list
CAreaConfiguration* CDomainConfiguration::findAreaConfiguration(const string& strConfigurableElementPath, const std::list<CAreaConfiguration*>& areaConfigurationList) const
{
AreaConfigurationListIterator it;
for (it = areaConfigurationList.begin(); it != areaConfigurationList.end(); ++it) {
CAreaConfiguration* pAreaConfiguration = *it;
if (pAreaConfiguration->getConfigurableElement()->getPath() == strConfigurableElementPath) {
return pAreaConfiguration;
}
}
// Not found
return NULL;
}
// Area configuration ordering
void CDomainConfiguration::reorderAreaConfigurations(const std::list<CAreaConfiguration*>& areaConfigurationList)
{
// Ensure elements in provided list appear first and ordered the same way in internal one
// Remove all elements present in the provided list from the internal one
AreaConfigurationListIterator it;
for (it = areaConfigurationList.begin(); it != areaConfigurationList.end(); ++it) {
_orderedAreaConfigurationList.remove(*it);
}
// Prepended provided elements into internal list
_orderedAreaConfigurationList.insert(_orderedAreaConfigurationList.begin(), areaConfigurationList.begin(), areaConfigurationList.end());
}
// Find area configuration rank from regular list: for ordered list maintainance
uint32_t CDomainConfiguration::getAreaConfigurationRank(const CAreaConfiguration* pAreaConfiguration) const
{
uint32_t uiAreaConfigurationRank;
AreaConfigurationListIterator it;
// Propagate request to areas
for (it = _areaConfigurationList.begin(), uiAreaConfigurationRank = 0; it != _areaConfigurationList.end(); ++it, ++uiAreaConfigurationRank) {
if (*it == pAreaConfiguration) {
return uiAreaConfigurationRank;
}
}
assert(0);
return 0;
}
// Find area configuration from regular list based on rank: for ordered list maintainance
CAreaConfiguration* CDomainConfiguration::getAreaConfiguration(uint32_t uiAreaConfigurationRank) const
{
AreaConfigurationListIterator it;
uint32_t uiCurrentAreaConfigurationRank;
// Propagate request to areas
for (it = _areaConfigurationList.begin(), uiCurrentAreaConfigurationRank = 0; it != _areaConfigurationList.end(); ++it, ++uiCurrentAreaConfigurationRank) {
if (uiCurrentAreaConfigurationRank == uiAreaConfigurationRank) {
return *it;
}
}
assert(0);
return NULL;
}
// Rule
const CCompoundRule* CDomainConfiguration::getRule() const
{
if (getNbChildren()) {
// Rule created
return static_cast<const CCompoundRule*>(getChild(ECompoundRule));
}
return NULL;
}
CCompoundRule* CDomainConfiguration::getRule()
{
if (getNbChildren()) {
// Rule created
return static_cast<CCompoundRule*>(getChild(ECompoundRule));
}
return NULL;
}
void CDomainConfiguration::setRule(CCompoundRule* pRule)
{
CCompoundRule* pOldRule = getRule();
if (pOldRule) {
// Remove previous rule
removeChild(pOldRule);
delete pOldRule;
}
// Set new one
if (pRule) {
// Chain
addChild(pRule);
}
}
// Serialization
void CDomainConfiguration::binarySerialize(CBinaryStream& binaryStream)
{
AreaConfigurationListIterator it;
// Area configurations order
if (binaryStream.isOut()) {
for (it = _orderedAreaConfigurationList.begin(); it != _orderedAreaConfigurationList.end(); ++it) {
// Get rank
uint32_t uiAreaConfigurationRank = getAreaConfigurationRank(*it);
// Store it
binaryStream.write((const uint8_t*)&uiAreaConfigurationRank, sizeof(uiAreaConfigurationRank));
}
} else {
// Empty ordered list first
_orderedAreaConfigurationList.resize(0);
uint32_t uiAreaConfiguration;
for (uiAreaConfiguration = 0; uiAreaConfiguration < _areaConfigurationList.size(); uiAreaConfiguration++) {
// Get rank
uint32_t uiAreaConfigurationRank;
binaryStream.read((uint8_t*)&uiAreaConfigurationRank, sizeof(uiAreaConfigurationRank));
_orderedAreaConfigurationList.push_back(getAreaConfiguration(uiAreaConfigurationRank));
}
}
// Propagate to areas
for (it = _areaConfigurationList.begin(); it != _areaConfigurationList.end(); ++it) {
CAreaConfiguration* pAreaConfiguration = *it;
pAreaConfiguration->serialize(binaryStream);
}
}
// Data size
uint32_t CDomainConfiguration::getDataSize() const
{
uint32_t uiDataSize;
// Add necessary size to store area configurations order
uiDataSize = _areaConfigurationList.size() * sizeof(uint32_t);
// Propagate request to areas
AreaConfigurationListIterator it;
for (it = _areaConfigurationList.begin(); it != _areaConfigurationList.end(); ++it) {
const CAreaConfiguration* pAreaConfiguration = *it;
uiDataSize += pAreaConfiguration->getSize();
}
return uiDataSize;
}
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