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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 "ConfigurableDomain.h"
#include "DomainConfiguration.h"
#include "ConfigurableElement.h"
#include "ConfigurationAccessContext.h"
#include "XmlDomainSerializingContext.h"
#include "XmlDomainImportContext.h"
#include "XmlDomainExportContext.h"
#include <assert.h>
#define base CBinarySerializableElement
using std::string;
CConfigurableDomain::CConfigurableDomain(const string& strName) : base(strName), _bSequenceAware(false), _pLastAppliedConfiguration(NULL)
{
}
CConfigurableDomain::~CConfigurableDomain()
{
// Remove all configurable elements
ConfigurableElementListIterator it;
for (it = _configurableElementList.begin(); it != _configurableElementList.end(); ++it) {
CConfigurableElement* pConfigurableElement = *it;
// Remove from configurable element
pConfigurableElement->removeAttachedConfigurableDomain(this);
}
// Remove all associated syncer sets
ConfigurableElementToSyncerSetMapIterator mapIt;
for (mapIt = _configurableElementToSyncerSetMap.begin(); mapIt != _configurableElementToSyncerSetMap.end(); ++mapIt) {
delete mapIt->second;
}
}
string CConfigurableDomain::getKind() const
{
return "ConfigurableDomain";
}
bool CConfigurableDomain::childrenAreDynamic() const
{
return true;
}
// Content dumping
void CConfigurableDomain::logValue(string& strValue, CErrorContext& errorContext) const
{
(void)errorContext;
strValue = "{";
// Sequence awareness
strValue += "Sequence aware: ";
strValue += _bSequenceAware ? "yes" : "no";
// Last applied configuration
strValue += ", Last applied configuration: ";
strValue += _pLastAppliedConfiguration ? _pLastAppliedConfiguration->getName() : "<none>";
strValue += "}";
}
// Sequence awareness
void CConfigurableDomain::setSequenceAwareness(bool bSequenceAware)
{
if (_bSequenceAware != bSequenceAware) {
log_info("Making domain \"%s\" sequence %s", getName().c_str(), bSequenceAware ? "aware" : "unaware");
_bSequenceAware = bSequenceAware;
}
}
bool CConfigurableDomain::getSequenceAwareness() const
{
return _bSequenceAware;
}
// From IXmlSource
void CConfigurableDomain::toXml(CXmlElement& xmlElement, CXmlSerializingContext& serializingContext) const
{
base::toXml(xmlElement, serializingContext);
// Sequence awareness
xmlElement.setAttributeBoolean("SequenceAware", _bSequenceAware);
}
void CConfigurableDomain::childrenToXml(CXmlElement& xmlElement,
CXmlSerializingContext& serializingContext) const
{
// Configurations
composeDomainConfigurations(xmlElement, serializingContext);
// Configurable Elements
composeConfigurableElements(xmlElement);
// Settings
composeSettings(xmlElement, serializingContext);
}
// XML composing
void CConfigurableDomain::composeDomainConfigurations(CXmlElement& xmlElement, CXmlSerializingContext& serializingContext) const
{
// Create Configurations element
CXmlElement xmlConfigurationsElement;
xmlElement.createChild(xmlConfigurationsElement, "Configurations");
// Delegate to base
base::childrenToXml(xmlConfigurationsElement, serializingContext);
}
void CConfigurableDomain::composeConfigurableElements(CXmlElement& xmlElement) const
{
// Create ConfigurableElements element
CXmlElement xmlConfigurableElementsElement;
xmlElement.createChild(xmlConfigurableElementsElement, "ConfigurableElements");
// Serialize out all configurable elements settings
ConfigurableElementListIterator it;
for (it = _configurableElementList.begin(); it != _configurableElementList.end(); ++it) {
const CConfigurableElement* pConfigurableElement = *it;
// Create corresponding XML child element
CXmlElement xmlChildConfigurableElement;
xmlConfigurableElementsElement.createChild(xmlChildConfigurableElement, "ConfigurableElement");
// Set Path attribute
xmlChildConfigurableElement.setAttributeString("Path", pConfigurableElement->getPath());
}
}
void CConfigurableDomain::composeSettings(CXmlElement& xmlElement, CXmlSerializingContext& serializingContext) const
{
// Context
const CXmlDomainExportContext& xmlDomainExportContext =
static_cast<const CXmlDomainExportContext&>(serializingContext);
if (!xmlDomainExportContext.withSettings()) {
return;
}
// Create Settings element
CXmlElement xmlSettingsElement;
xmlElement.createChild(xmlSettingsElement, "Settings");
// Serialize out all configurations settings
uint32_t uiNbConfigurations = getNbChildren();
uint32_t uiChildConfiguration;
for (uiChildConfiguration = 0; uiChildConfiguration < uiNbConfigurations; uiChildConfiguration++) {
const CDomainConfiguration* pDomainConfiguration = static_cast<const CDomainConfiguration*>(getChild(uiChildConfiguration));
// Create child xml element for that configuration
CXmlElement xmlConfigurationSettingsElement;
xmlSettingsElement.createChild(xmlConfigurationSettingsElement, pDomainConfiguration->getKind());
// Set its name attribute
xmlConfigurationSettingsElement.setNameAttribute(pDomainConfiguration->getName());
// Serialize out configuration settings
pDomainConfiguration->composeSettings(xmlConfigurationSettingsElement, serializingContext);
}
}
// From IXmlSink
bool CConfigurableDomain::fromXml(const CXmlElement& xmlElement, CXmlSerializingContext& serializingContext)
{
// Context
CXmlDomainImportContext& xmlDomainImportContext =
static_cast<CXmlDomainImportContext&>(serializingContext);
// Sequence awareness (optional)
_bSequenceAware = xmlElement.hasAttribute("SequenceAware") && xmlElement.getAttributeBoolean("SequenceAware");
// Local parsing. Do not dig
if (!parseDomainConfigurations(xmlElement, xmlDomainImportContext) ||
!parseConfigurableElements(xmlElement, xmlDomainImportContext) ||
!parseSettings(xmlElement, xmlDomainImportContext)) {
return false;
}
// All provided configurations are parsed
// Attempt validation on areas of non provided configurations for all configurable elements if required
if (xmlDomainImportContext.autoValidationRequired()) {
autoValidateAll();
}
return true;
}
// XML parsing
bool CConfigurableDomain::parseDomainConfigurations(const CXmlElement& xmlElement,
CXmlDomainImportContext& serializingContext)
{
// We're supposedly clean
assert(_configurableElementList.empty());
// Get Configurations element
CXmlElement xmlConfigurationsElement;
xmlElement.getChildElement("Configurations", xmlConfigurationsElement);
// Parse it and create domain configuration objects
return base::fromXml(xmlConfigurationsElement, serializingContext);
}
// Parse configurable elements
bool CConfigurableDomain::parseConfigurableElements(const CXmlElement& xmlElement,
CXmlDomainImportContext& serializingContext)
{
CSystemClass& systemClass = serializingContext.getSystemClass();
// Get ConfigurableElements element
CXmlElement xmlConfigurableElementsElement;
xmlElement.getChildElement("ConfigurableElements", xmlConfigurableElementsElement);
// Parse it and associate found configurable elements to it
CXmlElement::CChildIterator it(xmlConfigurableElementsElement);
CXmlElement xmlConfigurableElementElement;
while (it.next(xmlConfigurableElementElement)) {
// Locate configurable element
string strConfigurableElementPath = xmlConfigurableElementElement.getAttributeString("Path");
CPathNavigator pathNavigator(strConfigurableElementPath);
string strError;
// Is there an element and does it match system class name?
if (!pathNavigator.navigateThrough(systemClass.getName(), strError)) {
serializingContext.setError("Could not find configurable element of path " + strConfigurableElementPath + " from ConfigurableDomain description " + getName() + " (" + strError + ")");
return false;
}
// Browse system class for configurable element
CConfigurableElement* pConfigurableElement =
static_cast<CConfigurableElement*>(systemClass.findDescendant(pathNavigator));
if (!pConfigurableElement) {
serializingContext.setError("Could not find configurable element of path " + strConfigurableElementPath + " from ConfigurableDomain description " + getName());
return false;
}
// Add found element to domain
if (!addConfigurableElement(pConfigurableElement, NULL, strError)) {
serializingContext.setError(strError);
return false;
}
}
return true;
}
// Parse settings
bool CConfigurableDomain::parseSettings(const CXmlElement& xmlElement,
CXmlDomainImportContext& serializingContext)
{
// Check we actually need to parse configuration settings
if (!serializingContext.withSettings()) {
// No parsing required
return true;
}
// Get Settings element
CXmlElement xmlSettingsElement;
if (!xmlElement.getChildElement("Settings", xmlSettingsElement)) {
// No settings, bail out successfully
return true;
}
// Parse configuration settings
CXmlElement::CChildIterator it(xmlSettingsElement);
CXmlElement xmlConfigurationSettingsElement;
while (it.next(xmlConfigurationSettingsElement)) {
// Get domain configuration
CDomainConfiguration* pDomainConfiguration = static_cast<CDomainConfiguration*>(findChild(xmlConfigurationSettingsElement.getNameAttribute()));
if (!pDomainConfiguration) {
serializingContext.setError("Could not find domain configuration referred to by"
" configurable domain \"" + getName() + "\".");
return false;
}
// Have domain configuration parse settings for all configurable elements
if (!pDomainConfiguration->parseSettings(xmlConfigurationSettingsElement,
serializingContext)) {
return false;
}
}
return true;
}
// Configurable elements association
bool CConfigurableDomain::addConfigurableElement(CConfigurableElement* pConfigurableElement, const CParameterBlackboard* pMainBlackboard, string& strError)
{
// Already associated?
if (containsConfigurableElement(pConfigurableElement)) {
strError = "Configurable element " + pConfigurableElement->getPath() + " already associated to configuration domain " + getName();
return false;
}
// Already owned?
if (pConfigurableElement->belongsTo(this)) {
strError = "Configurable element " + pConfigurableElement->getPath() + " already owned by configuration domain " + getName();
return false;
}
// Do add
doAddConfigurableElement(pConfigurableElement, pMainBlackboard);
return true;
}
bool CConfigurableDomain::removeConfigurableElement(CConfigurableElement* pConfigurableElement, string& strError)
{
// Not associated?
if (!containsConfigurableElement(pConfigurableElement)) {
strError = "Configurable element " + pConfigurableElement->getPath() + " not associated to configuration domain " + getName();
return false;
}
log_info("Removing configurable element \"%s\" from domain \"%s\"", pConfigurableElement->getPath().c_str(), getName().c_str());
// Do remove
doRemoveConfigurableElement(pConfigurableElement, true);
return true;
}
/**
* Blackboard Configuration and Base Offset retrieval.
*
* This method fetches the Blackboard associated to the ConfigurableElement
* given in parameter, for a specific Configuration. The ConfigurableElement
* must belong to the Domain. If a Blackboard is found, the base offset of
* the ConfigurableElement is returned as well. This base offset corresponds to
* the offset of the ancestor of the ConfigurableElement associated to the Configuration.
*
* @param[in] strConfiguration Name of the Configuration.
* @param[in] pCandidateDescendantConfigurableElement Pointer to a CConfigurableElement that
* belongs to the Domain.
* @param[out] uiBaseOffset The base offset of the CConfigurableElement.
* @param[out] bIsLastApplied Boolean indicating that the Configuration is
* the last one applied of the Domain.
* @param[out] strError Error message
*
* return Pointer to the Blackboard of the Configuration.
*/
CParameterBlackboard* CConfigurableDomain::findConfigurationBlackboard(const string& strConfiguration,
const CConfigurableElement* pCandidateDescendantConfigurableElement,
uint32_t& uiBaseOffset,
bool& bIsLastApplied,
string& strError) const
{
// Find Configuration
const CDomainConfiguration* pDomainConfiguration = static_cast<const CDomainConfiguration*>(findChild(strConfiguration));
if (!pDomainConfiguration) {
strError = "Domain configuration " + strConfiguration + " not found";
return NULL;
}
// Parse all configurable elements
ConfigurableElementListIterator it;
for (it = _configurableElementList.begin(); it != _configurableElementList.end(); ++it) {
const CConfigurableElement* pAssociatedConfigurableElement = *it;
// Check if the the associated element is the configurable element or one of its ancestors
if ((pCandidateDescendantConfigurableElement == pAssociatedConfigurableElement) ||
(pCandidateDescendantConfigurableElement->isDescendantOf(pAssociatedConfigurableElement))) {
uiBaseOffset = pAssociatedConfigurableElement->getOffset();
bIsLastApplied = (pDomainConfiguration == _pLastAppliedConfiguration);
return pDomainConfiguration->getBlackboard(pAssociatedConfigurableElement);
}
}
strError = "Element not associated to the Domain";
return NULL;
}
// Domain splitting
bool CConfigurableDomain::split(CConfigurableElement* pConfigurableElement, string& strError)
{
// Not associated?
if (!containsConfigurableElement(pConfigurableElement)) {
strError = "Configurable element " + pConfigurableElement->getPath() + " not associated to configuration domain " + getName();
return false;
}
log_info("Splitting configurable element \"%s\" domain \"%s\"", pConfigurableElement->getPath().c_str(), getName().c_str());
// Create sub domain areas for all configurable element's children
uint32_t uiNbConfigurableElementChildren = pConfigurableElement->getNbChildren();
if (!uiNbConfigurableElementChildren) {
strError = "Configurable element " + pConfigurableElement->getPath() + " has no children to split configurable domain to";
return false;
}
uint32_t uiChild;
for (uiChild = 0; uiChild < uiNbConfigurableElementChildren; uiChild++) {
CConfigurableElement* pChildConfigurableElement = static_cast<CConfigurableElement*>(pConfigurableElement->getChild(uiChild));
doAddConfigurableElement(pChildConfigurableElement);
}
// Delegate to configurations
uint32_t uiNbConfigurations = getNbChildren();
for (uiChild = 0; uiChild < uiNbConfigurations; uiChild++) {
CDomainConfiguration* pDomainConfiguration = static_cast<CDomainConfiguration*>(getChild(uiChild));
pDomainConfiguration->split(pConfigurableElement);
}
// Remove given configurable element from this domain
// Note: we shouldn't need to recompute the sync set in that case, as the splitted element should include the syncers of its children elements
doRemoveConfigurableElement(pConfigurableElement, false);
return true;
}
// Check if there is a pending configuration for this domain: i.e. an applicable configuration different from the last applied configuration
const CDomainConfiguration* CConfigurableDomain::getPendingConfiguration() const
{
const CDomainConfiguration* pApplicableDomainConfiguration = findApplicableDomainConfiguration();
if (pApplicableDomainConfiguration) {
// Check not the last one before applying
if (!_pLastAppliedConfiguration || (_pLastAppliedConfiguration != pApplicableDomainConfiguration)) {
return pApplicableDomainConfiguration;
}
}
return NULL;
}
// Configuration application if required
void CConfigurableDomain::apply(CParameterBlackboard* pParameterBlackboard, CSyncerSet* pSyncerSet, bool bForce) const
{
// Apply configuration only if the blackboard will
// be synchronized either now or by syncerSet.
if(!pSyncerSet ^ _bSequenceAware) {
// The configuration can not be syncronised
return;
}
if (bForce) {
// Force a configuration restore by forgetting about last applied configuration
_pLastAppliedConfiguration = NULL;
}
const CDomainConfiguration* pApplicableDomainConfiguration = findApplicableDomainConfiguration();
if (pApplicableDomainConfiguration) {
// Check not the last one before applying
if (!_pLastAppliedConfiguration || _pLastAppliedConfiguration != pApplicableDomainConfiguration) {
log_info("Applying configuration \"%s\" from domain \"%s\"",
pApplicableDomainConfiguration->getName().c_str(),
getName().c_str());
// Check if we need to synchronize during restore
bool bSync = !pSyncerSet && _bSequenceAware;
// Do the restore
pApplicableDomainConfiguration->restore(pParameterBlackboard, bSync, NULL);
// Record last applied configuration
_pLastAppliedConfiguration = pApplicableDomainConfiguration;
// Check we need to provide syncer set to caller
if (pSyncerSet && !_bSequenceAware) {
// Since we applied changes, add our own sync set to the given one
*pSyncerSet += _syncerSet;
}
}
}
}
// Return applicable configuration validity for given configurable element
bool CConfigurableDomain::isApplicableConfigurationValid(const CConfigurableElement* pConfigurableElement) const
{
const CDomainConfiguration* pApplicableDomainConfiguration = findApplicableDomainConfiguration();
return pApplicableDomainConfiguration && pApplicableDomainConfiguration->isValid(pConfigurableElement);
}
// In case configurable element was removed
void CConfigurableDomain::computeSyncSet()
{
// Clean sync set first
_syncerSet.clear();
// Add syncer sets for all associated configurable elements
ConfigurableElementToSyncerSetMapIterator mapIt;
for (mapIt = _configurableElementToSyncerSetMap.begin(); mapIt != _configurableElementToSyncerSetMap.end(); ++mapIt) {
const CSyncerSet* pSyncerSet = mapIt->second;
_syncerSet += *pSyncerSet;
}
}
// Configuration Management
bool CConfigurableDomain::createConfiguration(const string& strName, const CParameterBlackboard* pMainBlackboard, string& strError)
{
// Already exists?
if (findChild(strName)) {
strError = "Already existing configuration";
return false;
}
log_info("Creating domain configuration \"%s\" into domain \"%s\"", strName.c_str(), getName().c_str());
// Creation
CDomainConfiguration* pDomainConfiguration = new CDomainConfiguration(strName);
// Configurable elements association
ConfigurableElementListIterator it;
for (it = _configurableElementList.begin(); it != _configurableElementList.end(); ++it) {
const CConfigurableElement* pConfigurableElement = *it;;
// Retrieve associated syncer set
CSyncerSet* pSyncerSet = getSyncerSet(pConfigurableElement);
// Associate to configuration
pDomainConfiguration->addConfigurableElement(pConfigurableElement, pSyncerSet);
}
// Hierarchy
addChild(pDomainConfiguration);
// Ensure validity of fresh new domain configuration
// Attempt auto validation, so that the user gets his/her own settings by defaults
if (!autoValidateConfiguration(pDomainConfiguration)) {
// No valid configuration found to copy in from, validate againt main blackboard (will concerned remaining invalid parts)
pDomainConfiguration->validate(pMainBlackboard);
}
return true;
}
bool CConfigurableDomain::deleteConfiguration(const string& strName, string& strError)
{
CDomainConfiguration* pDomainConfiguration = findConfiguration(strName, strError);
if (!pDomainConfiguration) {
return false;
}
log_info("Deleting configuration \"%s\" from domain \"%s\"", strName.c_str(), getName().c_str());
// Was the last applied?
if (pDomainConfiguration == _pLastAppliedConfiguration) {
// Forget about it
_pLastAppliedConfiguration = NULL;
}
// Hierarchy
removeChild(pDomainConfiguration);
// Destroy
delete pDomainConfiguration;
return true;
}
void CConfigurableDomain::listAssociatedToElements(string& strResult) const
{
strResult = "\n";
ConfigurableElementListIterator it;
// Browse all configurable elements
for (it = _configurableElementList.begin(); it != _configurableElementList.end(); ++it) {
const CConfigurableElement* pConfigurableElement = *it;
strResult += pConfigurableElement->getPath() + "\n";
}
}
bool CConfigurableDomain::renameConfiguration(const string& strName, const string& strNewName, string& strError)
{
CDomainConfiguration* pDomainConfiguration = findConfiguration(strName, strError);
if (!pDomainConfiguration) {
return false;
}
log_info("Renaming domain \"%s\"'s configuration \"%s\" to \"%s\"", getName().c_str(), strName.c_str(), strNewName.c_str());
// Rename
return pDomainConfiguration->rename(strNewName, strError);
}
bool CConfigurableDomain::restoreConfiguration(const string& strName, CParameterBlackboard* pMainBlackboard, bool bAutoSync, std::list<string>& lstrError) const
{
string strError;
const CDomainConfiguration* pDomainConfiguration = findConfiguration(strName, strError);
if (!pDomainConfiguration) {
lstrError.push_back(strError);
return false;
}
log_info("Restoring domain \"%s\"'s configuration \"%s\" to parameter blackboard", getName().c_str(), pDomainConfiguration->getName().c_str());
// Delegate
bool bSuccess = pDomainConfiguration->restore(pMainBlackboard, bAutoSync && _bSequenceAware, &lstrError);
// Record last applied configuration
_pLastAppliedConfiguration = pDomainConfiguration;
// Synchronize
if (bAutoSync && !_bSequenceAware) {
bSuccess &= _syncerSet.sync(*pMainBlackboard, false, &lstrError);
}
return bSuccess;
}
bool CConfigurableDomain::saveConfiguration(const string& strName, const CParameterBlackboard* pMainBlackboard, string& strError)
{
// Find Domain configuration
CDomainConfiguration* pDomainConfiguration = findConfiguration(strName, strError);
if (!pDomainConfiguration) {
return false;
}
log_info("Saving domain \"%s\"'s configuration \"%s\" from parameter blackboard", getName().c_str(), pDomainConfiguration->getName().c_str());
// Delegate
pDomainConfiguration->save(pMainBlackboard);
return true;
}
bool CConfigurableDomain::setElementSequence(const string& strConfiguration, const std::vector<string>& astrNewElementSequence, string& strError)
{
// Find Domain configuration
CDomainConfiguration* pDomainConfiguration = findConfiguration(strConfiguration, strError);
if (!pDomainConfiguration) {
return false;
}
// Delegate to configuration
return pDomainConfiguration->setElementSequence(astrNewElementSequence, strError);
}
bool CConfigurableDomain::getElementSequence(const string& strConfiguration, string& strResult) const
{
// Find Domain configuration
const CDomainConfiguration* pDomainConfiguration = findConfiguration(strConfiguration, strResult);
if (!pDomainConfiguration) {
return false;
}
// Delegate to configuration
pDomainConfiguration->getElementSequence(strResult);
return true;
}
bool CConfigurableDomain::setApplicationRule(const string& strConfiguration, const string& strApplicationRule, const CSelectionCriteriaDefinition* pSelectionCriteriaDefinition, string& strError)
{
// Find Domain configuration
CDomainConfiguration* pDomainConfiguration = findConfiguration(strConfiguration, strError);
if (!pDomainConfiguration) {
return false;
}
// Delegate to configuration
return pDomainConfiguration->setApplicationRule(strApplicationRule, pSelectionCriteriaDefinition, strError);
}
bool CConfigurableDomain::clearApplicationRule(const string& strConfiguration, string& strError)
{
// Find Domain configuration
CDomainConfiguration* pDomainConfiguration = findConfiguration(strConfiguration, strError);
if (!pDomainConfiguration) {
return false;
}
// Delegate to configuration
pDomainConfiguration->clearApplicationRule();
return true;
}
bool CConfigurableDomain::getApplicationRule(const string& strConfiguration, string& strResult) const
{
// Find Domain configuration
const CDomainConfiguration* pDomainConfiguration = findConfiguration(strConfiguration, strResult);
if (!pDomainConfiguration) {
return false;
}
// Delegate to configuration
pDomainConfiguration->getApplicationRule(strResult);
return true;
}
// Last applied configuration
string CConfigurableDomain::getLastAppliedConfigurationName() const
{
if (_pLastAppliedConfiguration) {
return _pLastAppliedConfiguration->getName();
}
return "<none>";
}
// Pending configuration
string CConfigurableDomain::getPendingConfigurationName() const
{
const CDomainConfiguration* pPendingConfiguration = getPendingConfiguration();
if (pPendingConfiguration) {
return pPendingConfiguration->getName();
}
return "<none>";
}
// Ensure validity on whole domain from main blackboard
void CConfigurableDomain::validate(const CParameterBlackboard* pMainBlackboard)
{
// Propagate
uint32_t uiNbConfigurations = getNbChildren();
uint32_t uiChild;
for (uiChild = 0; uiChild < uiNbConfigurations; uiChild++) {
CDomainConfiguration* pDomainConfiguration = static_cast<CDomainConfiguration*>(getChild(uiChild));
pDomainConfiguration->validate(pMainBlackboard);
}
}
// Ensure validity on areas related to configurable element
void CConfigurableDomain::validateAreas(const CConfigurableElement* pConfigurableElement, const CParameterBlackboard* pMainBlackboard)
{
log_info("Validating domain \"" + getName() + "\" against main blackboard for configurable element \"" + pConfigurableElement->getPath() + "\"");
// Propagate
uint32_t uiNbConfigurations = getNbChildren();
uint32_t uiChild;
for (uiChild = 0; uiChild < uiNbConfigurations; uiChild++) {
CDomainConfiguration* pDomainConfiguration = static_cast<CDomainConfiguration*>(getChild(uiChild));
pDomainConfiguration->validate(pConfigurableElement, pMainBlackboard);
}
}
// Attempt validation for all configurable element's areas, relying on already existing valid configuration inside domain
void CConfigurableDomain::autoValidateAll()
{
// Validate
ConfigurableElementListIterator it;
// Browse all configurable elements for configuration validation
for (it = _configurableElementList.begin(); it != _configurableElementList.end(); ++it) {
const CConfigurableElement* pConfigurableElement = *it;
// Auto validate element
autoValidateAreas(pConfigurableElement);
}
}
// Attempt validation for configurable element's areas, relying on already existing valid configuration inside domain
void CConfigurableDomain::autoValidateAreas(const CConfigurableElement* pConfigurableElement)
{
// Find first valid configuration for given configurable element
const CDomainConfiguration* pValidDomainConfiguration = findValidDomainConfiguration(pConfigurableElement);
// No valid configuration found, give up
if (!pValidDomainConfiguration) {
return;
}
// Validate all other configurations against found one, if any
uint32_t uiNbConfigurations = getNbChildren();
uint32_t uiChild;
for (uiChild = 0; uiChild < uiNbConfigurations; uiChild++) {
CDomainConfiguration* pDomainConfiguration = static_cast<CDomainConfiguration*>(getChild(uiChild));
if (pDomainConfiguration != pValidDomainConfiguration && !pDomainConfiguration->isValid(pConfigurableElement)) {
// Validate
pDomainConfiguration->validateAgainst(pValidDomainConfiguration, pConfigurableElement);
}
}
}
// Attempt configuration validation for all configurable elements' areas, relying on already existing valid configuration inside domain
bool CConfigurableDomain::autoValidateConfiguration(CDomainConfiguration* pDomainConfiguration)
{
// Find another configuration than this one, that ought to be valid!
uint32_t uiNbConfigurations = getNbChildren();
uint32_t uiChild;
for (uiChild = 0; uiChild < uiNbConfigurations; uiChild++) {
const CDomainConfiguration* pPotententialValidDomainConfiguration = static_cast<const CDomainConfiguration*>(getChild(uiChild));
if (pPotententialValidDomainConfiguration != pDomainConfiguration) {
// Validate against it
pDomainConfiguration->validateAgainst(pPotententialValidDomainConfiguration);
return true;
}
}
return false;
}
// Search for a valid configuration for given configurable element
const CDomainConfiguration* CConfigurableDomain::findValidDomainConfiguration(const CConfigurableElement* pConfigurableElement) const
{
uint32_t uiNbConfigurations = getNbChildren();
uint32_t uiChild;
for (uiChild = 0; uiChild < uiNbConfigurations; uiChild++) {
const CDomainConfiguration* pDomainConfiguration = static_cast<const CDomainConfiguration*>(getChild(uiChild));
if (pDomainConfiguration->isValid(pConfigurableElement)) {
return pDomainConfiguration;
}
}
return NULL;
}
// Search for an applicable configuration
const CDomainConfiguration* CConfigurableDomain::findApplicableDomainConfiguration() const
{
uint32_t uiNbConfigurations = getNbChildren();
uint32_t uiChild;
for (uiChild = 0; uiChild < uiNbConfigurations; uiChild++) {
const CDomainConfiguration* pDomainConfiguration = static_cast<const CDomainConfiguration*>(getChild(uiChild));
if (pDomainConfiguration->isApplicable()) {
return pDomainConfiguration;
}
}
return NULL;
}
// Gather set of configurable elements
void CConfigurableDomain::gatherConfigurableElements(std::set<const CConfigurableElement*>& configurableElementSet) const
{
// Insert all configurable elements
configurableElementSet.insert(_configurableElementList.begin(), _configurableElementList.end());
}
// Check configurable element already attached
bool CConfigurableDomain::containsConfigurableElement(const CConfigurableElement* pConfigurableCandidateElement) const
{
ConfigurableElementListIterator it;
// Browse all configurable elements for comparison
for (it = _configurableElementList.begin(); it != _configurableElementList.end(); ++it) {
if (pConfigurableCandidateElement == *it) {
return true;
}
}
return false;
}
// Merge any descended configurable element to this one with this one
void CConfigurableDomain::mergeAlreadyAssociatedDescendantConfigurableElements(CConfigurableElement* pNewConfigurableElement)
{
std::list<CConfigurableElement*> mergedConfigurableElementList;
ConfigurableElementListIterator it;
// Browse all configurable elements (new one not yet in the list!)
for (it = _configurableElementList.begin(); it != _configurableElementList.end(); ++it) {
CConfigurableElement* pConfigurablePotentialDescendantElement = *it;
if (pConfigurablePotentialDescendantElement->isDescendantOf(pNewConfigurableElement)) {
log_info("In domain \"%s\", merging descendant configurable element's configurations \"%s\" into its ascendant \"%s\" ones", getName().c_str(), pConfigurablePotentialDescendantElement->getName().c_str(), pNewConfigurableElement->getName().c_str());
// Merge configuration data
mergeConfigurations(pNewConfigurableElement, pConfigurablePotentialDescendantElement);
// Keep track for removal
mergedConfigurableElementList.push_back(pConfigurablePotentialDescendantElement);
}
}
// Remove all merged elements (new one not yet in the list!)
for (it = mergedConfigurableElementList.begin(); it != mergedConfigurableElementList.end(); ++it) {
CConfigurableElement* pMergedConfigurableElement = *it;
// Remove merged from configurable element from internal tracking list
// Note: we shouldn't need to recompute the sync set in that case, as the merged to element should include the syncers of merged from elements
doRemoveConfigurableElement(pMergedConfigurableElement, false);
}
}
void CConfigurableDomain::mergeConfigurations(CConfigurableElement* pToConfigurableElement, CConfigurableElement* pFromConfigurableElement)
{
// Propagate to domain configurations
uint32_t uiNbConfigurations = getNbChildren();
uint32_t uiChild;
for (uiChild = 0; uiChild < uiNbConfigurations; uiChild++) {
CDomainConfiguration* pDomainConfiguration = static_cast<CDomainConfiguration*>(getChild(uiChild));
// Do the merge.
pDomainConfiguration->merge(pToConfigurableElement, pFromConfigurableElement);
}
}
// Configurable elements association
void CConfigurableDomain::doAddConfigurableElement(CConfigurableElement* pConfigurableElement, const CParameterBlackboard *pMainBlackboard)
{
// Inform configurable element
pConfigurableElement->addAttachedConfigurableDomain(this);
// Create associated syncer set
CSyncerSet* pSyncerSet = new CSyncerSet;
// Add to sync set the configurable element one
pConfigurableElement->fillSyncerSet(*pSyncerSet);
// Store it
_configurableElementToSyncerSetMap[pConfigurableElement] = pSyncerSet;
// Add it to global one
_syncerSet += *pSyncerSet;
// Inform configurations
uint32_t uiNbConfigurations = getNbChildren();
uint32_t uiChild;
for (uiChild = 0; uiChild < uiNbConfigurations; uiChild++) {
CDomainConfiguration* pDomainConfiguration = static_cast<CDomainConfiguration*>(getChild(uiChild));
pDomainConfiguration->addConfigurableElement(pConfigurableElement, pSyncerSet);
}
// Ensure area validity for that configurable element (if main blackboard provided)
if (pMainBlackboard) {
// Need to validate against main blackboard
validateAreas(pConfigurableElement, pMainBlackboard);
}
// Already associated descendend configurable elements need a merge of their configuration data
mergeAlreadyAssociatedDescendantConfigurableElements(pConfigurableElement);
// Add to list
_configurableElementList.push_back(pConfigurableElement);
}
void CConfigurableDomain::doRemoveConfigurableElement(CConfigurableElement* pConfigurableElement, bool bRecomputeSyncSet)
{
// Remove from list
_configurableElementList.remove(pConfigurableElement);
// Remove associated syncer set
CSyncerSet* pSyncerSet = getSyncerSet(pConfigurableElement);
_configurableElementToSyncerSetMap.erase(pConfigurableElement);
delete pSyncerSet;
// Inform configurable element
pConfigurableElement->removeAttachedConfigurableDomain(this);
// Inform configurations
uint32_t uiNbConfigurations = getNbChildren();
uint32_t uiChild;
for (uiChild = 0; uiChild < uiNbConfigurations; uiChild++) {
CDomainConfiguration* pDomainConfiguration = static_cast<CDomainConfiguration*>(getChild(uiChild));
pDomainConfiguration->removeConfigurableElement(pConfigurableElement);
}
// Recompute our sync set if needed
if (bRecomputeSyncSet) {
computeSyncSet();
}
}
// Syncer set retrieval from configurable element
CSyncerSet* CConfigurableDomain::getSyncerSet(const CConfigurableElement* pConfigurableElement) const
{
ConfigurableElementToSyncerSetMapIterator mapIt = _configurableElementToSyncerSetMap.find(pConfigurableElement);
assert(mapIt != _configurableElementToSyncerSetMap.end());
return mapIt->second;
}
// Configuration retrieval
CDomainConfiguration* CConfigurableDomain::findConfiguration(const string& strConfiguration, string& strError)
{
CDomainConfiguration* pDomainConfiguration = static_cast<CDomainConfiguration*>(findChild(strConfiguration));
if (!pDomainConfiguration) {
strError = "Domain configuration " + strConfiguration + " not found";
return NULL;
}
return pDomainConfiguration;
}
const CDomainConfiguration* CConfigurableDomain::findConfiguration(const string& strConfiguration, string& strError) const
{
const CDomainConfiguration* pDomainConfiguration = static_cast<const CDomainConfiguration*>(findChild(strConfiguration));
if (!pDomainConfiguration) {
strError = "Domain configuration " + strConfiguration + " not found";
return NULL;
}
return pDomainConfiguration;
}
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