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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 "Subsystem.h"
#include "ComponentLibrary.h"
#include "InstanceDefinition.h"
#include "XmlParameterSerializingContext.h"
#include "ParameterAccessContext.h"
#include "ConfigurationAccessContext.h"
#include "SubsystemObjectCreator.h"
#include "MappingData.h"
#include "Utility.h"
#include <assert.h>
#include <sstream>
#define base CConfigurableElementWithMapping
using std::string;
using std::list;
using std::ostringstream;
CSubsystem::CSubsystem(const string& strName) : base(strName), _pComponentLibrary(new CComponentLibrary), _pInstanceDefinition(new CInstanceDefinition), _bBigEndian(false), _pMappingData(NULL)
{
// Note: A subsystem contains instance components
// InstanceDefintion and ComponentLibrary objects are then not chosen to be children
// They'll be delt with locally
}
CSubsystem::~CSubsystem()
{
// Remove subsystem objects
SubsystemObjectListIterator subsystemObjectIt;
for (subsystemObjectIt = _subsystemObjectList.begin(); subsystemObjectIt != _subsystemObjectList.end(); ++subsystemObjectIt) {
delete *subsystemObjectIt;
}
// Remove susbsystem creators
uint32_t uiIndex;
for (uiIndex = 0; uiIndex < _subsystemObjectCreatorArray.size(); uiIndex++) {
delete _subsystemObjectCreatorArray[uiIndex];
}
// Order matters!
delete _pInstanceDefinition;
delete _pComponentLibrary;
delete _pMappingData;
}
string CSubsystem::getKind() const
{
return "Subsystem";
}
// Susbsystem Endianness
bool CSubsystem::isBigEndian() const
{
return _bBigEndian;
}
// Susbsystem sanity
bool CSubsystem::isAlive() const
{
return true;
}
// Resynchronization after subsystem restart needed
bool CSubsystem::needResync(bool bClear)
{
(void)bClear;
return false;
}
// From IXmlSink
bool CSubsystem::fromXml(const CXmlElement& xmlElement, CXmlSerializingContext& serializingContext)
{
// Subsystem class does not rely on generic fromXml algorithm of Element class.
// So, setting here the description if found as XML attribute.
setDescription(getXmlDescriptionAttribute(xmlElement));
// Context
CXmlParameterSerializingContext& parameterBuildContext = static_cast<CXmlParameterSerializingContext&>(serializingContext);
// Install temporary component library for further component creation
parameterBuildContext.setComponentLibrary(_pComponentLibrary);
CXmlElement childElement;
// Manage mapping attribute
if (xmlElement.hasAttribute("Mapping")) {
_pMappingData = new CMappingData;
if (!_pMappingData->fromXml(xmlElement, serializingContext)) {
return false;
}
}
// XML populate ComponentLibrary
xmlElement.getChildElement("ComponentLibrary", childElement);
if (!_pComponentLibrary->fromXml(childElement, serializingContext)) {
return false;
}
// XML populate InstanceDefintion
xmlElement.getChildElement("InstanceDefintion", childElement);
if (!_pInstanceDefinition->fromXml(childElement, serializingContext)) {
return false;
}
// Create components
_pInstanceDefinition->createInstances(this);
// Execute mapping to create subsystem mapping entities
string strError;
if (!mapSubsystemElements(strError)) {
serializingContext.setError(strError);
return false;
}
// Endianness
_bBigEndian = xmlElement.getAttributeBoolean("Endianness", "Big");
return true;
}
// XML configuration settings parsing
bool CSubsystem::serializeXmlSettings(CXmlElement& xmlConfigurationSettingsElementContent, CConfigurationAccessContext& configurationAccessContext) const
{
// Fix Endianness
configurationAccessContext.setBigEndianSubsystem(_bBigEndian);
return base::serializeXmlSettings(xmlConfigurationSettingsElementContent, configurationAccessContext);
}
bool CSubsystem::mapSubsystemElements(string& strError)
{
// Default mapping context
CMappingContext context(_contextMappingKeyArray.size());
// Add Subsystem-level mapping data, which will be propagated to all children
handleMappingContext(this, context, strError);
_contextStack.push(context);
// Map all instantiated subelements in subsystem
size_t uiNbChildren = getNbChildren();
size_t uiChild;
for (uiChild = 0; uiChild < uiNbChildren; uiChild++) {
CInstanceConfigurableElement* pInstanceConfigurableChildElement = static_cast<CInstanceConfigurableElement*>(getChild(uiChild));
if (!pInstanceConfigurableChildElement->map(*this, strError)) {
return false;
}
}
return true;
}
// Parameter access
bool CSubsystem::accessValue(CPathNavigator& pathNavigator, string& strValue, bool bSet, CParameterAccessContext& parameterAccessContext) const
{
// Deal with Endianness
parameterAccessContext.setBigEndianSubsystem(_bBigEndian);
return base::accessValue(pathNavigator, strValue, bSet, parameterAccessContext);
}
// Formats the mapping of the ConfigurableElements
string CSubsystem::formatMappingDataList(
const list<const CConfigurableElement*>& configurableElementPath) const
{
// The list is parsed in reverse order because it has been filled from the leaf to the trunk
// of the tree. When formatting the mapping, we want to start from the subsystem level
ostringstream ossStream;
list<const CConfigurableElement*>::const_reverse_iterator it;
for (it = configurableElementPath.rbegin(); it != configurableElementPath.rend(); ++it) {
const CInstanceConfigurableElement* pInstanceConfigurableElement =
static_cast<const CInstanceConfigurableElement*>(*it);
ossStream << pInstanceConfigurableElement->getFormattedMapping() << ", ";
}
return ossStream.str();
}
// Find the CSubystemObject containing a specific CInstanceConfigurableElement
const CSubsystemObject* CSubsystem::findSubsystemObjectFromConfigurableElement(
const CInstanceConfigurableElement* pInstanceConfigurableElement) const {
const CSubsystemObject* pSubsystemObject = NULL;
list<CSubsystemObject*>::const_iterator it;
for (it = _subsystemObjectList.begin(); it != _subsystemObjectList.end(); ++it) {
// Check if one of the SubsystemObjects is associated with a ConfigurableElement
// corresponding to the expected one
pSubsystemObject = *it;
if (pSubsystemObject->getConfigurableElement() == pInstanceConfigurableElement) {
break;
}
}
return pSubsystemObject;
}
void CSubsystem::findSubsystemLevelMappingKeyValue(
const CInstanceConfigurableElement* pInstanceConfigurableElement,
string& strMappingKey,
string& strMappingValue) const
{
// Find creator to get key name
std::vector<CSubsystemObjectCreator*>::const_iterator it;
for (it = _subsystemObjectCreatorArray.begin();
it != _subsystemObjectCreatorArray.end(); ++it) {
const CSubsystemObjectCreator* pSubsystemObjectCreator = *it;
strMappingKey = pSubsystemObjectCreator->getMappingKey();
// Check if the ObjectCreator MappingKey corresponds to the element mapping data
const string* pStrValue;
if (pInstanceConfigurableElement->getMappingData(strMappingKey, pStrValue)) {
strMappingValue = *pStrValue;
return;
}
}
assert(0);
}
// Formats the mapping data as a comma separated list of key value pairs
string CSubsystem::getFormattedSubsystemMappingData(
const CInstanceConfigurableElement* pInstanceConfigurableElement) const
{
// Find the SubsystemObject related to pInstanceConfigurableElement
const CSubsystemObject* pSubsystemObject = findSubsystemObjectFromConfigurableElement(
pInstanceConfigurableElement);
// Exit if node does not correspond to a SubsystemObject
if (pSubsystemObject == NULL) {
return "";
}
// Find SubsystemCreator mapping key
string strMappingKey;
string strMappingValue; // mapping value where amends are not replaced by their value
findSubsystemLevelMappingKeyValue(pInstanceConfigurableElement, strMappingKey, strMappingValue);
// Find SubSystemObject mapping value (with amends replaced by their value)
return strMappingKey + ":" + pSubsystemObject->getFormattedMappingValue();
}
string CSubsystem::getMapping(list<const CConfigurableElement*>& configurableElementPath) const
{
if (configurableElementPath.empty()) {
return "";
}
// Get the first element, which is the element containing the amended mapping
const CInstanceConfigurableElement* pInstanceConfigurableElement =
static_cast<const CInstanceConfigurableElement*>(configurableElementPath.front());
configurableElementPath.pop_front();
// Now the list only contains elements whose mapping are related to the context
// Format context mapping data
string strValue = formatMappingDataList(configurableElementPath);
// Print the mapping of the first node, which corresponds to a SubsystemObject
strValue += getFormattedSubsystemMappingData(pInstanceConfigurableElement);
return strValue;
}
void CSubsystem::logValue(string& strValue, CErrorContext& errorContext) const
{
CParameterAccessContext& parameterAccessContext = static_cast<CParameterAccessContext&>(errorContext);
// Deal with Endianness
parameterAccessContext.setBigEndianSubsystem(_bBigEndian);
return base::logValue(strValue, errorContext);
}
// Used for simulation and virtual subsystems
void CSubsystem::setDefaultValues(CParameterAccessContext& parameterAccessContext) const
{
// Deal with Endianness
parameterAccessContext.setBigEndianSubsystem(_bBigEndian);
base::setDefaultValues(parameterAccessContext);
}
// Belonging subsystem
const CSubsystem* CSubsystem::getBelongingSubsystem() const
{
return this;
}
// Subsystem context mapping keys publication
void CSubsystem::addContextMappingKey(const string& strMappingKey)
{
_contextMappingKeyArray.push_back(strMappingKey);
}
// Subsystem object creator publication (strong reference)
void CSubsystem::addSubsystemObjectFactory(CSubsystemObjectCreator* pSubsystemObjectCreator)
{
_subsystemObjectCreatorArray.push_back(pSubsystemObjectCreator);
}
// Generic error handling from derived subsystem classes
string CSubsystem::getMappingError(
const string& strKey,
const string& strMessage,
const CConfigurableElementWithMapping* pConfigurableElementWithMapping) const
{
return getName() + " " + getKind() + " " +
"mapping:\n" + strKey + " " +
"error: \"" + strMessage + "\" " +
"for element " + pConfigurableElementWithMapping->getPath();
}
bool CSubsystem::getMappingData(const std::string& strKey, const std::string*& pStrValue) const
{
if (_pMappingData) {
return _pMappingData->getValue(strKey, pStrValue);
}
return false;
}
// Mapping generic context handling
bool CSubsystem::handleMappingContext(
const CConfigurableElementWithMapping* pConfigurableElementWithMapping,
CMappingContext& context,
string& strError) const
{
// Feed context with found mapping data
uint32_t uiItem;
for (uiItem = 0; uiItem < _contextMappingKeyArray.size(); uiItem++) {
const string& strKey = _contextMappingKeyArray[uiItem];
const string* pStrValue;
if (pConfigurableElementWithMapping->getMappingData(strKey, pStrValue)) {
// Assign item to context
if (!context.setItem(uiItem, &strKey, pStrValue)) {
strError = getMappingError(strKey, "Already set", pConfigurableElementWithMapping);
return false;
}
}
}
return true;
}
// Subsystem object creation handling
bool CSubsystem::handleSubsystemObjectCreation(
CInstanceConfigurableElement* pInstanceConfigurableElement,
CMappingContext& context, bool& bHasCreatedSubsystemObject, string& strError)
{
uint32_t uiItem;
bHasCreatedSubsystemObject = false;
for (uiItem = 0; uiItem < _subsystemObjectCreatorArray.size(); uiItem++) {
const CSubsystemObjectCreator* pSubsystemObjectCreator =
_subsystemObjectCreatorArray[uiItem];
// Mapping key
string strKey = pSubsystemObjectCreator->getMappingKey();
// Object id
const string* pStrValue;
if (pInstanceConfigurableElement->getMappingData(strKey, pStrValue)) {
// First check context consistency
// (required ancestors must have been set prior to object creation)
uint32_t uiAncestorKey;
uint32_t uiAncestorMask = pSubsystemObjectCreator->getAncestorMask();
for (uiAncestorKey = 0; uiAncestorKey < _contextMappingKeyArray.size(); uiAncestorKey++) {
if (!((1 << uiAncestorKey) & uiAncestorMask)) {
// Ancestor not required
continue;
}
// Check ancestor was provided
if (!context.iSet(uiAncestorKey)) {
strError = getMappingError(strKey, _contextMappingKeyArray[uiAncestorKey] +
" not set", pInstanceConfigurableElement);
return false;
}
}
// Then check configurable element size is correct
if (pInstanceConfigurableElement->getFootPrint() >
pSubsystemObjectCreator->getMaxConfigurableElementSize()) {
string strSizeError = "Size should not exceed " +
CUtility::toString(
pSubsystemObjectCreator->getMaxConfigurableElementSize());
strError = getMappingError(strKey, strSizeError, pInstanceConfigurableElement);
return false;
}
// Do create object and keep its track
_subsystemObjectList.push_back(pSubsystemObjectCreator->objectCreate(
*pStrValue, pInstanceConfigurableElement, context));
// Indicate subsytem creation to caller
bHasCreatedSubsystemObject = true;
// The subsystem Object has been instantiated, no need to continue looking for an
// instantiation mapping
break;
}
}
return true;
}
// From IMapper
// Handle a configurable element mapping
bool CSubsystem::mapBegin(CInstanceConfigurableElement* pInstanceConfigurableElement,
bool& bKeepDiving, string& strError)
{
// Get current context
CMappingContext context = _contextStack.top();
// Add mapping in context
if (!handleMappingContext(pInstanceConfigurableElement, context,
strError)) {
return false;
}
// Push context
_contextStack.push(context);
// Assume diving by default
bKeepDiving = true;
// Deal with ambiguous usage of parameter blocks
bool bShouldCreateSubsystemObject = true;
switch(pInstanceConfigurableElement->getType()) {
case CInstanceConfigurableElement::EComponent:
case CInstanceConfigurableElement::EParameterBlock:
// Subsystem object creation is optional in parameter blocks
bShouldCreateSubsystemObject = false;
// No break
case CInstanceConfigurableElement::EBitParameterBlock:
case CInstanceConfigurableElement::EParameter:
case CInstanceConfigurableElement::EStringParameter:
bool bHasCreatedSubsystemObject;
if (!handleSubsystemObjectCreation(pInstanceConfigurableElement, context,
bHasCreatedSubsystemObject, strError)) {
return false;
}
// Check for creation error
if (bShouldCreateSubsystemObject && !bHasCreatedSubsystemObject) {
strError = getMappingError("Not found",
"Subsystem object mapping key is missing",
pInstanceConfigurableElement);
return false;
}
// Not created and no error, keep diving
bKeepDiving = !bHasCreatedSubsystemObject;
return true;
default:
assert(0);
return false;
}
}
void CSubsystem::mapEnd()
{
// Unstack context
_contextStack.pop();
}
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