CIMProperty ObjectNormalizer::processProperty(
CIMConstProperty& referenceProperty,
CIMConstProperty& instProperty,
Boolean includeQualifiers,
Boolean includeClassOrigin,
NormalizerContext* context,
const CIMNamespaceName& nameSpace)
{
// check name
if (!referenceProperty.getName().equal(instProperty.getName()))
{
MessageLoaderParms message(
"Common.ObjectNormalizer.INVALID_PROPERTY_NAME",
"Invalid property name: $0",
instProperty.getName().getString());
throw CIMException(CIM_ERR_FAILED, message);
}
// check type
CIMType referencePropType = referenceProperty.getType();
CIMType instPropType = instProperty.getType();
if (referencePropType != instPropType)
{
MessageLoaderParms message(
"Common.ObjectNormalizer.INVALID_PROPERTY_TYPE",
"Invalid property type: $0",
instProperty.getName().getString());
throw CIMException(CIM_ERR_FAILED, message);
}
// TODO: check array size?
CIMProperty normalizedProperty(
referenceProperty.getName(),
referenceProperty.getValue(), // default value
referenceProperty.getArraySize(),
referenceProperty.getReferenceClassName(),
CIMName(),
false);
// TODO: check override (especially for references)?
// update value
if (!instProperty.getValue().isNull())
{
normalizedProperty.setValue(instProperty.getValue());
}
// update class origin
if (includeClassOrigin)
{
normalizedProperty.setClassOrigin(referenceProperty.getClassOrigin());
}
// add qualifiers
if (includeQualifiers)
{
// propagate class property qualifiers
for (Uint32 i=0, n = referenceProperty.getQualifierCount(); i < n; i++)
{
CIMConstQualifier referenceQualifier =
referenceProperty.getQualifier(i);
Uint32 pos =
instProperty.findQualifier(referenceQualifier.getName());
// update value if qualifier is present in the specified property
if (pos != PEG_NOT_FOUND)
{
CIMConstQualifier cimQualifier = instProperty.getQualifier(pos);
CIMQualifier normalizedQualifier =
_processQualifier(
referenceQualifier,
cimQualifier);
normalizedProperty.addQualifier(normalizedQualifier);
}
else
{
normalizedProperty.addQualifier(referenceQualifier.clone());
}
}
}
#ifdef PEGASUS_SNIA_INTEROP_COMPATIBILITY
else if (referenceProperty.getType() == CIMTYPE_INSTANCE)
{
Uin32 refPos = referenceProperty.findQualifier(
PEGASUS_QUALIFIERNAME_EMBEDDEDINSTANCE);
Uin32 cimPos = instProperty.findQualifier(
PEGASUS_QUALIFIERNAME_EMBEDDEDINSTANCE);
if (refPos != PEG_NOT_FOUND && cimPos == PEG_NOT_FOUND)
{
instProperty.addQualifier(refProperty.getQualifier(pos));
}
}
#endif
// Check the type of the embedded instance against the class specified by
// the EmbeddedInstance qualifier. We can only do this if the context
// is non-zero.
if (context != 0)
{
if (referenceProperty.getType() == CIMTYPE_INSTANCE)
{
Uint32 pos = referenceProperty.findQualifier(
PEGASUS_QUALIFIERNAME_EMBEDDEDINSTANCE);
PEGASUS_ASSERT(pos != PEG_NOT_FOUND);
String qualClassStr;
referenceProperty.getQualifier(pos).getValue().get(
qualClassStr);
CIMName embedInstClassName(qualClassStr);
Array<CIMName> embeddedInstSubclasses =
context->enumerateClassNames(nameSpace, embedInstClassName,
true);
embeddedInstSubclasses.append(embedInstClassName);
Array<CIMInstance> embeddedInstances;
if (referenceProperty.isArray())
{
instProperty.getValue().get(embeddedInstances);
}
else
{
CIMInstance embeddedInst;
instProperty.getValue().get(embeddedInst);
embeddedInstances.append(embeddedInst);
}
Array<CIMClass> embeddedClassDefs;
for (Uint32 i = 0, n = embeddedInstances.size(); i < n; ++i)
{
CIMInstance& currentInstance = embeddedInstances[i];
CIMName currentClassName = currentInstance.getClassName();
if (Contains(embeddedInstSubclasses, currentClassName))
{
CIMClass embeddedClassDef;
bool found = false;
for (Uint32 j = 0, m = embeddedClassDefs.size(); j < m;
++j)
{
CIMClass& tmpClassDef = embeddedClassDefs[j];
if (tmpClassDef.getClassName() == currentClassName)
{
embeddedClassDef = tmpClassDef;
found = true;
}
}
if (!found)
{
embeddedClassDef = context->getClass(nameSpace,
currentClassName);
embeddedClassDefs.append(embeddedClassDef);
}
SharedPtr<NormalizerContext> tmpContext(context->clone());
ObjectNormalizer tmpNormalizer(embeddedClassDef,
includeQualifiers, includeClassOrigin, nameSpace,
tmpContext);
if (currentInstance.getPath().getKeyBindings().size()==0)
{
currentInstance.setPath(
currentInstance.buildPath(embeddedClassDef));
}
embeddedInstances[i] =
tmpNormalizer.processInstance(currentInstance);
}
else
{
MessageLoaderParms message(
"Common.ObjectNormalizer."
"INVALID_EMBEDDED_INSTANCE_TYPE",
"Found embedded instance of type $0: was expecting "
"$1 for property $2",
currentClassName.getString(),
qualClassStr,
instProperty.getName().getString());
throw CIMException(CIM_ERR_FAILED, message);
}
}
if (referenceProperty.isArray())
{
normalizedProperty.setValue(CIMValue(embeddedInstances));
}
else
{
normalizedProperty.setValue(CIMValue(embeddedInstances[0]));
}
}
}
return normalizedProperty;
}
void CIMInstanceRep::resolve(
DeclContext* context,
const CIMNamespaceName& nameSpace,
CIMConstClass& cimClassOut,
Boolean propagateQualifiers)
{
// ATTN: Verify that references are initialized.
if (!context)
throw NullPointer();
//----------------------------------------------------------------------
// First obtain the class:
//----------------------------------------------------------------------
CIMConstClass cimClass =
context->lookupClass(nameSpace, _reference.getClassName());
if (cimClass.isUninitialized())
throw PEGASUS_CIM_EXCEPTION(CIM_ERR_INVALID_CLASS,
_reference.getClassName().getString ());
cimClassOut = cimClass;
//----------------------------------------------------------------------
// Disallow instantiation of abstract classes.
//----------------------------------------------------------------------
if (cimClass.isAbstract())
throw InstantiatedAbstractClass(_reference.getClassName().getString ());
//----------------------------------------------------------------------
// Validate and propagate qualifiers.
//----------------------------------------------------------------------
_qualifiers.resolve(
context,
nameSpace,
(cimClass.isAssociation()) ? CIMScope::ASSOCIATION : CIMScope::CLASS,
false,
cimClass._rep->_qualifiers,
propagateQualifiers);
//----------------------------------------------------------------------
// First iterate the properties of this instance and verify that
// each one is defined in the class and then resolve each one.
//----------------------------------------------------------------------
CIMName className = cimClass.getClassName();
for (Uint32 i = 0, n = _properties.size(); i < n; i++)
{
CIMProperty& property = _properties[i];
Uint32 index = cimClass.findProperty(property.getName());
if (index == PEG_NOT_FOUND)
{
//
// Allow addition of Creator property to Indication Subscription,
// Filter and Handler instances
//
// l10n add language property support
if (!(((className.equal
(CIMName (PEGASUS_CLASSNAME_INDSUBSCRIPTION))) ||
(className.equal
(CIMName (PEGASUS_CLASSNAME_FORMATTEDINDSUBSCRIPTION))) ||
(className.equal
(CIMName (PEGASUS_CLASSNAME_INDHANDLER_CIMXML))) ||
(className.equal
(CIMName (PEGASUS_CLASSNAME_LSTNRDST_CIMXML))) ||
(className.equal
(CIMName (PEGASUS_CLASSNAME_INDHANDLER_SNMP))) ||
#ifdef PEGASUS_ENABLE_SYSTEM_LOG_HANDLER
(className.equal
(CIMName (PEGASUS_CLASSNAME_LSTNRDST_SYSTEM_LOG))) ||
#endif
#ifdef PEGASUS_ENABLE_EMAIL_HANDLER
(className.equal
(CIMName (PEGASUS_CLASSNAME_LSTNRDST_EMAIL))) ||
#endif
(className.equal (CIMName (PEGASUS_CLASSNAME_INDFILTER)))) &&
((property.getName ().equal
(CIMName (PEGASUS_PROPERTYNAME_INDSUB_CREATOR))) ||
(property.getName ().equal
(CIMName (PEGASUS_PROPERTYNAME_INDSUB_ACCEPTLANGS))) ||
(property.getName ().equal
(CIMName (PEGASUS_PROPERTYNAME_INDSUB_CONTENTLANGS))))))
{
throw NoSuchProperty(property.getName().getString ());
}
}
else
{
// resolve the property
Resolver::resolveProperty (property, context, nameSpace, true,
cimClass.getProperty (index), propagateQualifiers);
}
}
//----------------------------------------------------------------------
// Inject all properties from the class that are not included in the
// instance. Copy over the class-origin and set the propagated flag
// to true. NOTE: The propagated flag indicates that the property
// was not part of the property set input with the create and
// was inherited from the default in the class (see cimxml spec sect 3.1.5)
//----------------------------------------------------------------------
for (Uint32 i = 0, m = 0, n = cimClass.getPropertyCount(); i < n; i++)
{
CIMConstProperty property = cimClass.getProperty(i);
const CIMName& name = property.getName();
// See if this instance already contains a property with this name:
Boolean found = false;
for (Uint32 j = m, s = _properties.size(); j < s; j++)
{
if (name.equal(_properties[j].getName()))
{
found = true;
break;
}
}
if (!found)
{
CIMProperty p;
if (propagateQualifiers)
{
p = property.clone();
}
else
{
p = CIMProperty(
property.getName(),
property.getValue(),
property.getArraySize(),
property.getReferenceClassName(),
property.getClassOrigin(),
property.getPropagated());
}
p.setPropagated(true);
_properties.insert(m++, p);
}
}
}