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File: [Pegasus] / pegasus / src / Pegasus / Common / ObjectNormalizer.cpp
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Revision: 1.33, Tue Aug 1 17:08:19 2006 UTC (17 years, 11 months ago) by gs.keenan Branch: MAIN CVS Tags: TASK-TASK-BUG4011_WinLocalConnect-branch-New-root, TASK-TASK-BUG4011_WinLocalConnect-branch-New-merged_out_to_branch, TASK-TASK-BUG4011_WinLocalConnect-branch-New-merged_out_from_trunk, TASK-TASK-BUG4011_WinLocalConnect-branch-New-merged_in_to_trunk, TASK-TASK-BUG4011_WinLocalConnect-branch-New-merged_in_from_branch, TASK-TASK-BUG4011_WinLocalConnect-branch-New-branch, TASK-PEP268_SSLClientCertificatePropagation-root, TASK-PEP268_SSLClientCertificatePropagation-merged_out_to_branch, TASK-PEP268_SSLClientCertificatePropagation-merged_out_from_trunk, TASK-PEP268_SSLClientCertificatePropagation-merged_in_to_trunk, TASK-PEP268_SSLClientCertificatePropagation-merged_in_from_branch, TASK-PEP268_SSLClientCertificatePropagation-branch, TASK-PEP267_SLPReregistrationSupport-root, TASK-PEP267_SLPReregistrationSupport-merging_out_to_branch, TASK-PEP267_SLPReregistrationSupport-merging_out_from_trunk, TASK-PEP267_SLPReregistrationSupport-merged_out_to_branch, TASK-PEP267_SLPReregistrationSupport-merged_out_from_trunk, TASK-PEP267_SLPReregistrationSupport-merged_in_to_trunk, TASK-PEP267_SLPReregistrationSupport-merged_in_from_branch, TASK-PEP267_SLPReregistrationSupport-branch, TASK-Bugs5690_3913_RemoteCMPI-root, TASK-Bugs5690_3913_RemoteCMPI-merged_out_to_branch, TASK-Bugs5690_3913_RemoteCMPI-merged_out_from_trunk, TASK-Bugs5690_3913_RemoteCMPI-merged_in_to_trunk, TASK-Bugs5690_3913_RemoteCMPI-merged_in_from_branch, TASK-Bugs5690_3913_RemoteCMPI-branch, TASK-Bug2021_RemoteCMPIonWindows-root, TASK-Bug2021_RemoteCMPIonWindows-merged_out_to_branch, TASK-Bug2021_RemoteCMPIonWindows-merged_out_from_trunk, TASK-Bug2021_RemoteCMPIonWindows-merged_in_to_trunk, TASK-Bug2021_RemoteCMPIonWindows-merged_in_from_branch, TASK-Bug2021_RemoteCMPIonWindows-branch, TASK-Bug2021_RCMPIonWindows-root, TASK-Bug2021_RCMPIonWindows-merged_out_to_branch, TASK-Bug2021_RCMPIonWindows-merged_out_from_trunk, TASK-Bug2021_RCMPIonWindows-merged_in_to_trunk, TASK-Bug2021_RCMPIonWindows-merged_in_from_branch, TASK-Bug2021_RCMPIonWindows-branch, TASK-BUG4011_WinLocalConnect-branch-New Changes since 1.32: +1 -1 lines BUG#: 5299 TITLE: Compile warning in ObjectNormalizer.cpp DESCRIPTION: Release AutoPtr when doing clone of NormalizerContext. |
//%2006////////////////////////////////////////////////////////////////////////
//
// Copyright (c) 2000, 2001, 2002 BMC Software; Hewlett-Packard Development
// Company, L.P.; IBM Corp.; The Open Group; Tivoli Systems.
// Copyright (c) 2003 BMC Software; Hewlett-Packard Development Company, L.P.;
// IBM Corp.; EMC Corporation, The Open Group.
// Copyright (c) 2004 BMC Software; Hewlett-Packard Development Company, L.P.;
// IBM Corp.; EMC Corporation; VERITAS Software Corporation; The Open Group.
// Copyright (c) 2005 Hewlett-Packard Development Company, L.P.; IBM Corp.;
// EMC Corporation; VERITAS Software Corporation; The Open Group.
// Copyright (c) 2006 Hewlett-Packard Development Company, L.P.; IBM Corp.;
// EMC Corporation; Symantec Corporation; The Open Group.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to
// deal in the Software without restriction, including without limitation the
// rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
// sell copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// THE ABOVE COPYRIGHT NOTICE AND THIS PERMISSION NOTICE SHALL BE INCLUDED IN
// ALL COPIES OR SUBSTANTIAL PORTIONS OF THE SOFTWARE. THE SOFTWARE IS PROVIDED
// "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT
// LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR
// PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
// HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
// ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
//
//==============================================================================
//
// Author: Chip Vincent (cvincent@us.ibm.com)
//
// Modified By:
//
//%/////////////////////////////////////////////////////////////////////////////
#include <Pegasus/Common/ObjectNormalizer.h>
#include <Pegasus/Common/ArrayInternal.h>
PEGASUS_NAMESPACE_BEGIN
CIMQualifier _processQualifier(
CIMConstQualifier & referenceQualifier,
CIMConstQualifier & cimQualifier)
{
// check name
if(!referenceQualifier.getName().equal(cimQualifier.getName()))
{
MessageLoaderParms message(
"Common.ObjectNormalizer.INVALID_QUALIFIER_NAME",
"Invalid qualifier name: $0",
cimQualifier.getName().getString());
throw CIMException(CIM_ERR_FAILED, message);
}
// check type
if(referenceQualifier.getType() != cimQualifier.getType())
{
MessageLoaderParms message(
"Common.ObjectNormalizer.INVALID_QUALIFIER_TYPE",
"Invalid qualifier type: $0",
cimQualifier.getName().getString());
throw CIMException(CIM_ERR_FAILED, message);
}
CIMQualifier normalizedQualifier(
referenceQualifier.getName(),
referenceQualifier.getValue(), // default value
referenceQualifier.getFlavor(),
referenceQualifier.getPropagated() == 0 ? false : true);
// TODO: check override
// update value
if(!cimQualifier.getValue().isNull())
{
normalizedQualifier.setValue(cimQualifier.getValue());
}
return(normalizedQualifier);
}
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)
{
#ifdef PEGASUS_EMBEDDED_INSTANCE_SUPPORT
// CMPI Providers cannot return a CIMTYPE_INSTANCE, so if the
// referenceProperty type is CIMTYPE_INSTANCE and the instProperty
// type is CIMTYPE_OBJECT, ignore the mismatch. The Normalizer
// will correct it.
if(referencePropType != CIMTYPE_INSTANCE ||
instPropType != CIMTYPE_OBJECT)
#endif // PEGASUS_EMBEDDED_INSTANCE_SUPPORT
{
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())
{
#ifdef PEGASUS_EMBEDDED_INSTANCE_SUPPORT
// This happens ONLY when the referencePropType is CIMTYPE_INSTANCE
// and the cimPropType is CIMTYPE_OBJECT, otherwise an exception
// would have been thrown. Correct the mismatch here.
if(referencePropType != instPropType)
{
CIMObject tmpObject;
instProperty.getValue().get(tmpObject);
normalizedProperty.setValue(CIMInstance(tmpObject));
}
else
#endif // PEGASUS_EMBEDDED_INSTANCE_SUPPORT
{
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_EMBEDDED_INSTANCE_SUPPORT
#ifdef PEGASUS_SNIA_INTEROP_COMPATIBILITY
else if(referenceProperty.getType() == CIMTYPE_INSTANCE)
{
Uin32 refPos = referenceProperty.findQualifier("EmbeddedInstance");
Uin32 cimPos = instProperty.findQualifier("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("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);
}
AutoPtr<NormalizerContext> tmpContext(context->clone().release());
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]));
}
}
}
#endif // PEGASUS_EMBEDDED_INSTANCE_SUPPORT
return(normalizedProperty);
}
ObjectNormalizer::ObjectNormalizer(void)
: _includeQualifiers(false),
_includeClassOrigin(false),
_context(0)
{
}
ObjectNormalizer::ObjectNormalizer(
const CIMClass & cimClass,
Boolean includeQualifiers,
Boolean includeClassOrigin,
const CIMNamespaceName & nameSpace,
AutoPtr<NormalizerContext> & context)
: _cimClass(cimClass),
_includeQualifiers(includeQualifiers),
_includeClassOrigin(includeClassOrigin),
_context(context),
_nameSpace(nameSpace)
{
if(!_cimClass.isUninitialized())
{
// ATTN: the following code is intended to expedite normalizing instances and instance object
// paths by establishing the keys once now rather than multiple times later. it is biased
// toward providers that return many instances with many properties.
// build a reference object path within the class
Array<CIMKeyBinding> keys;
for(Uint32 i = 0, n = _cimClass.getPropertyCount(); i < n; i++)
{
CIMConstProperty referenceProperty = _cimClass.getProperty(i);
Uint32 pos = referenceProperty.findQualifier("key");
if((pos != PEG_NOT_FOUND) && (referenceProperty.getQualifier(pos).getValue().equal(CIMValue(true))))
{
if(referenceProperty.getType() == CIMTYPE_REFERENCE)
{
// ATTN: a fake reference is inserted in the key so that the _BubbleSort() method
// in CIMObjectPath does not throw and exception. It implicitly validates keys of
// type REFERENCE so just place a dummy value for now. The value will be replaced
// by the normalized object later.
keys.append(CIMKeyBinding(referenceProperty.getName(), "class.key=\"value\"", CIMKeyBinding::REFERENCE));
}
else
{
keys.append(CIMKeyBinding(referenceProperty.getName(), referenceProperty.getValue()));
}
}
}
// update class object path
CIMObjectPath cimObjectPath(_cimClass.getPath());
cimObjectPath.setKeyBindings(keys);
_cimClass.setPath(cimObjectPath);
}
}
CIMObjectPath ObjectNormalizer::processClassObjectPath(const CIMObjectPath & cimObjectPath) const
{
// pre-check
if(_cimClass.isUninitialized())
{
// do nothing
return(cimObjectPath);
}
/*
// ATTN: moving similar logic to the response handlers because this type of error should
// be checked regardless with or without normalization enabled.
if(cimObjectPath.getClassName().isNull())
{
throw CIMException(CIM_ERR_FAILED, "uninitialized object path");
}
*/
/*
// ATTN: The following code is currently redundant because the CIMName object validates
// legal names when it is constructed. It is included here for completeness.
// check class name
if(!CIMName(cimObjectPath.getClassName()).legal())
{
MessageLoaderParms message(
"Common.ObjectNormalizer.INVALID_CLASS_NAME",
"Invalid class name: $0",
cimObjectPath.getClassName().getString());
throw CIMException(CIM_ERR_FAILED, message);
}
*/
// check class type
if(!_cimClass.getClassName().equal(cimObjectPath.getClassName()))
{
MessageLoaderParms message(
"Common.ObjectNormalizer.INVALID_CLASS_TYPE",
"Invalid class type: $0",
cimObjectPath.getClassName().getString());
throw CIMException(CIM_ERR_FAILED, message);
}
CIMObjectPath normalizedObjectPath(
_cimClass.getPath().getHost(),
_cimClass.getPath().getNameSpace(),
_cimClass.getClassName());
// ignore any keys, they are not part of a class object path
return(normalizedObjectPath);
}
CIMObjectPath ObjectNormalizer::processInstanceObjectPath(const CIMObjectPath & cimObjectPath) const
{
// pre-check
if(_cimClass.isUninitialized())
{
// do nothing
return(cimObjectPath);
}
/*
// ATTN: moving similar logic to the response handlers because this type of error should
// be checked regardless with or without normalization enabled.
if(cimObjectPath.getClassName().isNull())
{
throw CIMException(CIM_ERR_FAILED, "uninitialized object path");
}
*/
/*
// ATTN: The following code is currently redundant because the CIMName object validates
// legal names when it is constructed. It is included here for completeness.
// check class name
if(!CIMName(cimObjectPath.getClassName()).legal())
{
MessageLoaderParms message(
"Common.ObjectNormalizer.INVALID_CLASS_NAME",
"Invalid class name: $0",
cimObjectPath.getClassName().getString());
throw CIMException(CIM_ERR_FAILED, message);
}
*/
// check class type
if(!_cimClass.getClassName().equal(cimObjectPath.getClassName()))
{
MessageLoaderParms message(
"Common.ObjectNormalizer.INVALID_CLASS_TYPE",
"Invalid class type: $0",
cimObjectPath.getClassName().getString());
throw CIMException(CIM_ERR_FAILED, message);
}
CIMObjectPath normalizedObjectPath(
_cimClass.getPath().getHost(),
_cimClass.getPath().getNameSpace(),
_cimClass.getClassName());
Array<CIMKeyBinding> normalizedKeys;
Array<CIMKeyBinding> referenceKeys = _cimClass.getPath().getKeyBindings();
Array<CIMKeyBinding> cimKeys = cimObjectPath.getKeyBindings();
for(Uint32 i = 0, n = referenceKeys.size(); i < n; i++)
{
CIMKeyBinding key;
// override the value from the specified object
for(Uint32 j = 0, m = cimKeys.size(); j < m; j++)
{
if(referenceKeys[i].getName().equal(cimKeys[j].getName()))
{
// check type
if(referenceKeys[i].getType() != cimKeys[j].getType())
{
MessageLoaderParms message(
"Common.ObjectNormalizer.INVALID_KEY_TYPE",
"Invalid key type: $0",
referenceKeys[i].getName().getString());
throw CIMException(CIM_ERR_FAILED, message);
}
key = CIMKeyBinding(referenceKeys[i].getName(), cimKeys[j].getValue(), referenceKeys[i].getType());
break;
}
}
// key not found
if(key.getName().isNull())
{
MessageLoaderParms message(
"Common.ObjectNormalizer.MISSING_KEY",
"Missing key: $0",
referenceKeys[i].getName().getString());
throw CIMException(CIM_ERR_FAILED, message);
}
normalizedKeys.append(key);
}
normalizedObjectPath.setKeyBindings(normalizedKeys);
return(normalizedObjectPath);
}
CIMInstance ObjectNormalizer::processInstance(const CIMInstance & cimInstance) const
{
// pre-checks
if(_cimClass.isUninitialized())
{
// do nothing
return(cimInstance);
}
/*
// ATTN: moving similar logic to the response handlers because this type of error should
// be checked regardless with or without normalization enabled.
if(cimInstance.isUninitialized())
{
throw CIMException(CIM_ERR_FAILED, "unintialized instance object.");
}
*/
CIMInstance normalizedInstance(_cimClass.getClassName());
// proces object path
normalizedInstance.setPath(processInstanceObjectPath(cimInstance.getPath()));
// process instance qualifiers
if(_includeQualifiers)
{
// propagate class qualifiers
for(Uint32 i = 0, n = _cimClass.getQualifierCount(); i < n; i++)
{
CIMConstQualifier referenceQualifier = _cimClass.getQualifier(i);
Uint32 pos = cimInstance.findQualifier(referenceQualifier.getName());
// update value if qualifier is present in the specified property
if(pos != PEG_NOT_FOUND)
{
CIMConstQualifier cimQualifier = cimInstance.getQualifier(pos);
CIMQualifier normalizedQualifier =
_processQualifier(
referenceQualifier,
cimQualifier);
normalizedInstance.addQualifier(normalizedQualifier);
}
else
{
normalizedInstance.addQualifier(referenceQualifier.clone());
}
}
}
// check property names and types. any properties in the class but not in the instance
// are implicitly dropped.
for(Uint32 i = 0, n = _cimClass.getPropertyCount(); i < n; i++)
{
CIMConstProperty referenceProperty = _cimClass.getProperty(i);
Uint32 pos = cimInstance.findProperty(referenceProperty.getName());
if(pos != PEG_NOT_FOUND)
{
CIMConstProperty cimProperty = cimInstance.getProperty(pos);
CIMProperty normalizedProperty =
_processProperty(
referenceProperty,
cimProperty,
_includeQualifiers,
_includeClassOrigin,
_context.get(),
_nameSpace);
normalizedInstance.addProperty(normalizedProperty);
}
}
return(normalizedInstance);
}
PEGASUS_NAMESPACE_END
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