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Diff for /pegasus/src/Pegasus/ControlProviders/InteropProvider/InteropProvider.cpp between version 1.5.2.8 and 1.72

version 1.5.2.8, 2004/02/21 00:12:56

version 1.72, 2008/02/20 14:00:31

Line 1

//%2003////////////////////////////////////////////////////////////////////////

//%2006////////////////////////////////////////////////////////////////////////

// Company, L. P., IBM Corp., The Open Group, Tivoli Systems.

// Company, L.P.; IBM Corp.; The Open Group; Tivoli Systems.

// IBM Corp.; EMC Corporation, The Open Group.

// IBM Corp.; EMC Corporation; VERITAS Software Corporation; The Open Group.

// EMC Corporation; VERITAS Software Corporation; The Open Group.

// 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

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// 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: Karl Schopmeyer (k.schopmeyer@opengroup.org)

// Modified By: Carol Ann Krug Graves, Hewlett-Packard Company

// (carolann_graves@hp.com)

// Karl Schopmeyer - Add Cim_Namespace capabilities.

// Karl Schopmeyer - Temp added objectmanager and communication classes

//%////////////////////////////////////////////////////////////////////////////

///////////////////////////////////////////////////////////////////////////////

// Interop Provider - This provider services those classes from the

// DMTF Interop schema association with the CIMOM itself

// DMTF Interop schema in an implementation compliant with the SMI-S v1.1

// Server Profile

// This provider services the following classes:

// Please see PG_ServerProfile20.mof in the directory

// CIMObjectManager

// $(PEGASUS_ROOT)/Schemas/Pegasus/InterOp/VER20 for retails regarding the

// CIM_ObjectManagerCommunicationMechanism

// classes supported by this control provider.

// CIM_CIMXMLCommunicationMechanism

// CIM_ProtocolAdapter

// Interop forces all creates to the PEGASUS_NAMESPACENAME_INTEROP

// CIM_Namespace

// namespace. There is a test on each operation that returns

// the Invalid Class CIMDError

// It also services the Interop associations tied to these classes

// This is a control provider and as such uses the Tracer functions

// including:

// for data and function traces. Since we do not expect high volume

// CIM_NamespaceInManager

// use we added a number of traces to help diagnostics.

// ...

// CIM Version: Interop Provider was written for CIM 2.7 adn 2.8.

// Note: all 2.8 functions are controlled by a flag and can be

// disabled.

///////////////////////////////////////////////////////////////////////////////

/* STATUS: In process but running 12 feburary 2004 KS */

/* TODO: 12 Feb 2004

Add the association functions

UUID generation should become a system function since it will be used

by many providers, etc. as part of id generation.

#include <Pegasus/Common/Config.h>

#include <Pegasus/Common/PegasusVersion.h>

Line 68

Line 55

#include <iostream>

#include "InteropProvider.h"

#include "Guid.h"

#include "InteropProviderUtils.h"

#include <Pegasus/Common/String.h>

#include "InteropConstants.h"

#include <Pegasus/Common/System.h>

#include <Pegasus/Common/ArrayInternal.h>

#include <Pegasus/Common/CIMName.h>

#include <Pegasus/Common/CIMType.h>

#include <Pegasus/Common/CIMInstance.h>

#include <Pegasus/Common/CIMObjectPath.h>

#include <Pegasus/Common/InternalException.h>

#include <Pegasus/Common/CIMStatusCode.h>

#include <Pegasus/Common/Tracer.h>

#include <Pegasus/Common/OperationContext.h>

#include <Pegasus/Config/ConfigManager.h>

#include <Pegasus/Common/XmlWriter.h>

#include <Pegasus/Config/ConfigManager.h>

#include <sstream>

#include <string>

#include <stdlib.h>

//The following include is needed for UUID Generator

#if defined(PEGASUS_OS_TYPE_WINDOWS)

#include <objbase.h>

#endif

PEGASUS_USING_STD;

#include <Pegasus/Common/StatisticalData.h>

PEGASUS_USING_STD;

PEGASUS_NAMESPACE_BEGIN

#define CDEBUG(X)

/*****************************************************************************

//#define CDEBUG(X) PEGASUS_STD(cout) << "InteropProvider " << X << PEGASUS_STD(endl)

//#define CDEBUG(X) Logger::put (Logger::DEBUG_LOG, "Linux_ProcessorProvider", Logger::INFORMATION, "$0", X)

* The following are constants representing property names for the classes

//#define CDEBUG(X) {std::stringstream ss; std::string r;ss << X;ss>>r; PEG_TRACE_STRING(TRC_CONTROLPROVIDER, Tracer::LEVEL4, r)}

* managed by the Interop Provider. Where multiple classes have properties of

* the same name, there will be a common CIMName object defined, and a macro

* defined that points to the common CIMName object, but whose macro name

//**************************************************************************

* reflects the class in which the property is used.

// Constants representing the class names processed

*****************************************************************************/

//**************************************************************************

// Constructor for the InteropProvider control provider

// The following should be moved to somewhere like constants.

static const String PegasusInstanceIDGlobalPrefix = "PEG";

InteropProvider::InteropProvider(CIMRepository * rep) : repository(rep),

hostName(System::getHostName()), providerInitialized(false),

/**

profileIds(Array<String>()), conformingElements(Array<CIMNameArray>()),

The constants representing the class names we process

elementNamespaces(Array<CIMNamespaceArray>())

static const CIMName __NAMESPACE_CLASSNAME = CIMName ("__Namespace");

static const CIMName CIM_NAMESPACE_CLASSNAME = CIMName ("CIM_Namespace");

static const CIMName CIM_OBJECTMANAGER_CLASSNAME = CIMName ("CIM_ObjectManager");

static const CIMName CIM_OBJECTMANAGERCOMMUNICATIONMECHANISM_CLASSNAME =

CIMName ("CIM_ObjectManagerCommunicationMechanism");

//static const CIMName CIM_CIMXMLCOMMUNICATIONMECHANISM_CLASSNAME =

// CIMName ("CIM_CIMXMLCommunicationMechanism");

static const CIMName PG_CIMXMLCOMMUNICATIONMECHANISM_CLASSNAME =

CIMName ("PG_CIMXMLCommunicationMechanism");

// Property Names for __Namespace Class

static const CIMName NAMESPACE_PROPERTYNAME = CIMName ("Name");

static const CIMNamespaceName ROOTNS = CIMNamespaceName ("root");

// Property names for CIM_ObjectManager Class

static const CIMName OM_GATHERSTATISTICALDATA =

CIMName ("GatherStatisticalData");

// Property for the slp template.

static const CIMName OM_DESCRIPTIONPROPERTY =

CIMName("Description");

// Property Names for ObjectManagerCommunicationMechanism Class

static const CIMName OM_COMMUNICATIONMECHANISM =

CIMName ("CommunicationMechanism");

static const CIMName OM_FUNCTIONALPROFILESSUPPORTED =

CIMName ("FunctionalProfilesSupported");

static const CIMName OM_FUNCTIONALPROFILEDESCRIPTIONS =

CIMName ("FunctionalProfileDescriptions");

static const CIMName OM_AUTHENTICATIONMECHANISMSSUPPORTED =

CIMName ("AuthenticationMechanismsSupported");

static const CIMName OM_AUTHENTICATIONMECHANISMDESCRIPTIONS =

CIMName ("AuthenticationMechanismDescriptions");

static const CIMName OM_MULTIPLEOPERATIONSSUPPORTED =

CIMName ("MultipleOperationsSupported");

static const CIMName OM_VERSION =

CIMName ("Version");

// Property Names for CIMXML CommunicationMechanism

static const CIMName CIMVALIDATED =

CIMName ("CIMValidated");

static const String CIMXMLProtocolVersion = "1.0";

// Property names for CIM_Namespace Class

static const CIMName CIM_NAMESPACE_PROPERTY_SYSTEMCREATIONCLASSNAME =

CIMName ("SystemCreationClassName");

static const CIMName CIM_NAMESPACE_PROPERTY_SYSTEMNAME =

CIMName ("SystemName");

static const CIMName CIM_NAMESPACE_PROPERTY_OBJECTMANAGERCREATIONCLASSNAME =

CIMName ("ObjectManagerCreationClassName");

static const CIMName CIM_NAMESPACE_PROPERTY_OBJECTMANAGERNAME =

CIMName ("ObjectManagerName");

static const CIMName CIM_NAMESPACE_PROPERTY_CREATIONCLASSNAME =

CIMName ("CreationClassName");

static const CIMName CIM_NAMESPACE_PROPERTY_NAME = CIMName ("Name");

static const CIMName CIM_NAMESPACE_PROPERTY_CLASSINFO =

CIMName ("ClassInfo");

static const CIMName CIM_NAMESPACE_PROPERTY_DESCRIPTIONOFCLASSINFO =

CIMName ("DescriptionOfClassInfo");

// Defines to serve as the ENUM for class selection for instance

// operations.

enum targetClass{

__NAMESPACE = 1,

CIM_NAMESPACE = 2,

CIM_OBJECTMANAGER = 3,

PG_CIMXMLCOMMUNICATIONMECHANISM = 4

};

//***************************************************************

// Provider Utility Functions

//***************************************************************

/** get Host IP address from host name. If the

host name is not provided, uses internal function.

If everything fails, gets the definition normally

used for localhost (127.0.0.1).

@param hostName String with the name of the host

@return String with the IP address to be used

NOTE: This code should not be in slpprovider. This

should be in the Interop classes but for the moment

it is not.

String _getHostAddress(String hostName)

{

// set default address

String ipAddress("127.0.0.1");

if (hostName == String::EMPTY)

hostName = System::getHostName();

struct hostent * phostent;

struct in_addr inaddr;

if ((phostent = ::gethostbyname((const char *)hostName.getCString())) != NULL)

{

::memcpy( &inaddr, phostent->h_addr,4);

ipAddress = ::inet_ntoa( inaddr );

}

return ipAddress;

}

Array<String> _getFunctionalProfiles(Array<Uint16> profiles)

{

Array<String> profileDescriptions;

profiles.append(2); profileDescriptions.append("Basic Read");

profiles.append(3); profileDescriptions.append("Basic Write");

profiles.append(4); profileDescriptions.append("Schema Manipulation");

profiles.append(5); profileDescriptions.append("Instance Manipulation");

profiles.append(6); profileDescriptions.append("Association Traversal");

profiles.append(8); profileDescriptions.append("Qualifier Declaration");

profiles.append(9); profileDescriptions.append("Indications");

return(profileDescriptions);

}

/* get the prefix that will be part of the cimom identification

This can be either the default PEG or if the environment

variable PEGASUS_TRADEMARK_PREFIX is defined this is used.

NOTE: getting from the environment variable is a hack until

we can come up with a better source.

@return String containing the unique name for the CIMOM ID

String getTrademarkCIMOMIDPrefix()

{

char * trademark;

trademark = getenv("PEGASUS_TRADEMARK_PREFIX");

return((trademark)? trademark : PegasusInstanceIDGlobalPrefix);

}

/** Builds the UUID string for this CIMOM.

**/

String getUUIDString()

{

return(Guid::getGuid());

}

/* Test the keys in the CIM_Namespace for valid values

This includes all of the keys above the name key.

THis is a dummy for now.

ATTN: KS Extend and finish this function.

Boolean _validateProperties(const CIMObjectPath& path)

{

return true;

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER,"InteropProvider::InteropProvider");

}

Boolean _validateProperties(const CIMInstance& instance)

{

return true;

}

/* validate that the property exists, is string type and

#ifndef PEGASUS_DISABLE_PERFINST

optionally the value itself. Note processes only String

try

properties

@param - Instance to search for property.

@param - Property Name

@value - String value. If not String::EMPTY, compare to

value in the property

@return - ture if passes all tests

Boolean _validateRequiredProperty(const CIMInstance& instance,

const CIMName& propertyName,

const String& value)

{

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER,

"InteropProvider::_validateRequiredProperty()");

Uint32 pos;

if ((pos = instance.findProperty (propertyName)) == PEG_NOT_FOUND)

return(false);

// Get the property

CIMConstProperty theProperty = instance.getProperty(pos);

const CIMValue theValue = theProperty.getValue ();

String valueField;

theValue.get(valueField);

// Required property must have a non-null value

if ((theValue.getType() != CIMTYPE_STRING) || (theValue.isNull()))

{

PEG_METHOD_EXIT();

initProvider();

return(false);

}

if ((value == String::EMPTY) || (valueField == value))

catch(const Exception &)

{

PEG_METHOD_EXIT();

// Provider initialization may fail if the repository is not

return(true);

// populated

}

PEG_METHOD_EXIT();

#endif

return(false);

}

Boolean _validateRequiredProperty(const CIMInstance& instance,

const CIMName& propertyName,

const Uint16& value)

{

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER,

"InteropProvider::_validateRequiredProperty()");

PEG_TRACE_STRING(TRC_CONTROLPROVIDER, Tracer::LEVEL4, "Validate "

+ propertyName.getString());

Uint32 pos;

if ((pos = instance.findProperty (propertyName)) == PEG_NOT_FOUND)

{

PEG_METHOD_EXIT();

return(false);

}

// Get the property

// Local version of getInstance to be used by other functions in the the

// provider. Returns a single instance. Note that it always returns an

CIMConstProperty theProperty = instance.getProperty(pos);

// instance. If none was found, it is uninialitized.

CIMValue theValue = theProperty.getValue ();

// Required property must have a non-null value

if ((theValue.getType() != CIMTYPE_UINT16)

CIMInstance InteropProvider::localGetInstance(

|| (theValue.isNull()) )

const OperationContext & context,

const CIMObjectPath & instanceName,

const CIMPropertyList & propertyList)

{

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER, "InteropProvider::localGetInstance");

PEG_TRACE((TRC_CONTROLPROVIDER, Tracer::LEVEL4,

"%s getInstance. instanceName= %s , PropertyList= %s",

thisProvider,

(const char *)instanceName.toString().getCString(),

(const char *)propertyListToString(propertyList).getCString()));

// Test if we're looking for something outside of our namespace. This will

// happen during associators calls from PG_RegisteredProfile instances

// through the PG_ElementConformsToProfile association

CIMNamespaceName opNamespace = instanceName.getNameSpace();

CIMName opClass = instanceName.getClassName();

if(opNamespace != PEGASUS_NAMESPACENAME_INTEROP &&

opClass != PEGASUS_CLASSNAME_PG_ELEMENTCONFORMSTOPROFILE)

{

AutoMutex mut(interopMut);

CIMInstance gotInstance = cimomHandle.getInstance(

context,

opNamespace,

instanceName,

false,

propertyList);

PEG_METHOD_EXIT();

return(false);

return gotInstance;

}

PEG_METHOD_EXIT();

return(true);

}

Boolean _validateRequiredProperty(const CIMObjectPath& objectPath,

const CIMName& propertyName,

const String value)

{

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER,

"InteropProvider::_validateRequiedProperty()");

Array<CIMKeyBinding> kbArray = objectPath.getKeyBindings();

// find the correct key binding

// Create reference from host, namespace, class components of

for (Uint32 i = 0; i < kbArray.size(); i++)

// instance name

{

CIMObjectPath ref;

if (kbArray[i].getName() == propertyName)

ref.setHost(instanceName.getHost());

{

ref.setClassName(opClass);

if (value != String::EMPTY)

ref.setNameSpace(opNamespace);

// Enumerate instances for this class. Returns all instances

// Note that this returns paths setup and instances already

// filtered per the input criteria.

Array<CIMInstance> instances = localEnumerateInstances(

context,

ref,

propertyList);

// deliver a single instance if found.

CIMInstance retInstance;

bool found = false;

for(Uint32 i = 0, n = instances.size(); i < n; i++)

{

if (value !=kbArray[i].getValue())

CIMObjectPath currentInstRef = instances[i].getPath();

currentInstRef.setHost(instanceName.getHost());

currentInstRef.setNameSpace(instanceName.getNameSpace());

if(instanceName == currentInstRef)

{

PEG_METHOD_EXIT();

retInstance = instances[i];

return(true);

found = true;

}

break;

}

PEG_METHOD_EXIT();

return(true);

}

/* Query the repository for array of all namespacenames

if(!found)

@return Array<CIMNamespaceName> with all namespaces

@exception Passes all exception that repository may generate.

Array<CIMNamespaceName> InteropProvider::_enumerateNameSpaces()

{

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER,

cout << "Coule not find instance: " << instanceName.toString() << endl;

"InteropProvider::_enumerateNameSpaces()");

}

Array<CIMNamespaceName> namespaceNames;

namespaceNames = _repository->enumerateNameSpaces();

PEG_METHOD_EXIT();

return(namespaceNames);

return retInstance;

}

/* get a class defintion. Gets the class defined by

the parameters. Generates exception of class not defined.

@param namespace in which to look for the class.

// Local version of enumerateInstances to be used by other functions in the

@param name of class to get.

// provider. Note that this delivers instances as a group rather than one

@return the CIMClass object

// at a time. This design point may need to be revisited if this provider

@Exceptions any repository exceptions if class not found.

// is used in environments such that returning segmented responses would have

// significant performance advantages. For now, that doesn't seem to be the

CIMClass InteropProvider::_getClass(const CIMNamespaceName& nameSpace,

// case.

const CIMName& className)

Array<CIMInstance> InteropProvider::localEnumerateInstances(

const OperationContext & context,

const CIMObjectPath & ref,

const CIMPropertyList& propertyList)

{

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER,

"InteropProvider::_getClass");

"InteropProvider::localEnumerateInstances()");

const CIMName & className = ref.getClassName();

PEG_TRACE((TRC_CONTROLPROVIDER, Tracer::LEVEL4,

"%s enumerateInstances. referenc= %s , PropertyList= %s",

thisProvider,

(const char *)className.getString().getCString(),

(const char *)propertyListToString(propertyList).getCString()));

CIMClass myClass = _repository->getClass(nameSpace, className );

// Verify that ClassName is correct and get its enum value

PEG_METHOD_EXIT();

TARGET_CLASS classEnum = translateClassInput(className);

return myClass;

}

/* Verify that this is one of the legal classnames and

Array<CIMInstance> instances;

return indicator which.

switch(classEnum)

@param - Classname

@return - Uint32 indicating type

@Exceptions - throws CIMNotSupportedException if invalid class.

targetClass _verifyValidClassInput(const CIMName& className)

{

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER,

case PG_OBJECTMANAGER:

"InteropProvider::_verifyValidClassInput()");

CDEBUG("Class Name Input = " << className.getString());

if (className.equal(CIM_NAMESPACE_CLASSNAME))

{

PEG_METHOD_EXIT();

instances.append(getObjectManagerInstance());

return CIM_NAMESPACE;

break;

}

case PG_CIMXMLCOMMUNICATIONMECHANISM:

if (className.equal(CIM_OBJECTMANAGER_CLASSNAME))

{

PEG_METHOD_EXIT();

instances = enumCIMXMLCommunicationMechanismInstances();

return CIM_OBJECTMANAGER;

break;

}

case PG_NAMESPACEINMANAGER:

/******

if (className.equal(CIM_OBJECTMANAGERCOMMUNICATIONMECHANISM_CLASSNAME))

{

PEG_METHOD_EXIT();

instances = enumNamespaceInManagerInstances();

return CIM_OBJECTMANAGERCOMMUNICATIONMECHANISM;

break;

}

if (className.equal(CIM_CIMXMLCOMMUNICATIONMECHANISM_CLASSNAME))

case PG_COMMMECHANISMFORMANAGER:

{

PEG_METHOD_EXIT();

instances = enumCommMechanismForManagerInstances();

return CIM_CIMXMLCOMMUNICATIONMECHANISM;

break;

}

*****/

case PG_NAMESPACE:

if (className.equal(PG_CIMXMLCOMMUNICATIONMECHANISM_CLASSNAME))

{

PEG_METHOD_EXIT();

instances = enumNamespaceInstances();

return PG_CIMXMLCOMMUNICATIONMECHANISM;

break;

}

// Last entry, reverse test and returnOK if CIM_Namespace

case PG_REGISTEREDPROFILE:

if (!className.equal(CIM_NAMESPACE_CLASSNAME))

{

CDEBUG("Invalid Class received " << className.getString());

instances = enumRegisteredProfileInstances();

PEG_METHOD_EXIT();

break;

throw CIMNotSupportedException

(className.getString() + " not supported by Interop Provider");

}

case PG_REGISTEREDSUBPROFILE:

PEG_METHOD_EXIT();

return CIM_NAMESPACE;

}

/* validate the authorization of the user name against the namespace.

String _validateUserID(const OperationContext & context)

{

//ATTN-DME-P3-20020522: ADD AUTHORIZATION CHECK TO __NAMESPACE PROVIDER

instances = enumRegisteredSubProfileInstances();

String userName;

break;

try

}

case PG_REFERENCEDPROFILE:

{

IdentityContainer container = context.get(IdentityContainer::NAME);

instances = enumReferencedProfileInstances();

userName = container.getUserName();

break;

}

catch (...)

case PG_ELEMENTCONFORMSTOPROFILE:

{

userName = String::EMPTY;

instances = enumElementConformsToProfileInstances(context,

ref.getNameSpace());

break;

}

return userName;

case PG_ELEMENTCONFORMSTOPROFILE_RP_RP:

{

instances = enumElementConformsToProfileRPRPInstances(

context,

ref.getNameSpace());

break;

}

case PG_SUBPROFILEREQUIRESPROFILE:

/* set the value of a property defined by property name in the instance provided

void _setPropertyValue(CIMInstance& instance, const CIMName propertyName, const String& value)

{

Uint32 pos;

instances = enumSubProfileRequiresProfileInstances();

if ((pos = instance.findProperty(propertyName)) != PEG_NOT_FOUND)

break;

instance.getProperty(pos).setValue(CIMValue(value));

}

case PG_SOFTWAREIDENTITY:

void _setPropertyValue(CIMInstance& instance, const CIMName propertyName, const Boolean& value)

{

Uint32 pos;

instances = enumSoftwareIdentityInstances();

if ((pos = instance.findProperty(propertyName)) != PEG_NOT_FOUND)

break;

instance.getProperty(pos).setValue(CIMValue(value));

}

case PG_ELEMENTSOFTWAREIDENTITY:

void _setPropertyValue(CIMInstance& instance, const CIMName propertyName, const Uint16& value)

{

Uint32 pos;

instances = enumElementSoftwareIdentityInstances();

if ((pos = instance.findProperty(propertyName)) != PEG_NOT_FOUND)

break;

instance.getProperty(pos).setValue(CIMValue(value));

}

case PG_INSTALLEDSOFTWAREIDENTITY:

void _setPropertyValue(CIMInstance& instance, const CIMName propertyName, const Array<String> value)

{

Uint32 pos;

instances = enumInstalledSoftwareIdentityInstances();

if ((pos = instance.findProperty(propertyName)) != PEG_NOT_FOUND)

break;

instance.getProperty(pos).setValue(CIMValue(value));

}

case PG_COMPUTERSYSTEM:

void _setPropertyValue(CIMInstance& instance, const CIMName propertyName, const Array<Uint16> value)

{

Uint32 pos;

instances.append(getComputerSystemInstance());

if ((pos = instance.findProperty(propertyName)) != PEG_NOT_FOUND)

break;

instance.getProperty(pos).setValue(CIMValue(value));

}

/* add the correct values to the common keys defined for all of the classes. This is

case PG_HOSTEDOBJECTMANAGER:

systemcreationclassname and systemname

Note that if the properties do not exist, we simply ignore them.

void _fixInstanceCommonKeys(CIMInstance& instance)

{

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER,

instances.append(getHostedObjectManagerInstance());

"InteropProvider::_fixInstanceCommonKeys()");

break;

String SystemCreationClassName = System::getSystemCreationClassName ();

}

if (SystemCreationClassName == String::EMPTY)

case PG_HOSTEDACCESSPOINT:

{

//Attn: Get this globally. For now This in place because global is often Empty

instances = enumHostedAccessPointInstances();

SystemCreationClassName = "CIM_ComputerSystem";

break;

}

default:

_setPropertyValue(instance, CIM_NAMESPACE_PROPERTY_SYSTEMCREATIONCLASSNAME,SystemCreationClassName);

// Add property SystemName

_setPropertyValue(instance, CIM_NAMESPACE_PROPERTY_SYSTEMNAME,System::getHostName());

PEG_METHOD_EXIT();

throw CIMNotSupportedException(className.getString() +

" not supported by Interop Provider enumerate");

}

/** Add the keys common to a number of the Interop instances to the provided

// Filter and deliver the resulting instances

instance. This includes SystemCreationClassName and System Name

for (Uint32 i = 0 ; i < instances.size() ; i++)

@param instance of CIMInstance to which these are to be added.

void _buildInstanceCommonKeys(CIMInstance& instance)

{

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER,

normalizeInstance(instances[i], ref, false,

"InteropProvider::_buildInstanceCommonKeys()");

false, propertyList);

String SystemCreationClassName = System::getSystemCreationClassName ();

}

if (SystemCreationClassName == String::EMPTY)

{

//Attn: Get this globally. For now This in place because global is often Empty

SystemCreationClassName = "CIM_ComputerSystem";

}

// Add property SystemCreationClassName

instance.addProperty(

(CIMProperty(CIM_NAMESPACE_PROPERTY_SYSTEMCREATIONCLASSNAME,

SystemCreationClassName)));

// Add property SystemName

String SystemName = System::getHostName();

instance.addProperty(

(CIMProperty(CIM_NAMESPACE_PROPERTY_SYSTEMNAME,

SystemName)));

PEG_METHOD_EXIT();

return instances;

}

/** builds one instance of the CIM_ObjectManager class filling in the

correct properties

// Class that determines whether or not the origin class in an association

@return CIMInstance of this class with properties complete.

// operation is valid for the given association class, and also determines

// the origin and target "roles". These values generally correspond to the

CIMInstance InteropProvider::_buildInstanceSkeleton(const CIMName& className)

// role and resultRole parameter of an associators/associatorNames operation.

bool InteropProvider::validAssocClassForObject(

const OperationContext & context,

const CIMName & assocClass,

const CIMObjectPath & objectName,

const CIMNamespaceName & opNamespace,

String & originProperty,

String & targetProperty)

{

CIMClass myClass;

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER,

"InteropProvider::_buildInstanceSkeleton()");

"InteropProvider::validAssocClassForObject()");

CIMInstance skeleton(className);

TARGET_CLASS assocClassEnum = translateClassInput(assocClass);

myClass = _repository->getClass(_operationNamespace, className, false, true, true);

TARGET_CLASS originClassEnum;

CIMName originClass = objectName.getClassName();

// copy the qualifiers

// If the association class is PG_ElementConformsToProfile, we'll have to

for (Uint32 i = 0 ; i < myClass.getQualifierCount() ; i++)

// do some special processing in case the origin instance for the operation

skeleton.addQualifier(myClass.getQualifier(i));

// is managed by another provider.

if(assocClassEnum == PG_ELEMENTCONFORMSTOPROFILE)

// copy the properties

for (Uint32 i = 0 ; i < myClass.getPropertyCount() ; i++)

skeleton.addProperty(myClass.getProperty(i));

return(skeleton.clone());

}

/* build a single instance of the cimxmlcommunicationmechanism class

using the parameter provided as the name property

@parm name String representing the name to be used for this object.

@return CIMInstance of the class

CIMInstance InteropProvider::_buildInstancePGCIMXMLCommunicationMechanism(

const String& namespaceType,

const String& IPAddress,

const Boolean& includeQualifiers,

const Boolean& includeClassOrigin,

const CIMPropertyList& propertyList)

{

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER,

// Test if the origin is an element managed by another provider

"InteropProvider::_buildInstancePGCIMXMLCommunicationMechanism()");

// that has implemented a registered profile.

if(opNamespace != PEGASUS_NAMESPACENAME_INTEROP ||

CIMInstance instance = _buildInstanceSkeleton(PG_CIMXMLCOMMUNICATIONMECHANISM_CLASSNAME);

(originClass != PEGASUS_CLASSNAME_PG_REGISTEREDPROFILE &&

originClass != PEGASUS_CLASSNAME_PG_OBJECTMANAGER ))

_fixInstanceCommonKeys(instance);

//CreationClassName

_setPropertyValue(instance, CIM_NAMESPACE_PROPERTY_CREATIONCLASSNAME,PG_CIMXMLCOMMUNICATIONMECHANISM_CLASSNAME.getString());

//Name, this CommunicationMechanism.

_setPropertyValue(instance, CIM_NAMESPACE_PROPERTY_NAME, PG_CIMXMLCOMMUNICATIONMECHANISM_CLASSNAME.getString());

// CommunicationMechanism Property

_setPropertyValue(instance, OM_COMMUNICATIONMECHANISM, Uint16(2));

//Functional Profiles Supported Property.

Array<Uint16> profiles;

Array<String> profileDescriptions = _getFunctionalProfiles(profiles);

// Set functional profiles in instance

_setPropertyValue(instance, OM_FUNCTIONALPROFILESSUPPORTED, profiles);

_setPropertyValue(instance, OM_FUNCTIONALPROFILEDESCRIPTIONS, profileDescriptions);

// Multiple OperationsSupported Property

_setPropertyValue(instance, OM_MULTIPLEOPERATIONSSUPPORTED, false);

// AuthenticationMechanismsSupported Property

Array<Uint16> authentications;

Array<String> authenticationDescriptions;

authentications.append(3); authenticationDescriptions.append("basic");

_setPropertyValue(instance, OM_AUTHENTICATIONMECHANISMSSUPPORTED, authentications);

_setPropertyValue(instance, OM_AUTHENTICATIONMECHANISMDESCRIPTIONS, authenticationDescriptions);

_setPropertyValue(instance, OM_VERSION, CIMXMLProtocolVersion);

_setPropertyValue(instance, "namespaceType", namespaceType);

_setPropertyValue(instance, "IPAddress", IPAddress);

PEG_METHOD_EXIT();

return(instance);

}

Array<CIMInstance> InteropProvider::_buildInstancesPGCIMXMLCommunicationMechanism(

const Boolean includeQualifiers,

const Boolean includeClassOrigin,

const CIMPropertyList& propertyList)

{

// This is a temporary hack to get the multiple connections.

CDEBUG("building pgcimxmlinstances");

// Search the cached conformingElements list for the originClass,

ConfigManager* configManager = ConfigManager::getInstance();

// returning false if it is not found

Boolean enableHttpConnection = String::equal(

configManager->getCurrentValue("enableHttpConnection"), "true");

bool found = false;

Boolean enableHttpsConnection = String::equal(

configManager->getCurrentValue("enableHttpsConnection"), "true");

String IPAddress = _getHostAddress(System::getHostName());

PEGASUS_ASSERT(conformingElements.size() ==

Array<CIMInstance> instances;

elementNamespaces.size());

if (enableHttpConnection)

for(Uint32 i = 0, n = conformingElements.size(); i < n; ++i)

{

CDEBUG("building pgcimxmlinstances 1");

CIMNameArray & elementList = conformingElements[i];

CIMInstance instance = _buildInstancePGCIMXMLCommunicationMechanism(

CIMNamespaceArray & namespaceList = elementNamespaces[i];

"http", IPAddress,

PEGASUS_ASSERT(elementList.size() == namespaceList.size());

includeQualifiers,

for(Uint32 j = 0, m = elementList.size(); j < m; ++j)

includeClassOrigin,

propertyList);

instances.append(instance);

}

if (enableHttpsConnection)

{

CDEBUG("building pgcimxmlinstances 2");

CIMName & curElement = elementList[j];

CIMInstance instance = _buildInstancePGCIMXMLCommunicationMechanism(

if((curElement == originClass ||

"https", IPAddress,

curElement.getString().find(PEGASUS_DYNAMIC) == 0) &&

includeQualifiers,

opNamespace == namespaceList[j])

includeClassOrigin,

{

propertyList);

found = true;

instances.append(instance);

break;

}

return(instances);

}

/* Gets the value for the CIMObjectManager name. This is a key

if(found)

property with the following characteristics.

break;

1. It is persistent. This must be persistent through CIMOM

restarts. We will save it in the instance database to achieve this.

2. It must be unique. We cannot create duplicate CIMOM names

3. It is based on the DMTF description of how unique InstanceIds

are defined (Trademark/etc followed by unique identification.

Use the Global constant PegasusInstanceIDGlobalPrefix as the

prefix allowing this to be changed.

String buildObjectManagerName()

{

return(getTrademarkCIMOMIDPrefix() + ":" + getUUIDString());

}

/** build an instance of the CIM_ObjectManager class filling out

the required properties

@param includeQualifiers Boolean

@param includeClassOrigin Boolean

@param propertylist CIMPropertyList

@return CIMInstance with a single built instance of the class

@exception repository instances if exception to enumerateInstances

for this class.

CIMInstance InteropProvider::_buildInstanceCIMObjectManager(

const Boolean includeQualifiers,

const Boolean includeClassOrigin,

const CIMPropertyList& propertyList)

{

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER,

"InteropProvider::_buildInstanceCIMObjectManager()");

// If there is already an instance of this class, use it.

if (!instanceOfCIMObjectManager.isUninitialized())

{

PEG_METHOD_EXIT();

return(instanceOfCIMObjectManager);

}

// Try to get persistent instance from repository

if(!found)

Array<CIMInstance> instances;

instances = _repository->enumerateInstances(_operationNamespace,

CIM_OBJECTMANAGER_CLASSNAME, true, false, includeQualifiers,

includeClassOrigin, propertyList);

// ATTN: KS How do we really account for multiple instances of

// this class and determine which one is really us.

if (instances.size() >= 1)

{

instanceOfCIMObjectManager = instances[0];

PEG_METHOD_EXIT();

return(instanceOfCIMObjectManager);

return false;

}

// Repository empty. Must build new instance and save it.

CIMInstance instance = _buildInstanceSkeleton(CIM_OBJECTMANAGER_CLASSNAME);

_fixInstanceCommonKeys(instance);

instanceOfCIMObjectManager = instance;

//_buildInstanceCommonKeys(instanceOfCIMObjectManager);

_setPropertyValue(instance, CIM_NAMESPACE_PROPERTY_CREATIONCLASSNAME,CIM_OBJECTMANAGER_CLASSNAME.getString());

_setPropertyValue(instance, CIM_NAMESPACE_PROPERTY_NAME,buildObjectManagerName());

_setPropertyValue(instance, CIMName("ElementName"), String("Pegasus"));

//Description property this object manager instance

// default is Pegasus CIM_Server Version

String description;

char * envDescription;

envDescription = getenv("PEGASUS_CIMOM_DESCRIPTION");

if (envDescription)

description = envDescription;

else

description = "Pegasus " + String(PEGASUS_NAME) + "Version " + String(PEGASUS_VERSION);

_setPropertyValue(instance, CIMName("Description"), description);

//Property GatherStatisticalData. Note that today we do not

// have a dynamic activation for this value.

#ifdef PEGASUS_HAS_PERFINST

Boolean gatherStatData = true;

#else

Boolean gatherStatData = false;

#endif

_setPropertyValue(instance, OM_GATHERSTATISTICALDATA, Boolean(gatherStatData));

// write the instance to the repository

CIMObjectPath instancepath;

try

{

instancepath = _repository->createInstance(_operationNamespace,

instanceOfCIMObjectManager );

}

catch(CIMException& e)

{

// ATTN: KS generate log error if this not possible

PEG_METHOD_EXIT();

throw e;

}

catch(Exception& e)

else

{

PEG_METHOD_EXIT();

// Otherwise, just get the enum value representing the origin class

throw e;

// for this operation

originClassEnum = translateClassInput(originClass);

}

PEG_METHOD_EXIT();

CIMName expectedTargetRole;

return(instanceOfCIMObjectManager);

CIMName expectedOriginRole;

}

/* generate one instance of the CIM_Namespace class with the

Array<CIMName> propNames;

properties

String profileName;

@param namespace name to put into the class

CIMPropertyList propertyList;

@exceptions - exceptions carried forward from create instance

CIMInstance tmpInstance;

and addProperty.

Uint32 index;

propNames.clear();

CIMInstance _buildInstanceCIMNamespace(const CIMNamespaceName & nameSpace)

{

CDEBUG("_buildInstnaceCIMNamespace enter");

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER,

"InteropProvider::_buildInstanceCIMNamespace()");

String ObjectManagerName = "ObjectManagerNameValue";

String ClassInfo = "ClassInfo";

// Set the target and origin role values. Note that if these values are

String DescriptionOfClassInfo = "DescriptionOfClassInfo";

// not set following the switch block, that implies that the origin class

// is not valid for the supplied association class.

CIMInstance instance(CIM_NAMESPACE_CLASSNAME);

switch(assocClassEnum)

_buildInstanceCommonKeys(instance);

CDEBUG("_buildInstnaceCIMNamespace add properties");

//ObjectManagerCreationClassName

instance.addProperty(

(CIMProperty(CIM_NAMESPACE_PROPERTY_OBJECTMANAGERCREATIONCLASSNAME,

CIM_OBJECTMANAGER_CLASSNAME.getString())));

//ObjectManagerName

// This is the one we have to sort out ATTN: TBD KS P0

instance.addProperty(

(CIMProperty(CIM_NAMESPACE_PROPERTY_OBJECTMANAGERNAME,

ObjectManagerName)));

//CreationClassName

instance.addProperty(

(CIMProperty(CIM_NAMESPACE_PROPERTY_CREATIONCLASSNAME,

CIM_NAMESPACE_CLASSNAME.getString() )));

//Name

instance.addProperty(

(CIMProperty(CIM_NAMESPACE_PROPERTY_NAME,

nameSpace.getString() )));

// ATTN: KS 16 Jan 2004 We are not supplying this property right now because we do

// not know what to put into it.

//ClassInfo

instance.addProperty(

(CIMProperty(CIM_NAMESPACE_PROPERTY_CLASSINFO,

ClassInfo)));

//DescriptionofClassInfo

instance.addProperty(

(CIMProperty(CIM_NAMESPACE_PROPERTY_DESCRIPTIONOFCLASSINFO,

DescriptionOfClassInfo)));

PEG_METHOD_EXIT();

return(instance);

}

void _validateCIMNamespaceKeys(const CIMObjectPath& objectPath)

{

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER,

case PG_NAMESPACEINMANAGER:

"InteropProvider::_validateCIMNamespaceKeys");

if(originClassEnum == PG_OBJECTMANAGER)

Boolean valid = true;

CIMName propertyName;

if (!_validateRequiredProperty(objectPath,

CIM_NAMESPACE_PROPERTY_SYSTEMCREATIONCLASSNAME,

System::getSystemCreationClassName ()))

{

propertyName = CIM_NAMESPACE_PROPERTY_SYSTEMCREATIONCLASSNAME;

expectedTargetRole = PROPERTY_DEPENDENT;

valid = false;

expectedOriginRole = PROPERTY_ANTECEDENT;

}

if (!_validateRequiredProperty(objectPath,

else if(originClassEnum == PG_NAMESPACE)

CIM_NAMESPACE_PROPERTY_SYSTEMNAME,

System::getHostName()))

{

propertyName = CIM_NAMESPACE_PROPERTY_SYSTEMNAME;

expectedTargetRole = PROPERTY_ANTECEDENT;

valid = false;

expectedOriginRole = PROPERTY_DEPENDENT;

}

if (!_validateRequiredProperty(objectPath,

break;

CIM_NAMESPACE_PROPERTY_OBJECTMANAGERCREATIONCLASSNAME,

case PG_COMMMECHANISMFORMANAGER:

CIM_OBJECTMANAGER_CLASSNAME.getString()))

if(originClassEnum == PG_OBJECTMANAGER)

{

propertyName = CIM_NAMESPACE_PROPERTY_OBJECTMANAGERCREATIONCLASSNAME;

expectedTargetRole = PROPERTY_DEPENDENT;

valid = false;

expectedOriginRole = PROPERTY_ANTECEDENT;

}

else if(originClassEnum == PG_CIMXMLCOMMUNICATIONMECHANISM)

// ATTN: This one still a problem. We have to get the name first

if (!_validateRequiredProperty(objectPath,

CIM_NAMESPACE_PROPERTY_OBJECTMANAGERNAME,

String::EMPTY))

{

propertyName = CIM_NAMESPACE_PROPERTY_OBJECTMANAGERNAME;

expectedTargetRole = PROPERTY_ANTECEDENT;

valid = false;

expectedOriginRole = PROPERTY_DEPENDENT;

}

if (!_validateRequiredProperty(objectPath,

break;

CIM_NAMESPACE_PROPERTY_CREATIONCLASSNAME,

case PG_ELEMENTCONFORMSTOPROFILE:

System::getHostName()))

if(originClass.equal(PEGASUS_CLASSNAME_PG_REGISTEREDPROFILE))

{

propertyName = CIM_NAMESPACE_PROPERTY_CREATIONCLASSNAME;

expectedTargetRole =

valid = false;

ELEMENTCONFORMSTOPROFILE_PROPERTY_MANAGEDELEMENT;

expectedOriginRole =

ELEMENTCONFORMSTOPROFILE_PROPERTY_CONFORMANTSTANDARD;

}

else

if (!_validateRequiredProperty(objectPath,

CIM_NAMESPACE_PROPERTY_NAME,

String::EMPTY))

{

propertyName = CIM_NAMESPACE_PROPERTY_NAME;

valid = false;

}

if (false)

{

PEG_METHOD_EXIT();

expectedTargetRole =

throw CIMInvalidParameterException(

ELEMENTCONFORMSTOPROFILE_PROPERTY_CONFORMANTSTANDARD;

"Invalid key property: " + propertyName.getString());

expectedOriginRole =

}

ELEMENTCONFORMSTOPROFILE_PROPERTY_MANAGEDELEMENT;

PEG_METHOD_EXIT();

}

break;

case PG_ELEMENTCONFORMSTOPROFILE_RP_RP:

void _validateCIMNamespaceKeys(const CIMInstance& instance)

propNames.append(CIMName("RegisteredName"));

propertyList = CIMPropertyList(propNames);

tmpInstance = localGetInstance(

context,

objectName,

propertyList);

index = tmpInstance.findProperty("RegisteredName");

if (index != PEG_NOT_FOUND)

{

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER,

const CIMValue &tmpVal =

"InteropProvider::_validateCIMNamespaceKeys");

tmpInstance.getProperty(index).getValue();

Boolean valid = true;

if (!tmpVal.isNull())

CIMName propertyName;

if (!_validateRequiredProperty(instance,

CIM_NAMESPACE_PROPERTY_SYSTEMCREATIONCLASSNAME,

System::getSystemCreationClassName ()))

{

propertyName = CIM_NAMESPACE_PROPERTY_SYSTEMCREATIONCLASSNAME;

tmpVal.get(profileName);

valid = false;

}

if (!_validateRequiredProperty(instance,

CIM_NAMESPACE_PROPERTY_SYSTEMNAME,

System::getHostName()))

{

propertyName = CIM_NAMESPACE_PROPERTY_SYSTEMNAME;

valid = false;

}

if (String::compareNoCase(profileName, String("SMI-S")) == 0)

if (!_validateRequiredProperty(instance,

CIM_NAMESPACE_PROPERTY_OBJECTMANAGERCREATIONCLASSNAME,

CIM_OBJECTMANAGER_CLASSNAME.getString()))

{

propertyName = CIM_NAMESPACE_PROPERTY_OBJECTMANAGERCREATIONCLASSNAME;

expectedTargetRole =

valid = false;

ELEMENTCONFORMSTOPROFILE_PROPERTY_MANAGEDELEMENT;

expectedOriginRole =

ELEMENTCONFORMSTOPROFILE_PROPERTY_CONFORMANTSTANDARD;

}

else

// ATTN: This one still a problem. We have to get the name first

if (!_validateRequiredProperty(instance,

CIM_NAMESPACE_PROPERTY_OBJECTMANAGERNAME,

String::EMPTY))

{

propertyName = CIM_NAMESPACE_PROPERTY_OBJECTMANAGERNAME;

expectedTargetRole =

valid = false;

ELEMENTCONFORMSTOPROFILE_PROPERTY_CONFORMANTSTANDARD;

expectedOriginRole =

ELEMENTCONFORMSTOPROFILE_PROPERTY_MANAGEDELEMENT;

}

if (!_validateRequiredProperty(instance,

break;

CIM_NAMESPACE_PROPERTY_CREATIONCLASSNAME,

case PG_SUBPROFILEREQUIRESPROFILE:

System::getHostName()))

if(originClassEnum == PG_REGISTEREDPROFILE)

{

propertyName = CIM_NAMESPACE_PROPERTY_CREATIONCLASSNAME;

expectedTargetRole = PROPERTY_DEPENDENT;

valid = false;

expectedOriginRole = PROPERTY_ANTECEDENT;

}

else if(originClassEnum == PG_REGISTEREDSUBPROFILE)

if (!_validateRequiredProperty(instance,

CIM_NAMESPACE_PROPERTY_NAME,

String::EMPTY))

{

propertyName = CIM_NAMESPACE_PROPERTY_NAME;

expectedTargetRole = PROPERTY_ANTECEDENT;

valid = false;

expectedOriginRole = PROPERTY_DEPENDENT;

}

break;

if (false)

case PG_REFERENCEDPROFILE:

if (originClassEnum == PG_REGISTEREDSUBPROFILE)

{

PEG_TRACE_STRING(TRC_CONTROLPROVIDER, Tracer::LEVEL4,

expectedTargetRole = PROPERTY_ANTECEDENT;

"Invalid CIM_Namespace Key Property " + propertyName.getString());

expectedOriginRole = PROPERTY_DEPENDENT;

PEG_METHOD_EXIT();

throw CIMInvalidParameterException(

"Invalid CIM_Namespace key property: " + propertyName.getString());

}

PEG_TRACE_STRING(TRC_CONTROLPROVIDER, Tracer::LEVEL4, "CIM_Namespace Keys Valid");

PEG_METHOD_EXIT();

}

/* Given a namespace name, class and instance build the instance path for a

the object. This builds all components of the path

@param namespace name to build

@return CIMObjectPath containing namespace, class and keybinding

components of path

@exceptions - Passes repository exceptions.

// ATTN: KS Build path from instance and instance from class. Not sure

// we want to always do this. Consider change to build keys directly

CIMObjectPath InteropProvider::_buildInstancePath(const CIMNamespaceName& name,

const CIMName className,

const CIMInstance& instance)

{

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER,

"InteropProvider::_buildInstancePath");

// get the class CIM_Namespace class to use in building path

// Exception out if Class does not exist in this namespace

CIMClass thisClass = _getClass(_operationNamespace, className);

// XmlWriter::printInstanceElement(instance);

CIMObjectPath ref = instance.buildPath(thisClass);

PEG_METHOD_EXIT();

return(ref);

}

else if (originClassEnum == PG_REGISTEREDPROFILE)

/* _isNamespace determines if the namespace in the second

parameter is in the array in the first parameter.

@param array of possible namespaces

@param canidate namespace

@return - true if found

Boolean _isNamespace(

Array<CIMNamespaceName>& namespaceNames,

CIMNamespaceName& namespaceName)

{

Boolean found = false;

if ((targetProperty.size() != 0) &&

for(Uint32 i = 0; i < namespaceNames.size(); i++)

(originProperty.size() != 0) &&

String::equalNoCase(targetProperty, originProperty))

{

if(namespaceNames[i].equal ( namespaceName ))

return true;

}

return false;

}

if (targetProperty.size() != 0)

Boolean _isChild(

{

CIMNamespaceName& parentNamespaceName,

if (!(String::equalNoCase(targetProperty, "Antecedent") ||

CIMNamespaceName& namespaceName)

String::equalNoCase(targetProperty, "Dependent") ))

{

String parent = parentNamespaceName.getString();

String child = namespaceName.getString();

// If length of namespace name is shorter than or equal to the

// length of parent namespace name, cannot be a child

if (child.size () <= parent.size ())

return false;

// Compare prefix substring of namespace name with parent namespace name

else if (String::equalNoCase (child.subString (0, parent.size ()), parent))

return true;

return false;

}

//**************************************************************

}

// Overloaded functions to get key value with different params

if (originProperty.size() != 0)

//**************************************************************

/* find the name key in the keybindings and return the value.

Executes exception if the key not found

@param object path we will search

@param keyName - Name of the key to find.

@return value of name property

@exceptions CIMInvalidParameterException

String _getKeyValue(const CIMObjectPath& instanceName, const CIMName& keyName)

{

Array<CIMKeyBinding> kbArray = instanceName.getKeyBindings();

if (!(String::equalNoCase(originProperty, "Antecedent") ||

String::equalNoCase(originProperty, "Dependent") ))

// find the correct key binding

for (Uint32 i = 0; i < kbArray.size(); i++)

{

if (kbArray[i].getName() == keyName)

return false;

return (kbArray[i].getValue());

}

throw CIMInvalidParameterException("Invalid key property: " + keyName.getString());

}

if (String::equalNoCase(originProperty, "Antecedent") &&

String _getKeyValue(const CIMInstance& instance, const CIMName& keyName)

targetProperty.size() == 0)

{

Uint32 pos;

targetProperty = String("Dependent");

CIMValue propertyValue;

pos = instance.findProperty(keyName);

if (pos == PEG_NOT_FOUND)

throw CIMPropertyNotFoundException

(NAMESPACE_PROPERTYNAME.getString());

propertyValue = instance.getProperty(pos).getValue();

if (propertyValue.getType() != CIMTYPE_STRING)

throw CIMInvalidParameterException("Invalid type for property: "

+ NAMESPACE_PROPERTYNAME.getString());

String name;

propertyValue.get(name);

return(name);

//ATTN: KS Returns String whereas below returns CIMNamespaceName.

}

if (String::equalNoCase(originProperty, "Dependent") &&

/* gets the key value for the __Namespace property "name"

targetProperty.size() == 0)

from the instance provided. Sets childNamespaceName and

isRelativeName fields

This overload called if instance provided.

void _getKeyValue (

const CIMInstance& namespaceInstance,

CIMNamespaceName& childNamespaceName,

Boolean& isRelativeName)

{

//Validate key property

targetProperty = String("Antecedent");

Uint32 pos;

CIMValue propertyValue;

pos = namespaceInstance.findProperty(NAMESPACE_PROPERTYNAME);

if (pos == PEG_NOT_FOUND)

{

throw CIMPropertyNotFoundException

(NAMESPACE_PROPERTYNAME.getString());

}

if (String::equalNoCase(targetProperty, "Antecedent") &&

propertyValue = namespaceInstance.getProperty(pos).getValue();

originProperty.size() == 0)

if (propertyValue.getType() != CIMTYPE_STRING)

throw CIMInvalidParameterException("Invalid type for property: "

+ NAMESPACE_PROPERTYNAME.getString());

String cnsName;

propertyValue.get(cnsName);

childNamespaceName = CIMNamespaceName (cnsName);

isRelativeName = !(childNamespaceName.isNull());

}

/* gets the key value for the __Namespace property "name"

from the instance provided. Sets childNamespaceName and

isRelativeName fields

This overload called if object path provided.

void _getKeyValue (

const CIMObjectPath& instanceName,

CIMNamespaceName& childNamespaceName,

Boolean& isRelativeName)

{

originProperty = String("Dependent");

Array<CIMKeyBinding> kbArray = instanceName.getKeyBindings();

}

if (String::equalNoCase(targetProperty, "Dependent") &&

if ((kbArray.size() == 1) &&

originProperty.size() == 0)

(kbArray[0].getName() == NAMESPACE_PROPERTYNAME))

{

childNamespaceName = CIMNamespaceName (kbArray[0].getValue());

originProperty = String("Antecedent");

isRelativeName = !(childNamespaceName.isNull());

}

else

return true;

throw CIMInvalidParameterException("Invalid key property: ");

}

break;

/* generate the full namespace name from the parent and child

case PG_ELEMENTSOFTWAREIDENTITY:

components

if(originClassEnum == PG_SOFTWAREIDENTITY)

@param namespaceNames - List of all namespaces

@param parentNamespaceName

@param childNamespaceName

@param Boolean isrelative

@return full namespacename created from parent + child

Note that if isrelative is true, parent is tested for validty

CIMNamespaceName _generateFullNamespaceName(

Array<CIMNamespaceName>& namespaceNames,

CIMNamespaceName& parentNamespaceName,

CIMNamespaceName& childNamespaceName,

Boolean isRelativeName)

{

// If isRelativeName is true, then the parentNamespace

// MUST exist

CIMNamespaceName fullNamespaceName;

if (isRelativeName)

{

if (!_isNamespace(namespaceNames, parentNamespaceName))

expectedTargetRole = PROPERTY_DEPENDENT;

{

expectedOriginRole = PROPERTY_ANTECEDENT;

throw CIMObjectNotFoundException("Parent namespace does not exist: "

+ parentNamespaceName.getString());

}

// Create full namespace name by prepending parentNamespaceName

else if(originClassEnum == PG_REGISTEREDPROFILE ||

fullNamespaceName = CIMNamespaceName (parentNamespaceName.getString()

originClassEnum == PG_REGISTEREDSUBPROFILE)

+ "/" + childNamespaceName.getString());

{

expectedTargetRole = PROPERTY_ANTECEDENT;

expectedOriginRole = PROPERTY_DEPENDENT;

}

else

break;

case PG_INSTALLEDSOFTWAREIDENTITY:

if(originClassEnum == PG_SOFTWAREIDENTITY)

{

fullNamespaceName = parentNamespaceName;

expectedTargetRole = INSTALLEDSOFTWAREIDENTITY_PROPERTY_SYSTEM;

expectedOriginRole =

INSTALLEDSOFTWAREIDENTITY_PROPERTY_INSTALLEDSOFTWARE;

}

return(fullNamespaceName);

else if(originClassEnum == PG_COMPUTERSYSTEM)

{

expectedTargetRole =

INSTALLEDSOFTWAREIDENTITY_PROPERTY_INSTALLEDSOFTWARE;

expectedOriginRole = INSTALLEDSOFTWAREIDENTITY_PROPERTY_SYSTEM;

}

break;

//***************************************************************************

case PG_HOSTEDACCESSPOINT:

// The following section is the Instance Operation processors

if(originClassEnum == PG_COMPUTERSYSTEM)

//***************************************************************************

{

// createInstance

expectedTargetRole = PROPERTY_DEPENDENT;

//***************************************************************************

expectedOriginRole = PROPERTY_ANTECEDENT;

void InteropProvider::createInstance(

const OperationContext & context,

const CIMObjectPath & instanceReference,

const CIMInstance& myInstance,

ObjectPathResponseHandler & handler)

{

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER, "InteropProvider::createInstance()");

CIMNamespaceName childNamespaceName;

CIMNamespaceName newNamespaceName;

Boolean isRelativeName;

CDEBUG("CreateInstance " << instanceReference.toString());

// operation namespace needed internally to get class.

_operationNamespace = instanceReference.getNameSpace();

// Verify that ClassName is correct and get value

targetClass classEnum = _verifyValidClassInput(instanceReference.getClassName());

CDEBUG("Class Validated");

String userName = _validateUserID(context);

CIMObjectPath newInstanceReference;

CDEBUG("UserIDValidated");

if ((classEnum == CIM_OBJECTMANAGER) ||

(classEnum == PG_CIMXMLCOMMUNICATIONMECHANISM))

throw CIMNotSupportedException("InteropProvider, Create Not allowed");

CDEBUG("CreateInstance: No test for CIM_NamepsaceClass");

if (classEnum == CIM_NAMESPACE)

{

CDEBUG("Create Class from CIM_Namespace");

// Validate that keys are as required. Does its own exception.

_validateCIMNamespaceKeys(myInstance);

CDEBUG("_validateCIMNamespaceKeys passed");

String namespaceName;

newNamespaceName = _getKeyValue(myInstance, CIM_NAMESPACE_PROPERTY_NAME);

CDEBUG("CreateInstance: rtn form _getKeyValue ");

CIMInstance instance = _buildInstanceCIMNamespace(namespaceName);

CDEBUG("CreateInstance:Rtn from _BuildInstanceCIMNamespace for namespace= " << namespaceName);

newInstanceReference = _buildInstancePath(CIMNamespaceName(namespaceName),

CIM_NAMESPACE_CLASSNAME, instance);

CDEBUG("CreateInstance:Go to common create functions");

}

else // Process the __Namespace request to get namespace name value

{

CDEBUG("CreateInstance: Fell through to __Namespace processing");

_getKeyValue(myInstance, childNamespaceName, isRelativeName);

CIMNamespaceName parentNamespaceName = instanceReference.getNameSpace();

PEG_TRACE_STRING(TRC_CONTROLPROVIDER, Tracer::LEVEL4,

"childNamespaceName = " + childNamespaceName.getString() +

", isRelativeName = " +

(isRelativeName?String("true"):String("false")) +

", parentNamespaceName = " + parentNamespaceName.getString());

CDEBUG("__Namespace Process. parent= " << parentNamespaceName.getString() );

Array<CIMNamespaceName> namespaceNames;

namespaceNames = _enumerateNameSpaces();

newNamespaceName = _generateFullNamespaceName(

namespaceNames, parentNamespaceName,

childNamespaceName, isRelativeName);

// return key (i.e., CIMObjectPath) for newly created namespace

Array<CIMKeyBinding> keyBindings;

keyBindings.append(CIMKeyBinding(NAMESPACE_PROPERTYNAME,

isRelativeName?childNamespaceName.getString():

parentNamespaceName.getString(),

CIMKeyBinding::STRING));

//Add namespace class and keybindings

newInstanceReference.set(String::EMPTY, parentNamespaceName,

__NAMESPACE_CLASSNAME, keyBindings);

}

// Create the new namespace

else if(originClassEnum == PG_CIMXMLCOMMUNICATIONMECHANISM)

try

{

CDEBUG("Create namespace " << newNamespaceName.getString());

expectedTargetRole = PROPERTY_ANTECEDENT;

PEG_TRACE_STRING(TRC_CONTROLPROVIDER, Tracer::LEVEL4,

expectedOriginRole = PROPERTY_DEPENDENT;

"Namespace = " + newNamespaceName.getString() +

" to be created.");

_repository->createNameSpace(newNamespaceName);

PEG_TRACE_STRING(TRC_CONTROLPROVIDER, Tracer::LEVEL4,

"Namespace = " + newNamespaceName.getString() +

" successfully created.");

// ATTN: Add standardlog entry here.

}

catch(CIMException& e)

case PG_HOSTEDOBJECTMANAGER:

if(originClassEnum == PG_COMPUTERSYSTEM)

{

PEG_METHOD_EXIT();

expectedTargetRole = PROPERTY_DEPENDENT;

throw e;

expectedOriginRole = PROPERTY_ANTECEDENT;

}

catch(Exception& e)

else if(originClassEnum == PG_OBJECTMANAGER)

{

PEG_METHOD_EXIT();

expectedTargetRole = PROPERTY_ANTECEDENT;

throw e;

expectedOriginRole = PROPERTY_DEPENDENT;

}

break;

// begin processing the request

default:

handler.processing();

break;

handler.deliver(newInstanceReference);

// complete processing the request

handler.complete();

PEG_METHOD_EXIT();

return;

}

//***************************************************************************

// deleteInstance

// The rest of this method checks to see if target role and origin roles

//***************************************************************************

// were found for the association and origin class combination and, if

void InteropProvider::deleteInstance(

// found, checks against the input target and origin roles if provided.

const OperationContext & context,

// Failure for any of these tests points to an invalid association

const CIMObjectPath & instanceName,

// traversal request.

ResponseHandler & handler)

if(expectedTargetRole.isNull() ||

expectedOriginRole.isNull())

{

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER, "InteropProvider::deleteInstance");

PEG_METHOD_EXIT();

return false;

CIMNamespaceName childNamespaceName;

}

CIMNamespaceName deleteNamespaceName;

Boolean isRelativeName;

_operationNamespace = instanceName.getNameSpace();

handler.processing();

// Verify that ClassName is correct and get value

targetClass classEnum = _verifyValidClassInput(instanceName.getClassName());

String userName = _validateUserID(context);

if ((classEnum == PG_CIMXMLCOMMUNICATIONMECHANISM))

throw CIMNotSupportedException("Delete Not allowed");

// Delete the instance since it may be in persistent storage

if(targetProperty.size() == 0)

if ((classEnum == CIM_OBJECTMANAGER))

{

CIMInstance instance;

try

{

instance = _repository->getInstance(_operationNamespace, instanceName);

targetProperty = expectedTargetRole.getString();

// If instance found, then delete it.

_repository->deleteInstance(_operationNamespace,instanceName);

PEG_METHOD_EXIT();

handler.complete();

return;

}

catch(CIMException& e)

else if(!expectedTargetRole.equal(targetProperty))

{

PEG_METHOD_EXIT();

throw e;

return false;

}

Array<CIMNamespaceName> namespaceNames;

if(originProperty.size() == 0)

namespaceNames = _enumerateNameSpaces();

if (classEnum == CIM_NAMESPACE)

{

// validate requred keys. Exception out if not valid

originProperty = expectedOriginRole.getString();

_validateCIMNamespaceKeys(instanceName);

deleteNamespaceName = _getKeyValue(instanceName, CIM_NAMESPACE_PROPERTY_NAME);

CDEBUG("Delete namespace = " << deleteNamespaceName );

}

else // Procesing for __namespace

{

CIMNamespaceName childNamespaceName;

CIMNamespaceName deleteNamespaceName;

Boolean isRelativeName;

_getKeyValue(instanceName, childNamespaceName, isRelativeName);

CIMNamespaceName parentNamespaceName = instanceName.getNameSpace();

PEG_TRACE_STRING(TRC_CONTROLPROVIDER, Tracer::LEVEL4,

"childNamespaceName = " + childNamespaceName.getString() +

(isRelativeName?String("true"):String("false")) +

", parentNamespaceName = " + parentNamespaceName.getString());

// begin processing the request

deleteNamespaceName = _generateFullNamespaceName(

namespaceNames, parentNamespaceName,

childNamespaceName, isRelativeName);

}

else if(!expectedOriginRole.equal(originProperty))

// ATTN: KS Why THis???

if (deleteNamespaceName.equal (ROOTNS))

{

throw CIMNotSupportedException("root namespace cannot be deleted.");

PEG_METHOD_EXIT();

return false;

}

_repository->deleteNameSpace(deleteNamespaceName);

PEG_TRACE_STRING(TRC_CONTROLPROVIDER, Tracer::LEVEL4,

"Namespace = " + deleteNamespaceName.getString() +

" successfully deleted.");

Logger::put(Logger::STANDARD_LOG, System::CIMSERVER, Logger::INFORMATION,

"Interop Provider Delete Namespace: $0",

deleteNamespaceName.getString());

handler.processing();

// complete processing the request

handler.complete();

PEG_METHOD_EXIT();

return ;

return true;

}

//***************************************************************************

// getInstance

// Local version of the references operation. It validates the input

//***************************************************************************

// parameters, setting the origin and target property values if not set

void InteropProvider::getInstance(

// already, and then performs an enumeration on the association class. It then

// filters the results of that enumeration to see if one of the reference

// properties matches the objectName parameter passed into the method. If so,

// then it is added to the array of association instances to be returned.

Array<CIMInstance> InteropProvider::localReferences(

const OperationContext & context,

const CIMObjectPath & instanceName,

const CIMObjectPath & objectName,

const Boolean includeQualifiers,

const CIMName & assocClass,

const Boolean includeClassOrigin,

String & originProperty,

String & targetProperty,

const CIMPropertyList & propertyList,

InstanceResponseHandler & handler)

const CIMName & targetClass)

{

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER, "InteropProvider::getInstance");

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER,

"InteropProvider::localReferences()");

// Verify that ClassName is correct and get value

targetClass classEnum = _verifyValidClassInput(instanceName.getClassName());

String userName = _validateUserID(context);

Array<CIMInstance> instances;

CIMName originClass = objectName.getClassName();

// begin processing the request

Array<CIMName> targetSubclasses;

handler.processing();

CIMNamespaceName lastTargetNamespace;

if (classEnum == CIM_OBJECTMANAGER)

CIMNamespaceName originNamespace(objectName.getNameSpace());

// Check that the association traversal request is valid

if (validAssocClassForObject(

context,

assocClass,

objectName,

originNamespace,

originProperty,

targetProperty))

{

// retrieve all of the association class instances

Array<CIMInstance> localInstances = localEnumerateInstances(context,

CIMObjectPath(hostName, originNamespace,

assocClass));

// Filter the association class instances based on the origin instance

// and other input parameters.

for(Uint32 i = 0, n = localInstances.size(); i < n; ++i)

{

CIMInstance & currentInstance = localInstances[i];

CIMObjectPath originPath = getRequiredValue<CIMObjectPath>(

currentInstance, originProperty);

originPath.setNameSpace(objectName.getNameSpace());

originPath.setHost(objectName.getHost());

// Only include instances where the origin instance is present in

// the association.

if(originPath.identical(objectName))

{

if(!targetClass.isNull())

{

// Have to check if the target reference is of the

// targetClass type. We first must determine all the

// possible subclasses of the targetClass in the target

// namespace.

CIMObjectPath targetPath = getRequiredValue<CIMObjectPath>(

currentInstance, targetProperty);

CIMNamespaceName targetNamespace(

targetPath.getNameSpace());

if(targetNamespace.isNull())

{

CIMInstance instance = _buildInstanceCIMObjectManager(includeQualifiers,

targetNamespace = originNamespace;

includeClassOrigin, propertyList);

targetPath.setNameSpace(targetNamespace);

handler.deliver(instance);

handler.complete();

PEG_METHOD_EXIT();

return;

}

if(targetNamespace != lastTargetNamespace)

if (classEnum == PG_CIMXMLCOMMUNICATIONMECHANISM)

{

// ATTN: test for correct instance KS: Priority 1

try

Array <CIMInstance> instances = _buildInstancesPGCIMXMLCommunicationMechanism(

{

includeQualifiers,

targetSubclasses = repository->enumerateClassNames(

includeClassOrigin, propertyList);

targetNamespace, targetClass, true);

handler.deliver(instances[0]);

handler.complete();

PEG_METHOD_EXIT();

return;

}

catch(...)

// Get List of namespaces

Array<CIMNamespaceName> namespaceNames;

namespaceNames = _enumerateNameSpaces();

CIMInstance instance;

if (classEnum == CIM_NAMESPACE)

{

// Not clear what we have to take into account here.

// If an exception was thrown during enumeration,

// get the namespace from the name value.

// then the base class didn't exist in the

// should check the other keys to see if valid.

// namespace, so the target instance retrieved

CIMNamespaceName namespaceName;

// must not match the targetClass parameter.

namespaceName = _getKeyValue(instanceName, CIM_NAMESPACE_PROPERTY_NAME);

continue;

// ATTN: Why this CIMNamespaceName parentNamespaceName = instanceName.getNameSpace();

}

targetSubclasses.append(targetClass);

lastTargetNamespace = targetNamespace;

}

if (!_isNamespace(namespaceNames, namespaceName))

// Try to find the targetPath's class in the search space

CIMName targetPathClass = targetPath.getClassName();

for(Uint32 j = 0, m = targetSubclasses.size(); j < m; ++j)

{

if(targetPathClass == targetSubclasses[j])

{

throw CIMObjectNotFoundException("Namespace does not exist: "

instances.append(currentInstance);

+ namespaceName.getString());

break;

}

PEG_TRACE_STRING(TRC_CONTROLPROVIDER, Tracer::LEVEL4,

"Namespace = " + namespaceName.getString() + " successfully found.");

instance = _buildInstanceCIMNamespace(namespaceName);

}

else // processing for __Namespace

}

else

{

CIMNamespaceName childNamespaceName;

instances.append(currentInstance);

CIMNamespaceName getNamespaceName;

}

Boolean isRelativeName;

}

_getKeyValue(instanceName, childNamespaceName, isRelativeName);

}

CIMNamespaceName parentNamespaceName = instanceName.getNameSpace();

PEG_TRACE_STRING(TRC_CONTROLPROVIDER, Tracer::LEVEL4,

"childNamespaceName = " + childNamespaceName.getString() +

(isRelativeName?String("true"):String("false")) +

", parentNamespaceName = " + parentNamespaceName.getString());

getNamespaceName = _generateFullNamespaceName(

namespaceNames, parentNamespaceName,

childNamespaceName, isRelativeName);

// exception if not valid namespace

PEG_METHOD_EXIT();

if (!_isNamespace(namespaceNames, getNamespaceName))

return instances;

{

throw CIMObjectNotFoundException("Namespace deos not exist: "

+ getNamespaceName.getString());

}

PEG_TRACE_STRING(TRC_CONTROLPROVIDER, Tracer::LEVEL4,

"Namespace = " + getNamespaceName.getString() +

" successfully found.");

//Set name of class

CIMInstance instance(__NAMESPACE_CLASSNAME);

// construct the instance

// Builds an instance of the class named className. Gets Class defintion and

// fills in the correct properties from the class. This requires a repository

// getClass request for each instance built. The skeleton is built by

// creating the instance and copying qualifiers and properties from

// the class. Finally the instance is cloned to separate it from the

// original objects.

// NOTE: This is very inefficient for anything larger than a few instances.

// We should separate the get from the createSkeleton.

// @param className CIMName of the class for which the instance is to be built

// @return CIMInstance of this class with properties complete.

// @exception passes on any exceptions received from the repository request.

instance.addProperty(CIMProperty(NAMESPACE_PROPERTYNAME,

CIMInstance InteropProvider::buildInstanceSkeleton(

isRelativeName?childNamespaceName.getString():

const CIMNamespaceName & nameSpace,

parentNamespaceName.getString()));

const CIMName& className,

//instance.setPath(instanceName);

CIMClass& returnedClass)

}

{

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER,

handler.deliver(instance);

"InteropProvider::_buildInstanceSkeleton()");

// get class with lo = false, qualifier = true classorig = true

// complete processing the request

returnedClass = repository->getClass(nameSpace,

handler.complete();

className, false, true, true);

CIMInstance skeleton = returnedClass.buildInstance(true,true,

CIMPropertyList());

PEG_METHOD_EXIT();

return ;

return skeleton;

}

//***************************************************************************

// enumerateInstances

//***************************************************************************

void InteropProvider::enumerateInstances(

const OperationContext & context,

const CIMObjectPath & ref,

const Boolean includeQualifiers,

const Boolean includeClassOrigin,

const CIMPropertyList& propertyList,

InstanceResponseHandler & handler)

{

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER, "InteropProvider::enumerateInstances()");

// Verify that ClassName is correct and get value

targetClass classEnum = _verifyValidClassInput(ref.getClassName());

CIMInstance InteropProvider::buildDependencyInstance(

const String & antecedentId,

const CIMName & antecedentClass,

const String & dependentId,

const CIMName & dependentClass,

const CIMClass & dependencyClass)

{

Array<CIMKeyBinding> dependentKeys;

// operation namespace needed internally to get class.

dependentKeys.append(CIMKeyBinding(

_operationNamespace = ref.getNameSpace();

COMMON_PROPERTY_INSTANCEID,

//String userName = _validateUserID(context);

dependentId,CIMKeyBinding::STRING));

// The following 3 classes deliver a single instance because

return buildDependencyInstanceFromPaths(

// that is all there is today.

buildDependencyReference(hostName, antecedentId, antecedentClass),

if (classEnum == CIM_OBJECTMANAGER)

buildDependencyReference(hostName, dependentId, dependentClass),

{

dependencyClass);

CIMInstance instance = _buildInstanceCIMObjectManager(includeQualifiers,

includeClassOrigin,

propertyList);

handler.deliver(instance);

handler.complete();

PEG_METHOD_EXIT();

return;

}

if (classEnum == PG_CIMXMLCOMMUNICATIONMECHANISM)

void InteropProvider::initProvider()

{

Array<CIMInstance> instances = _buildInstancesPGCIMXMLCommunicationMechanism(includeQualifiers,

if(providerInitialized)

includeClassOrigin, propertyList);

CDEBUG("Build instances of PGCIMXML. count= " << instances.size());

handler.deliver(instances);

handler.complete();

PEG_METHOD_EXIT();

return;

}

// Placed METHOD_ENTER trace statement after checking whether the

// provider is initialized because this method will be called for every

// ATTN: Fix this up. should not be here.

// operation through the InteropProvider, and this method is only

CIMNamespaceName parentNamespaceName = ref.getNameSpace();

// interesting the first time it is successfully run.

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER,

// ATTN KS Fix this so references both types of namespace

"InteropProvider::initProvider()");

PEG_TRACE_STRING(TRC_CONTROLPROVIDER, Tracer::LEVEL4,

"parentNamespaceName = " + parentNamespaceName.getString());

// begin processing the request

handler.processing();

Array<CIMNamespaceName> namespaceNames = _enumerateNameSpaces();

AutoMutex lock(interopMut);

if(!providerInitialized)

{

// Initialize the object manager instance for the CIM Server, and

// retrieve the object manager's name property. This is retrieved once

// and stored for use in constructing other instances requiring its

// value.

CIMInstance objectManager = getObjectManagerInstance();

objectManager.getProperty(objectManager.findProperty(

OM_PROPERTY_NAME)).getValue().get(objectManagerName);

Array<CIMInstance> instanceArray;

CDEBUG("Found " << namespaceNames.size() << " namespaces.");

// Determine whether the CIMOM should be gathering statistical data

// Build response objects based on class requested

// based on the GatherStatisticalData property in the object manager.

for (Uint32 i = 0; i < namespaceNames.size(); i++)

Uint32 gatherDataIndex = objectManager.findProperty(

OM_PROPERTY_GATHERSTATISTICALDATA);

if(gatherDataIndex != PEG_NOT_FOUND)

{

if (classEnum == CIM_NAMESPACE)

CIMConstProperty gatherDataProp =

objectManager.getProperty(gatherDataIndex);

if (gatherDataProp.getType() == CIMTYPE_BOOLEAN)

{

CDEBUG("Evaluate CIM_Namespace" << classEnum);

CIMValue gatherDataVal = gatherDataProp.getValue();

// Create a valid CIM_Namespace Instance

if (!gatherDataVal.isNull())

CIMInstance instance = _buildInstanceCIMNamespace(namespaceNames[i]);

instanceArray.append(instance);

PEG_TRACE_STRING(TRC_CONTROLPROVIDER, Tracer::LEVEL4,

"Namespace = " + namespaceNames[i].getString());

}

else // the else covers __NAMESPACE

{

// Build the instances. For now simply build the __Namespace instances

Boolean gatherData;

// the only property is name.

gatherDataVal.get(gatherData);

if (_isChild(parentNamespaceName, namespaceNames[i]))

if (gatherData == true)

{

CIMInstance instance(__NAMESPACE_CLASSNAME);

StatisticalData* sd = StatisticalData::current();

instance.addProperty(

sd->setCopyGSD(true);

(CIMProperty(NAMESPACE_PROPERTYNAME,

namespaceNames[i].getString().subString

(parentNamespaceName.getString().size()+1,

namespaceNames[i].getString().size()-

parentNamespaceName.getString().size()-1))));

instanceArray.append(instance);

//instance.setPath(instanceName);

PEG_TRACE_STRING(TRC_CONTROLPROVIDER, Tracer::LEVEL4,

"childNamespace = " + namespaceNames[i].getString());

}

handler.deliver(instanceArray);

// complete processing the request

handler.complete();

PEG_METHOD_EXIT();

}

//***************************************************************************

// Cache this class definition for use later.

// enumerateInstanceNames

profileCapabilitiesClass = repository->getClass(

//***************************************************************************

PEGASUS_NAMESPACENAME_INTEROP,

PEGASUS_CLASSNAME_PG_PROVIDERPROFILECAPABILITIES,

false, true, false);

void InteropProvider::enumerateInstanceNames(

providerClassifications.append(Uint16(5)); // "Instrumentation"

const OperationContext & context,

const CIMObjectPath & classReference,

ObjectPathResponseHandler & handler)

{

PEG_METHOD_ENTER(TRC_CONTROLPROVIDER,

"InteropProvider::enumerateInstanceNames()");

// operation namespace needed internally to get class.

_operationNamespace = classReference.getNameSpace();

// Initialize the namespaces so that all namespaces with the

// CIM_ElementConformsToProfile class also have the

targetClass classEnum = _verifyValidClassInput(classReference.getClassName());

// PG_ElementConformsToProfile class. Needed in order to implement

// the cross-namespace ElementConformsToProfile association in both

String userName = _validateUserID(context);

// directions.

// begin processing the request

handler.processing();

Array<CIMNamespaceName> namespaceNames =

repository->enumerateNameSpaces();

// The following 3 classes deliver a single instance because

// get the PG_ElementConformstoProfile class without the qualifiers

// that is all there is today.

// and then add just the required ASSOCIATION qualifier, so that

if (classEnum == CIM_OBJECTMANAGER)

// resolveclass doesn't fail for the test/EmbeddedInstance/Dynamic

{

// namespace, which uses the CIM25 schema that doesn't include any

CIMInstance instance = _buildInstanceCIMObjectManager( true, true, CIMPropertyList());

// of the new qualifiers added to this class in later versions of

CIMObjectPath ref = _buildInstancePath(CIMNamespaceName(),

// the CIMSchema.

CIM_OBJECTMANAGER_CLASSNAME, instance);

CIMClass conformsClass = repository->getClass(

handler.deliver(ref);

PEGASUS_NAMESPACENAME_INTEROP,

handler.complete();

PEGASUS_CLASSNAME_PG_ELEMENTCONFORMSTOPROFILE, true, false);

PEG_METHOD_EXIT();

conformsClass.addQualifier(CIMQualifier(CIMName("ASSOCIATION"),

return;

CIMValue(true)));

}

CIMClass profileClass = repository->getClass(

PEGASUS_NAMESPACENAME_INTEROP,

if (classEnum == PG_CIMXMLCOMMUNICATIONMECHANISM)

PEGASUS_CLASSNAME_PG_REGISTEREDPROFILE, true, false);

for(Uint32 i = 0, n = namespaceNames.size(); i < n; ++i)

{

Array<CIMInstance> instances = _buildInstancesPGCIMXMLCommunicationMechanism(true,

// Check if the PG_ElementConformsToProfile class is present

true, CIMPropertyList());

CIMNamespaceName & currentNamespace = namespaceNames[i];

CIMClass tmpCimClass;

for (Uint32 i = 0 ; i < instances.size() ; i++)

CIMClass tmpPgClass;

CIMClass tmpPgProfileClass;

try

{

CIMObjectPath ref = _buildInstancePath(CIMNamespaceName(),

// Look for these classes in the same try-block since the

PG_CIMXMLCOMMUNICATIONMECHANISM_CLASSNAME, instances[i]);

// second depends on the first

handler.deliver(ref);

tmpCimClass = repository->getClass(currentNamespace,

PEGASUS_CLASSNAME_CIM_ELEMENTCONFORMSTOPROFILE);

tmpPgClass = repository->getClass(currentNamespace,

PEGASUS_CLASSNAME_PG_ELEMENTCONFORMSTOPROFILE);

}

handler.complete();

catch(const Exception &)

PEG_METHOD_EXIT();

{

return;

}

try

// ATTN: Move this trace

CIMNamespaceName parentNamespaceName = classReference.getNameSpace();

PEG_TRACE_STRING(TRC_CONTROLPROVIDER, Tracer::LEVEL4,

"parentNamespaceName = " + parentNamespaceName.getString());

CDEBUG("Enumerate Instance Names. ns = " << parentNamespaceName.getString());

// Get list of all namespaces

Array<CIMNamespaceName> namespaceNames = _enumerateNameSpaces();

// Build the cimObjectPath for each namespace found

for (Uint32 i = 0; i < namespaceNames.size(); i++)

{

if (classEnum == CIM_NAMESPACE)

tmpPgProfileClass = repository->getClass(currentNamespace,

PEGASUS_CLASSNAME_PG_REGISTEREDPROFILE);

}

catch(const Exception &)

{

// Note: if any of the above three classes aren't found,

CDEBUG("Calling BuildInstancePath for "<< namespaceNames[i].getString() );

// an exception will be thrown, which we can ignore since it's

CIMInstance instance = _buildInstanceCIMNamespace(namespaceNames[i]);

// an expected case

CIMObjectPath ref = _buildInstancePath(CIMNamespaceName(namespaceNames[i]),

// TBD: Log trace message?

CIM_NAMESPACE_CLASSNAME, instance);

handler.deliver(ref);

PEG_TRACE_STRING(TRC_CONTROLPROVIDER, Tracer::LEVEL4,

"namespace = " + namespaceNames[i].getString());

}

else

// If the CIM_ElementConformsToProfile class is present, but

// the PG_ElementConformsToProfile or PG_RegisteredProfile

// class is not, then add it to that namespace.

// Note that we don't have to check for the

// CIM_RegisteredProfile class because if the

// CIM_ElementConformsToProfile class is present, the

// CIM_RegisteredProfile class must also be present.

if(!tmpCimClass.isUninitialized())

{

Array<CIMKeyBinding> keyBindings;

if(tmpPgClass.isUninitialized())

// Build the __Namespace objectpath

// Note that for the moment, the only property is name.

if (_isChild(parentNamespaceName, namespaceNames[i]))

{

keyBindings.clear();

CIMClass newclass = conformsClass.clone();

keyBindings.append(CIMKeyBinding(NAMESPACE_PROPERTYNAME,

CIMObjectPath newPath = conformsClass.getPath();

namespaceNames[i].getString().subString

newPath.setNameSpace(currentNamespace);

(parentNamespaceName.getString().size()+1,

newclass.setPath(newPath);

namespaceNames[i].getString().size()-

repository->createClass(currentNamespace,

parentNamespaceName.getString().size()-1),

newclass);

CIMKeyBinding::STRING));

CIMObjectPath ref(String::EMPTY, parentNamespaceName,

__NAMESPACE_CLASSNAME, keyBindings);

handler.deliver(ref);

PEG_TRACE_STRING(TRC_CONTROLPROVIDER, Tracer::LEVEL4,

"childNamespace = " + namespaceNames[i].getString());

}

if(tmpPgProfileClass.isUninitialized())

{

CIMClass newclass = profileClass.clone();

CIMObjectPath newPath = profileClass.getPath();

newPath.setNameSpace(currentNamespace);

newclass.setPath(newPath);

repository->createClass(currentNamespace,

newclass);

}

handler.complete();

PEG_METHOD_EXIT();

}

//**************************************************************

// Association Functions

//**************************************************************

void InteropProvider::associators(

const OperationContext & context,

const CIMObjectPath & objectName,

const CIMName & associationClass,

const CIMName & resultClass,

const String & role,

const String & resultRole,

const Boolean includeQualifiers,

const Boolean includeClassOrigin,

const CIMPropertyList & propertyList,

ObjectResponseHandler & handler)

{

throw CIMNotSupportedException("AssociationProvider::associators");

}

void InteropProvider::associatorNames(

// Now cache the Registration info used for ElementConformsToProfile

const OperationContext & context,

cacheProfileRegistrationInfo();

const CIMObjectPath & objectName,

const CIMName & associationClass,

const CIMName & resultClass,

const String & role,

const String & resultRole,

ObjectPathResponseHandler & handler)

{

throw CIMNotSupportedException("AssociationProvider::associatorNames");

}

void InteropProvider::references(

providerInitialized = true;

const OperationContext & context,

const CIMObjectPath & objectName,

const CIMName & resultClass,

const String & role,

const Boolean includeQualifiers,

const Boolean includeClassOrigin,

const CIMPropertyList & propertyList,

ObjectResponseHandler & handler)

{

throw CIMNotSupportedException("AssociationProvider::references");

}

void InteropProvider::referenceNames(

PEG_METHOD_EXIT();

const OperationContext & context,

const CIMObjectPath & objectName,

const CIMName & resultClass,

const String & role,

ObjectPathResponseHandler & handler)

{

throw CIMNotSupportedException("AssociationProvider::referenceNames");

}

PEGASUS_NAMESPACE_END

// END_OF_FILE

// END OF FILE

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