/////////////////////////////////////////////////////////////////////////////
// WMIClassProvider::performInitialCheck
//
// ///////////////////////////////////////////////////////////////////////////
void WMIClassProvider::performInitialCheck(const CIMClass& newClass,
Boolean updateClass)
{
PEG_METHOD_ENTER(TRC_WMIPROVIDER, "WmiClassProvider::performInitialCheck()");
// check if class already exists, just for createClass calls
if ((classAlreadyExists(newClass.getClassName().getString())) && (!updateClass))
{
Tracer::trace(TRC_WMIPROVIDER, Tracer::LEVEL3,
"WMIClassProvider::performInitialCheck - class already exists, throw CIM_ERR_ALREADY_EXISTS exception");
throw CIMException(CIM_ERR_ALREADY_EXISTS);
}
// check if newClass has a superclass
if (newClass.getSuperClassName().getString() != String::EMPTY)
{
// verifies if the superclass exists
if (!classAlreadyExists(newClass.getSuperClassName().getString()))
{
// superclass doesn't exist, trace and throw error
String tmp = newClass.getSuperClassName().getString();
Tracer::trace(TRC_WMIPROVIDER, Tracer::LEVEL3,
"WMIClassProvider::performInitialCheck() - the superclass %s wasn't yet registered", tmp.getCString());
throw CIMException(CIM_ERR_INVALID_SUPERCLASS);
}
}
PEG_METHOD_EXIT();
return;
}
int _getClass(const int argc, const char **argv)
{
CIMClass cldef;
try
{
cldef = _c.getClass( PEGASUS_NAMESPACENAME_INTEROP, argv[0] );
}
catch (Exception& e)
{
cerr << /* "getClass: " << */ e.getMessage() << endl;
return 1;
}
// Display the class definition
// without qualifiers, for the moment
// First the class name and superclass
cout << "class " << cldef.getClassName().getString() << " : "
<< cldef.getSuperClassName().getString() << endl;
cout << "{" << endl;
// Now the properties
// No qualifiers except [key], but specify type, array
for (int i=0; i<cldef.getPropertyCount(); i++)
{
CIMProperty p = cldef.getProperty(i);
cout << " ";
// output key, if required
if (_isKey(p)) cout << "[ Key ] ";
// prepare to output type, but
// first, if type is "reference", find target class
if (p.getType() == CIMTYPE_REFERENCE)
cout << p.getReferenceClassName().getString() << " REF ";
// output type
else cout << cimTypeToString(p.getType()) << " ";
// output name
cout << p.getName().getString();
// output array, if required
if (p.isArray()) cout << "[]";
// final eol
cout << ";" << endl;
}
// need to do methods
for (int i=0; i<cldef.getMethodCount(); i++)
{
CIMMethod m = cldef.getMethod(i);
// output type
cout << " " << cimTypeToString(m.getType()) << " ";
// output name
cout << m.getName().getString() << "(";
// output parameters
// new line if there are any parameters
for (int j=0; j<m.getParameterCount(); j++)
{
CIMParameter p = m.getParameter(j);
// output IN/OUT qualifiers on a fresh line
cout << endl << " [ ";
// loop through qualifiers looking for IN, OUT
for (int k=0; k<p.getQualifierCount(); k++)
{
// when one found, output its value
CIMQualifier q = p.getQualifier(k);
if (q.getName().equal("in") ||
q.getName().equal("out"))
{
cout << q.getName().getString() << " ";
}
}
// Now the type
cout << "] " << cimTypeToString(p.getType()) << " ";
// finally the name
cout << p.getName().getString();
// array brackets
if (p.isArray()) cout << "[]";
// closing , on parameter if not last
if (j != m.getParameterCount()-1) cout << ",";
}
// after last param, indent before closing paren
// close paren
cout << ")";
// if (m.isArray()) cout << "[]";
// finish output
cout << ";" << endl;
}
// final brace and done
cout << "};" << endl;
return 0;
}
void test01()
{
// class MyClass : YourClass
// {
// string message = "Hello";
// }
try
{
CIMName a = "A_class1";
CIMName b = "A_class2";
CIMClass c0(a, b);
CIMClass c1(a, CIMName("A_class2"));
CIMClass c2(CIMName("A_class1"), b);
CIMClass c3(b, a);
}
catch (InvalidNameException & ine)
{
if (verbose)
{
cout << "Caught unexpected exception: " << ine.getMessage() << endl;
}
}
try
{
//
// Invalid class name
//
CIMClass class0(CIMName ("//localhost/root/cimv2:MyClass"),
CIMName ("YourClass"));
PEGASUS_TEST_ASSERT(class0.getPath() ==
CIMObjectPath("//localhost/root/cimv2:MyClass"));
}
catch (InvalidNameException & ine)
{
if (verbose)
{
cout << "Caught expected exception: " << ine.getMessage() << endl;
}
}
CIMClass class1(CIMName ("MyClass"), CIMName ("YourClass"));
class1
.addQualifier(CIMQualifier(CIMName ("association"), true))
.addQualifier(CIMQualifier(CIMName ("q1"), Uint32(55)))
.addQualifier(CIMQualifier(CIMName ("q2"), String("Hello")))
.addProperty(CIMProperty(CIMName ("message"), String("Hello")))
.addProperty(CIMProperty(CIMName ("count"), Uint32(77), 0, CIMName(),
CIMName("YourClass"), true))
.addMethod(CIMMethod(CIMName ("isActive"), CIMTYPE_BOOLEAN)
.addParameter(CIMParameter(CIMName ("hostname"), CIMTYPE_STRING))
.addParameter(CIMParameter(CIMName ("port"), CIMTYPE_UINT32)));
// Test the method count function
PEGASUS_TEST_ASSERT(class1.getClassName().equal(CIMName ("myclass")));
PEGASUS_TEST_ASSERT(class1.getSuperClassName() == CIMName ("YourClass"));
PEGASUS_TEST_ASSERT(class1.getMethodCount() ==1);
// Test the findMethod and isMethod functions
PEGASUS_TEST_ASSERT(class1.findMethod(
CIMName ("isActive")) != PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.findMethod(
CIMName ("DoesNotExist")) == PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.findMethod(
CIMName ("isActive")) != PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.findMethod(
CIMName ("DoesNotExist")) == PEG_NOT_FOUND);
// Test the manipulation of an embeddedObjectProperty
CIMClass embedClass(CIMName ("embedObj"), CIMName ());
class1.addProperty(CIMProperty(CIMName ("embedObj"),
CIMObject(embedClass), 0, CIMName(),
CIMName(), false));
PEGASUS_TEST_ASSERT(class1.findProperty(
CIMName ("embedObj")) != PEG_NOT_FOUND);
Uint32 posProp = class1.findProperty(CIMName ("embedObj"));
CIMConstProperty constprop1 = class1.getProperty(posProp);
PEGASUS_TEST_ASSERT(constprop1.getClassOrigin() == CIMName());
PEGASUS_TEST_ASSERT(constprop1.getType() == CIMTYPE_OBJECT);
class1.removeProperty(posProp);
// Now add another method and reconfirm.
class1.addMethod(CIMMethod(CIMName ("makeActive"), CIMTYPE_BOOLEAN)
.addParameter(CIMParameter(CIMName ("hostname"), CIMTYPE_STRING))
.addParameter(CIMParameter(CIMName ("port"), CIMTYPE_UINT32)));
PEGASUS_TEST_ASSERT(class1.getMethodCount() == 2);
// Test the findMethod and isMethod functions
// with two methods defined
PEGASUS_TEST_ASSERT(class1.findMethod(
CIMName ("isActive")) != PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.findMethod(
CIMName ("makeActive")) != PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.findMethod(
CIMName ("DoesNotExist")) == PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.findMethod(
CIMName ("isActive")) != PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.findMethod(
CIMName ("makeActive")) != PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.findMethod(
CIMName ("DoesNotExist")) == PEG_NOT_FOUND);
// Test RemoveMethod function
Uint32 posMethod;
posMethod = class1.findMethod(CIMName ("isActive"));
PEGASUS_TEST_ASSERT(posMethod != PEG_NOT_FOUND);
class1.removeMethod(posMethod);
PEGASUS_TEST_ASSERT(class1.findMethod(
CIMName ("isActive")) == PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.getMethodCount() == 1);
//ATTN: P3 TODO add tests for different case names
//Qualifier manipulation tests (find, remove)
PEGASUS_TEST_ASSERT(class1.findQualifier(CIMName ("q1")) != PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.findQualifier(CIMName ("q2")) != PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.findQualifier(CIMName ("qx")) == PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.findQualifier(CIMName ("q1")) != PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.findQualifier(CIMName ("q2")) != PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.findQualifier(
CIMName ("association")) != PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.isAssociation());
// Remove middle Qualifier "q2"
Uint32 posQualifier;
posQualifier = class1.findQualifier(CIMName ("q2"));
CIMConstQualifier qconst = class1.getQualifier(posQualifier);
PEGASUS_TEST_ASSERT(class1.getQualifierCount() == 3);
PEGASUS_TEST_ASSERT(posQualifier <= class1.getQualifierCount());
class1.removeQualifier(posQualifier);
PEGASUS_TEST_ASSERT(class1.getQualifierCount() == 2);
PEGASUS_TEST_ASSERT(class1.findQualifier(CIMName ("q2")) == PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.findQualifier(CIMName ("q1")) != PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.isAssociation());
// Remove the first parameter "q1"
posQualifier = class1.findQualifier(CIMName ("q1"));
PEGASUS_TEST_ASSERT(class1.getQualifierCount() == 2);
CIMQualifier cq = class1.getQualifier( class1.findQualifier(
CIMName ("q1")));
PEGASUS_TEST_ASSERT(posQualifier <= class1.getQualifierCount());
class1.removeQualifier(posQualifier);
PEGASUS_TEST_ASSERT(class1.getQualifierCount() == 1);
PEGASUS_TEST_ASSERT(class1.findQualifier(CIMName ("q1")) == PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.findQualifier(CIMName ("q2")) == PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.isAssociation());
// ATTH: P3 Add tests for try block for outofbounds
//The property manipulation tests.
PEGASUS_TEST_ASSERT(class1.findProperty(
CIMName ("count")) != PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.findProperty(
CIMName ("message")) != PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.findProperty(
CIMName ("isActive")) == PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.getPropertyCount() == 2);
Uint32 posProperty;
posProperty = class1.findProperty(CIMName ("count"));
CIMConstProperty constprop = class1.getProperty(posProperty);
PEGASUS_TEST_ASSERT(constprop.getClassOrigin() == CIMName("YourClass"));
PEGASUS_TEST_ASSERT(constprop.getPropagated());
class1.removeProperty(posProperty);
PEGASUS_TEST_ASSERT(class1.findProperty(
CIMName ("message")) != PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.findProperty(
CIMName ("count")) == PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(class1.getPropertyCount() == 1);
CIMProperty cp = class1.getProperty( class1.findProperty
(CIMName ("message")));
PEGASUS_TEST_ASSERT(cp.getClassOrigin().isNull());
PEGASUS_TEST_ASSERT(!cp.getPropagated());
if(verbose)
{
XmlWriter::printClassElement(class1);
MofWriter::printClassElement(class1);
}
Buffer out;
MofWriter::appendClassElement(out, class1);
out.clear();
XmlWriter::appendClassElement(out, class1);
PEGASUS_TEST_ASSERT(!class1.isAbstract());
CIMName squal("q1");
PEGASUS_TEST_ASSERT(class1.findQualifier(squal) == PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(!class1.hasKeys());
Array<CIMName> keyNames;
class1.getKeyNames(keyNames);
CIMClass c2(CIMName ("MyClass"));
PEGASUS_TEST_ASSERT(c2.getClassName().equal(CIMName ("myclass")));
// Error uninitialized handle
c2.setSuperClassName(CIMName ("CIM_Element"));
PEGASUS_TEST_ASSERT(c2.getSuperClassName() == CIMName ("CIM_Element"));
CIMClass c3 = c2.clone();
c3 = c2;
try
{
CIMMethod cm = c2.getMethod(0);
}
catch(IndexOutOfBoundsException& e)
{
if(verbose)
cout << "Exception: " << e.getMessage() << endl;
}
const CIMClass c4(CIMName ("MyClass"), CIMName ("YourClass"));
CIMConstClass c5(CIMName ("MyClass"), CIMName ("YourClass"));
CIMConstClass c6(CIMName ("MyClass"));
CIMConstClass cc7(c6);
CIMClass c7 = c5.clone();
const CIMClass c8(class1);
// Test the findMethod and isMethod functions
PEGASUS_TEST_ASSERT(c7.findMethod(
CIMName ("DoesNotExist")) == PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(c7.findQualifier(CIMName ("dummy")) == PEG_NOT_FOUND);
try
{
CIMConstMethod cm = c8.getMethod(0);
}
catch(IndexOutOfBoundsException& e)
{
if(verbose)
cout << "Exception: " << e.getMessage() << endl;
}
try
{
CIMConstProperty ccp = c8.getProperty(c8.findProperty
(CIMName ("count")));
}
catch(IndexOutOfBoundsException& e)
{
if(verbose)
cout << "Exception: " << e.getMessage() << endl;
}
if(verbose)
{
XmlWriter::printClassElement(c5);
}
try
{
CIMConstMethod cm = cc7.getMethod(0);
}
catch(IndexOutOfBoundsException& e)
{
if(verbose)
cout << "Exception: " << e.getMessage() << endl;
}
// Test the findMethod and isMethod functions
PEGASUS_TEST_ASSERT(c4.findMethod(
CIMName ("DoesNotExist")) == PEG_NOT_FOUND);
//Qualifier manipulation tests (find, remove)
PEGASUS_TEST_ASSERT(c4.findQualifier(CIMName ("qx")) == PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(c4.findQualifier(CIMName ("q1")) == PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(c4.findQualifier(CIMName ("q2")) == PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(c4.findQualifier(
CIMName ("association")) == PEG_NOT_FOUND);
posProperty = c4.findProperty(CIMName ("count"));
try
{
CIMConstQualifier ccq = c4.getQualifier(c4.findQualifier
(CIMName ("q1")));
}
catch (IndexOutOfBoundsException& e)
{
if(verbose)
cout << "Exception: " << e.getMessage() << endl;
}
PEGASUS_TEST_ASSERT(c4.findProperty(CIMName ("count")) == PEG_NOT_FOUND);
PEGASUS_TEST_ASSERT(c4.getClassName() == CIMName ("MyClass"));
PEGASUS_TEST_ASSERT(c4.getClassName().equal(CIMName ("MyClass")));
PEGASUS_TEST_ASSERT(c4.getClassName().equal(CIMName ("MYCLASS")));
PEGASUS_TEST_ASSERT(c4.getClassName().equal(CIMName ("myclass")));
PEGASUS_TEST_ASSERT(!c4.getClassName().equal(CIMName ("blob")));
PEGASUS_TEST_ASSERT(c4.getSuperClassName() == CIMName ("YourClass"));
// test the setSuperClassName function
/* ATTN KS 29 April. This test has problems. Relook later.
Think test, not code.
c4.setSuperClassName(CIMName ("JunkClass"));
PEGASUS_TEST_ASSERT(c4.getSuperClassName() == CIMName ("JunkClass"));
c4.setSuperClassName(CIMName ("YourClass"));
*/
PEGASUS_TEST_ASSERT(c5.getSuperClassName() == CIMName ("YourClass"));
PEGASUS_TEST_ASSERT(c5.getQualifierCount() == 0);
posQualifier = c5.findQualifier(CIMName ("q2"));
// throws out of bounds
try
{
CIMConstQualifier qconst1 = c5.getQualifier(posQualifier);
}
catch(IndexOutOfBoundsException& e)
{
if(verbose)
cout << "Exception: " << e.getMessage() << endl;
}
if(verbose)
{
cout << "All tests" << endl;
}
}
/////////////////////////////////////////////////////////////////////////////
// WMIClassProvider::createClassNameAndClassQualifiers
//
// ///////////////////////////////////////////////////////////////////////////
void WMIClassProvider::createClassNameAndClassQualifiers(const CIMClass& newClass,
IWbemServices *pServices,
IWbemClassObject **pNewClass,
const bool hasSuperClass)
{
HRESULT hr;
PEG_METHOD_ENTER(TRC_WMIPROVIDER, "WmiClassProvider::createClassNameAndClassQualifiers()");
// if the class has a superclass, we need to spwan a derived
if (hasSuperClass)
{
// get the superclass name
CComPtr<IWbemClassObject> pSuperClass;
String tmp = newClass.getSuperClassName().getString();
CComBSTR bs = tmp.getCString();
hr = pServices->GetObject(
bs,
NULL,
NULL,
&pSuperClass,
NULL);
bs.Empty();
if (FAILED(hr))
{
if (pSuperClass)
pSuperClass.Release();
CMyString msg;
msg.Format("Failed to get a pointer to Superclass [%s]. Error: 0x%X", 255, tmp.getCString(), hr);
Tracer::trace(TRC_WMIPROVIDER, Tracer::LEVEL3,
"WMIClassProvider::createClassNameAndClassQualifiers() - %s", (LPCTSTR)msg);
throw CIMException(CIM_ERR_FAILED, (LPCTSTR)msg);
}
//Creates the new class
pSuperClass->SpawnDerivedClass(NULL, pNewClass);
if (pSuperClass)
pSuperClass.Release();
}
else
{
// we are creating a base class
hr = pServices->GetObject(NULL,
NULL,
NULL,
pNewClass,
NULL);
if (FAILED(hr))
{
CMyString msg;
msg.Format("Failed to get a pointer to a new class. Error: 0x%X", hr);
Tracer::trace(TRC_WMIPROVIDER, Tracer::LEVEL3,
"WMIClassProvider::createClassNameAndClassQualifiers() - %s", (LPCTSTR)msg);
throw CIMException(CIM_ERR_FAILED, (LPCTSTR)msg);
}
}
// create the class name
CComVariant v;
v = newClass.getClassName().getString().getCString();
hr = (*pNewClass)->Put(L"__CLASS", 0, &v, 0);
v.Clear();
if (FAILED(hr))
{
CMyString msg;
msg.Format("Failed to add class name on class [%s]. Error: 0x%X", 255,
newClass.getClassName().getString().getCString(), hr);
Tracer::trace(TRC_WMIPROVIDER, Tracer::LEVEL3,
"WMIClassProvider::createClassNameAndClassQualifiers() - %s", (LPCTSTR)msg);
if (*pNewClass)
(*pNewClass)->Release();
throw CIMException(CIM_ERR_FAILED, (LPCTSTR)msg);
}
// get a pointer to work with qualifiers
CComPtr<IWbemQualifierSet> pNewClassQualifier;
hr = (*pNewClass)->GetQualifierSet(&pNewClassQualifier);
if (FAILED(hr))
{
CMyString msg;
msg.Format("Failed to get the Qualifier set pointer of class [%s]. Error: 0x%X", 255,
newClass.getClassName().getString().getCString(), hr);
Tracer::trace(TRC_WMIPROVIDER, Tracer::LEVEL3,
"WMIClassProvider::createClassNameAndClassQualifiers() - %s", (LPCTSTR)msg);
if (*pNewClass)
(*pNewClass)->Release();
if (pNewClassQualifier)
pNewClassQualifier.Release();
throw CIMException(CIM_ERR_FAILED, (LPCTSTR)msg);
}
// check the class qualifiers and create them if they are valid
// we are taking care of the class qualifiers and not methods/properties qualifiers :D
for (Uint32 i = 0; i < newClass.getQualifierCount(); i++)
{
try
{
WMIQualifier qualifier(newClass.getQualifier(i).clone());
createQualifier(qualifier, pNewClassQualifier);
}
catch (CIMException&)
{
if (*pNewClass)
(*pNewClass)->Release();
if (pNewClassQualifier)
pNewClassQualifier.Release();
throw;
}
}
if (pNewClassQualifier)
pNewClassQualifier.Release();
PEG_METHOD_EXIT();
return;
}
/////////////////////////////////////////////////////////////////////////////
// WMIClassProvider::modifyClass
//
// ///////////////////////////////////////////////////////////////////////////
void WMIClassProvider::modifyClass(const String& nameSpace,
const String& userName,
const String& password,
const CIMClass& modifiedClass)
{
PEG_METHOD_ENTER(TRC_WMIPROVIDER, "WMIClassProvider::modifyClass()");
setup(nameSpace, userName, password);
if (!m_bInitialized)
{
Tracer::trace(TRC_WMIPROVIDER, Tracer::LEVEL3,
"WMIClassProvider::modifyClass - m_bInitilized= %x, throw CIM_ERR_FAILED exception",
m_bInitialized);
throw CIMException(CIM_ERR_FAILED);
}
// check if class does exist
if (!classAlreadyExists(modifiedClass.getClassName().getString()))
{
throw CIMException(CIM_ERR_NOT_FOUND);
}
// check if superclass does exist
if (!classAlreadyExists(modifiedClass.getSuperClassName().getString()))
{
// superclass doesn't exist
throw CIMException(CIM_ERR_INVALID_SUPERCLASS);
}
//
// By Jair
//
// If the class already has a superclass and it isn't explicitly
// defined in the <modifiedClass> definition, we must set it
// before changing the control to the createClass method. This way
// we don't change the Class definition, as specified in DSP0200.
//
CIMClass updatedClass = modifiedClass;
if ((updatedClass.getSuperClassName().getString()).size() == 0)
{
// set the superclass
CComPtr<IWbemClassObject> pClass;
if (!(_collector->getObject(&pClass, updatedClass.getClassName().getString())))
{
if (pClass)
pClass.Release();
throw CIMException(CIM_ERR_NOT_FOUND);
}
String superClass = _collector->getSuperClass(pClass);
if (0 != superClass.size())
{
CIMName superclassName = superClass;
updatedClass.setSuperClassName(superclassName);
}
if (pClass)
pClass.Release();
}
//update the class using createClass
createClass(nameSpace,
userName,
password,
updatedClass,
true);
PEG_METHOD_EXIT();
return;
}
/////////////////////////////////////////////////////////////////////////////
// WMIClassProvider::createClass
//
// ///////////////////////////////////////////////////////////////////////////
void WMIClassProvider::createClass(const String& nameSpace,
const String& userName,
const String& password,
const CIMClass& newClass,
Boolean updateClass)
{
PEG_METHOD_ENTER(TRC_WMIPROVIDER, "WmiClassProvider::createClass()");
setup(nameSpace, userName, password);
if (!m_bInitialized)
{
Tracer::trace(TRC_WMIPROVIDER, Tracer::LEVEL3,
"WMIClassProvider::createClass - m_bInitilized= %x, throw CIM_ERR_FAILED exception",
m_bInitialized);
throw CIMException(CIM_ERR_FAILED);
}
// Check if the class does not exist and if if has a valid
// superclass
performInitialCheck(newClass, updateClass);
bool hasSuperClass = (newClass.getSuperClassName().getString() != String::EMPTY);
// gets the pointers
CComPtr<IWbemServices> pServices;
CComPtr<IWbemClassObject> pNewClass;
if (!_collector->Connect(&pServices))
{
if (pServices)
pServices.Release();
throw CIMException (CIM_ERR_FAILED);
}
try
{
// starts the class creation by name and class qualifiers
createClassNameAndClassQualifiers(
newClass,
pServices,
&pNewClass,
hasSuperClass);
// create properties
createProperties(
newClass,
pServices,
pNewClass);
// create methods
createMethods(
newClass,
pServices,
pNewClass);
}
catch (CIMException&)
{
if (pServices)
pServices.Release();
if (pNewClass)
pNewClass.Release();
throw;
}
// Store the new class into WMI
LONG lFlags = 0L;
//if updateClass is set, we are trying a modifyclass
if (updateClass) lFlags = WBEM_FLAG_UPDATE_ONLY;
HRESULT hr = pServices->PutClass(pNewClass, lFlags, NULL, NULL);
if (pServices)
pServices.Release();
if (pNewClass)
pNewClass.Release();
if (FAILED(hr))
{
CMyString msg;
msg.Format("It is not possible to create the class [%s]. Error: 0x%X", 255,
newClass.getClassName().getString(), hr);
Tracer::trace(TRC_WMIPROVIDER, Tracer::LEVEL3,
"WMIClassProvider::createClass() - %s", (LPCTSTR)msg);
switch(hr)
{
case E_ACCESSDENIED: throw CIMException(CIM_ERR_ACCESS_DENIED); break;
case WBEM_E_ACCESS_DENIED: throw CIMException(CIM_ERR_ACCESS_DENIED); break;
case WBEM_E_CLASS_HAS_CHILDREN: throw CIMException(CIM_ERR_CLASS_HAS_CHILDREN); break;
case WBEM_E_CLASS_HAS_INSTANCES: throw CIMException(CIM_ERR_CLASS_HAS_INSTANCES); break;
case WBEM_E_NOT_FOUND: throw CIMException(CIM_ERR_NOT_FOUND); break;
case WBEM_E_INVALID_CLASS: throw CIMException(CIM_ERR_INVALID_PARAMETER); break;
default: throw CIMException(CIM_ERR_FAILED, (LPCTSTR)msg);
}
}
PEG_METHOD_EXIT();
return;
}
void CIMPropertyRep::resolve(
DeclContext* declContext,
const CIMNamespaceName& nameSpace,
Boolean isInstancePart,
const CIMConstProperty& inheritedProperty,
Boolean propagateQualifiers)
{
PEGASUS_ASSERT(!inheritedProperty.isUninitialized());
// Check the type:
if (!inheritedProperty.getValue().typeCompatible(_value))
{
if (!(
(inheritedProperty.getValue().getType() == CIMTYPE_OBJECT) &&
(_value.getType() == CIMTYPE_STRING) &&
(_qualifiers.find(PEGASUS_QUALIFIERNAME_EMBEDDEDOBJECT)
!= PEG_NOT_FOUND) &&
(inheritedProperty.getValue().isArray() == _value.isArray())
) &&
!(
(inheritedProperty.getValue().getType() == CIMTYPE_INSTANCE) &&
(_value.getType() == CIMTYPE_STRING) &&
(_qualifiers.find(PEGASUS_QUALIFIERNAME_EMBEDDEDINSTANCE)
!= PEG_NOT_FOUND) &&
(inheritedProperty.getValue().isArray() == _value.isArray())
))
{
throw TypeMismatchException();
}
}
// Validate the qualifiers of the property (according to
// superClass's property with the same name). This method
// will throw an exception if the validation fails.
CIMScope scope = CIMScope::PROPERTY;
if (_value.getType() == CIMTYPE_REFERENCE)
scope = CIMScope::REFERENCE;
// Test the reference class name against the inherited property
if (_value.getType() == CIMTYPE_REFERENCE ||
_value.getType() == CIMTYPE_INSTANCE)
{
CIMName inheritedClassName;
Array<CIMName> classNames;
if (_value.getType() == CIMTYPE_INSTANCE)
{
Uint32 pos = inheritedProperty.findQualifier(
PEGASUS_QUALIFIERNAME_EMBEDDEDINSTANCE);
if (pos != PEG_NOT_FOUND)
{
String qualStr;
inheritedProperty.getQualifier(pos).getValue().get(qualStr);
inheritedClassName = qualStr;
}
if (_value.isArray())
{
Array<CIMInstance> embeddedInstances;
_value.get(embeddedInstances);
for (Uint32 i = 0, n = embeddedInstances.size(); i < n; ++i)
{
classNames.append(embeddedInstances[i].getClassName());
}
}
else
{
CIMInstance embeddedInst;
_value.get(embeddedInst);
classNames.append(embeddedInst.getClassName());
}
}
else
{
CIMName referenceClass;
if (_referenceClassName.isNull())
{
CIMObjectPath reference;
_value.get(reference);
referenceClass = reference.getClassName();
}
else
{
referenceClass = _referenceClassName;
}
inheritedClassName = inheritedProperty.getReferenceClassName();
classNames.append(referenceClass);
}
// This algorithm is friendly to arrays of embedded instances. It
// remembers the class names that are found to be subclasses of the
// inherited class name retrieved from the inherited property. This
// ensures that any branch in the inheritance hierarchy will only be
// traversed once. This provides significant optimization given that
// most elements of an array of embedded instances will probably be of
// very closely related types.
Array<CIMName> successTree;
successTree.append(inheritedClassName);
for (Uint32 i = 0, n = classNames.size(); i < n; ++i)
{
Array<CIMName> traversalHistory;
CIMName currentName = classNames[i];
Boolean found = false;
while (!found && !currentName.isNull())
{
for (Uint32 j = 0, m = successTree.size(); j < m; ++j)
{
if (currentName == successTree[j])
{
found = true;
break;
}
}
if (!found)
{
traversalHistory.append(currentName);
CIMClass currentClass = declContext->lookupClass(
nameSpace, currentName);
if (currentClass.isUninitialized())
{
throw PEGASUS_CIM_EXCEPTION(
CIM_ERR_INVALID_PARAMETER, currentName.getString());
}
currentName = currentClass.getSuperClassName();
}
}
if (!found)
{
throw TypeMismatchException();
}
successTree.appendArray(traversalHistory);
}
}
_qualifiers.resolve(
declContext, nameSpace, scope, isInstancePart,
inheritedProperty._rep->_qualifiers, propagateQualifiers);
_classOrigin = inheritedProperty.getClassOrigin();
}
void DefaultInstanceProvider::_copySuperClasses(
CIMClient & client,
const String & nameSpace,
const CIMClass & cimClass,
Array<CIMClass> & superClasses)
{
// get the super class name
CIMName superClassName = cimClass.getSuperClassName();
if (superClassName.isNull())
{
Uint32 numSuperClasses = superClasses.size();
if (numSuperClasses == 0)
{
// No super class, just return
return;
}
// copy the super classes
for (Uint32 i = numSuperClasses; i > 0; i--)
{
// check to see if class already exists
//
CIMClass cimClass;
try
{
cimClass = _repository->getClass(nameSpace,
superClasses[i-1].getClassName());
}
catch (Exception&)
{
//
// Super class does not exist, create the super class
//
try
{
_repository->createClass( nameSpace, superClasses[i-1] );
}
catch( Exception& ex )
{
const String msg = "Create superClass failed. " + ex.getMessage();
throw CIMOperationFailedException( msg );
}
}
}
return;
}
// get the super class
CIMClass superClass;
Boolean localOnly = false;
Boolean includeQualifiers = true;
Boolean includeClassOrigin = false;
try
{
superClass = client.getClass(nameSpace, superClassName,
localOnly, includeQualifiers,
includeClassOrigin);
// add superclass to array
superClasses.append(superClass);
}
catch( Exception& ex )
{
const String msg = "Get Super Class failed. " + ex.getMessage();
throw CIMOperationFailedException( msg );
}
// recursive call. copy superclasses of this class
_copySuperClasses( client, nameSpace, superClass, superClasses);
}
void CIMPropertyRep::resolve(
DeclContext* declContext,
const CIMNamespaceName& nameSpace,
Boolean isInstancePart,
const CIMConstProperty& inheritedProperty,
Boolean propagateQualifiers)
{
PEGASUS_ASSERT(!inheritedProperty.isUninitialized());
// Check the type:
if (!inheritedProperty.getValue().typeCompatible(_value))
{
if (!(
(inheritedProperty.getValue().getType() == CIMTYPE_OBJECT) &&
(_value.getType() == CIMTYPE_STRING) &&
(_qualifiers.find(CIMName("EmbeddedObject")) != PEG_NOT_FOUND) &&
(inheritedProperty.getValue().isArray() == _value.isArray())
))
{
throw TypeMismatchException();
}
}
// Validate the qualifiers of the property (according to
// superClass's property with the same name). This method
// will throw an exception if the validation fails.
CIMScope scope = CIMScope::PROPERTY;
if (_value.getType() == CIMTYPE_REFERENCE)
scope = CIMScope::REFERENCE;
// Test the reference class name against the inherited property
if (_value.getType() == CIMTYPE_REFERENCE)
{
CIMName inheritedReferenceClassName = inheritedProperty.getReferenceClassName();
CIMName referenceClassName;
if(!_referenceClassName.isNull() && !_value.isNull())
{
CIMObjectPath valuePath;
_value.get(valuePath);
referenceClassName = valuePath.getClassName();
bool found = _referenceClassName.equal(referenceClassName);
while(!found)
{
CIMClass referenceClass = declContext->lookupClass(nameSpace, referenceClassName);
if(referenceClass.isUninitialized())
{
throw PEGASUS_CIM_EXCEPTION(
CIM_ERR_NOT_FOUND, referenceClassName.getString());
}
referenceClassName = referenceClass.getSuperClassName();
if(referenceClassName.isNull())
throw TypeMismatchException();
found = inheritedReferenceClassName.equal(referenceClassName);
}
}
else if(!_referenceClassName.isNull())
{
referenceClassName = _referenceClassName;
}
else if(!_value.isNull())
{
CIMObjectPath valuePath;
_value.get(valuePath);
referenceClassName = valuePath.getClassName();
}
if(!referenceClassName.isNull())
{
bool found = inheritedReferenceClassName.equal(referenceClassName);
while(!found)
{
CIMClass referenceClass = declContext->lookupClass(nameSpace, referenceClassName);
if(referenceClass.isUninitialized())
{
throw PEGASUS_CIM_EXCEPTION(
CIM_ERR_NOT_FOUND, referenceClassName.getString());
}
referenceClassName = referenceClass.getSuperClassName();
if(referenceClassName.isNull())
throw TypeMismatchException();
found = inheritedReferenceClassName.equal(referenceClassName);
}
}
}
_qualifiers.resolve(
declContext,
nameSpace,
scope,
isInstancePart,
inheritedProperty._rep->_qualifiers,
propagateQualifiers);
_classOrigin = inheritedProperty.getClassOrigin();
}
