WMIMethod::WMIMethod(const BSTR & name,
const CComPtr<IWbemClassObject>& inParameters,
const CComPtr<IWbemClassObject>& outParameters,
IWbemQualifierSet * pQualifierSet,
Boolean includeQualifiers)
{
CIMQualifierList qualifierList;
CComBSTR bsName = name;
CComVariant vValue = NULL;
CIMTYPE returnValueType;
HRESULT hr;
WMIQualifierSet(pQualifierSet).cloneTo(qualifierList);
// Get method return value
String referenceClass = String::EMPTY;
CComBSTR propertyName = L"ReturnValue";
// modified to correct bug JAGaf25827
// JAGaf25827 - new code begin
if (outParameters)
{
hr = outParameters->Get(
propertyName,
0,
&vValue,
&returnValueType,
NULL);
}
else
{
hr = WBEM_E_NOT_FOUND;
}
// not found. Maybe it is a 'void' return value
if (hr == WBEM_E_NOT_FOUND) {
vValue = NULL;
returnValueType = CIM_UINT32;
}
else if (hr != WBEM_S_NO_ERROR) {
// Error: throw?
throw Exception("WMIMethod::WMIMethod Get ReturnValue Failed.");
}
vValue.Clear();
// the WMI 'CIMTYPE' qualifier stores a string that contains the reference
// class name cimtype_qualifier ::= ["ref:" + <reference_class_name>]
// NOTE: CIMMethod does not seem to store the reference class anywhere,
// but it seems like it should, so this code is here in case a reference
// class member is ever added to the CIMMethod class in the future:
if (CIM_REFERENCE == returnValueType)
{
// strip "ref:"
Uint32 pos = qualifierList.find(CIMName("CIMTYPE"));
if (PEG_NOT_FOUND != pos)
{
qualifierList.getQualifier(pos).getValue().get(referenceClass);
//strip off "ref:" or, if not found, erase the whole string
if ((pos = referenceClass.find(qString(Q_COLON))) != PEG_NOT_FOUND)
{
referenceClass.remove(0, pos + 1);
}
}
}
String classOrigin = String::EMPTY;
// the 'Propagated" qualifier stores a string containing the class origin
// propagated qualifier ::= [<class_origin>"."]<method_name>
{
Uint32 pos = qualifierList.find(CIMName("Propagated"));
if (PEG_NOT_FOUND != pos)
{
qualifierList.getQualifier(pos).getValue().get(classOrigin);
// strip on the ".<method_name> portion if there...
if ((pos = classOrigin.find(".")) != PEG_NOT_FOUND)
{
classOrigin.remove(pos);
}
}
}
// NOTE: Currently no mapping of WMI "object" types, so this could
// throw if the param is of type "object" or other un-supported
// WMI type:
CIMType cimType;
try
{
cimType = WMITypeToCIMType(returnValueType);
}
catch (TypeMismatchException tme)
{
// Don't want method enumeration to fail, just because
// we don't handle the type, so making this type "reference"
// for now and making the reference class name "UNKNOWN_TYPE":
cimType = CIMTYPE_REFERENCE;
referenceClass = "UNKNOWN_TYPE";
}
// Build the method
CIMName cimRef;
CIMName cimClsOrigin;
BSTR tmpBstr = (BSTR)bsName.Copy();
String s(_bstr_t(tmpBstr, FALSE));
SysFreeString(tmpBstr);
bsName.Empty();
if (0 != referenceClass.size())
{
cimRef = referenceClass;
}
if (0 != classOrigin.size())
{
cimClsOrigin = classOrigin;
}
*this = CIMMethod(
CIMName(s),
cimType,
cimClsOrigin,
(classOrigin.size() != 0));
// Add the qualifiers
if (includeQualifiers)
{
Uint32 i, n;
for (i = 0, n = qualifierList.getCount(); i < n; i++)
{
addQualifier(qualifierList.getQualifier(i));
}
}
// Enumerate the parameters of the WMI method in and out classes here,
// adding them to the CIMMethos as appropriate.
// NOTE: In WMI parameters method parameters are defined as in, out, or
// both, meaning that they cold show up in both the inParameters and
// outParameters lists. The addWMIParametersToCIMMethod() function will
// check for the existing parameters by name, and will not attempt to
// re-add any existing params (there is no need, since the "in" and "out"
// versions of an in/out param are simply identical copies)
addWMIParametersToCIMMethod(outParameters, *this, includeQualifiers);
addWMIParametersToCIMMethod(inParameters, *this, includeQualifiers);
}
////////////////////////////////////////////////////////////////
//
// cimParamFromWMIParam
//
///////////////////////////////////////////////////////////////
CIMParameter cimParamFromWMIParam(
const String& strParamName,
CIMTYPE wmiType,
const CComPtr<IWbemQualifierSet>& pQualifiers,
Boolean includeQualifiers)
{
// Need to convert the qualifiers, even if includeQualifiers is FALSE
// still need to get "in" and "out", as a min
CIMQualifierList qualifierList;
if (pQualifiers)
{
WMIQualifierSet(pQualifiers).cloneTo(qualifierList);
}
// Check for a reference type, and get the reference class if necessary:
String referenceClass = String::EMPTY;
if (CIM_REFERENCE == wmiType)
{
// strip "ref:"
Uint32 pos = qualifierList.find(CIMName("CIMTYPE"));
if (PEG_NOT_FOUND != pos)
{
qualifierList.getQualifier(pos).getValue().get(referenceClass);
//strip off "ref:" or, if not found, erase the whole string
if ((pos = referenceClass.find(qString(Q_COLON))) != PEG_NOT_FOUND)
{
referenceClass.remove(0, pos + 1);
}
}
}
CIMName refClassName;
if (0 != referenceClass.size())
{
refClassName = referenceClass;
}
// Check for Array type, and get the array size, if necessary:
Boolean isArray = false;
Uint32 arraySize = 0;
if (wmiType & CIM_FLAG_ARRAY)
{
isArray = true;
// If there is a MAX qualifier on this array, use it as the size:
Uint32 pos = qualifierList.find(CIMName("MAX"));
if (PEG_NOT_FOUND != pos)
{
qualifierList.getQualifier(pos).getValue().get(arraySize);
}
// remove the array flag from the type to get the base type:
wmiType &= ~CIM_FLAG_ARRAY;
}
// NOTE: Currently no mapping of WMI "object" types, so this could
// throw if the param is of type "object" or other un-supported
// WMI type:
CIMType cimType;
try
{
cimType = WMITypeToCIMType(wmiType);
}
catch (TypeMismatchException tme)
{
// Don't want method enumeration to fail, just because
// we don't handle the type, so making this type "reference"
// for now and making the reference class name "UNKNOWN_TYPE":
cimType = CIMTYPE_REFERENCE;
refClassName = CIMName("UNKNOWN_TYPE");
}
// Build the CIMParameter:
CIMParameter cimParam = CIMParameter(strParamName,
cimType,
isArray,
arraySize,
refClassName);
// Now, add the parameter's qualifiers ("in" and "out" as a minimum):
addQualifiersToCIMParameter(qualifierList, cimParam, includeQualifiers);
// Finally, return the newly created CIMParameter:
return cimParam;
}
WMIProperty::WMIProperty(const BSTR & name,
const VARIANT & value,
const CIMTYPE type,
IWbemQualifierSet * pQualifierSet,
Boolean includeQualifiers)
{
CIMQualifierList qualifierList;
CComBSTR bsName = name;
CComVariant vValue = value;
qualifierList = WMIQualifierSet(pQualifierSet);
// get additional property information
String referenceClass = String::EMPTY;
// the WMI 'CIMTYPE' qualifier stores a string that contains the reference class name
// cimtype_qualifier ::= ["ref:" + <reference_class_name>]
if (CIM_REFERENCE == type)
{
// strip "ref:"
Uint32 pos = qualifierList.find(CIMName("CIMTYPE"));
if (PEG_NOT_FOUND != pos)
{
qualifierList.getQualifier(pos).getValue().get(referenceClass);
//strip off "ref:" or, if not found, erase the whole string
if ((pos = referenceClass.find(qString(Q_COLON))) != PEG_NOT_FOUND)
{
referenceClass.remove(0, pos + 1);
}
}
}
String classOrigin = String::EMPTY;
// the 'Propagated" qualifier stores a string containing the class origin
// propagated qualifier ::= [<class_origin>"."]<property_name>
{
Uint32 pos = qualifierList.find(CIMName("Propagated"));
if (PEG_NOT_FOUND != pos)
{
qualifierList.getQualifier(pos).getValue().get(classOrigin);
// strip on the ".<property_name> portion if there...
if ((pos = classOrigin.find(".")) != PEG_NOT_FOUND)
{
classOrigin.remove(pos);
}
}
}
// build the property
BSTR tmpBstr = (BSTR)bsName.Copy();
String s(_bstr_t(tmpBstr, FALSE));
SysFreeString(tmpBstr);
// old way -- memory leak?:
// String s = WMIString(bsName);
CIMName cimRef;
CIMName cimClsOrigin;
if (0 != referenceClass.size())
{
cimRef = referenceClass;
}
if (0 != classOrigin.size())
{
cimClsOrigin = classOrigin;
}
*this = CIMProperty(CIMName(s), WMIValue(vValue, type), 0, cimRef,
cimClsOrigin, (classOrigin.size() != 0));
vValue.Clear();
// add the qualifiers
if (includeQualifiers)
{
Uint32 i, n;
for (i = 0, n = qualifierList.getCount(); i < n; i++)
{
addQualifier(qualifierList.getQualifier(i));
}
}
}
