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windows-server-2003/sdktools/pdh/wbemperf/classmap.cpp

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//***************************************************************************
//
// Copyright (c) Microsoft Corporation. All rights reserved.
//
// CLASSMAP.CPP
//
// Mapped NT5 Perf Counter Provider
//
// raymcc 02-Dec-97 Created.
// raymcc 20-Feb-98 Updated to use new initializer.
// bobw 8-Jub-98 optimized for use with NT Perf counters
//
//***************************************************************************
#include <wpheader.h>
#include "oahelp.inl"
//***************************************************************************
//
// CClassMapInfo::CClassMapInfo()
//
// The objective of the map is to have one instance for each CIM class.
// Internally, a map of perf object ids to CIM property handles is maintained
// for the class.
//
// Later, when instances are requested, the blob is retrieved from
// HKEY_PERFORMANCE_DATA, and the object IDs in the blob are used to
// look up the property handles, which are then used to populate instances.
//
// Property names are never really used except in the mapping phase.
//
//***************************************************************************
// ok
CClassMapInfo::CClassMapInfo()
{
m_pClassDef = 0; // The CIM class definition
m_pszClassName = 0; // The UNICODE class name
m_dwObjectId = 0; // Perf object Id
m_bSingleton = FALSE;
m_bCostly = FALSE;
m_dwNumProps = 0; // Number of props in class, size
// of the following arrays
m_lRefCount = 0; // nothing mapped yet
// These are pointers to parallel arrays, all of the same
// size (m_dwNumProps)
// ============================================================
m_pdwIDs = 0; // IDs of properties
m_pdwHandles = 0; // Handles to properties
m_pdwTypes = 0; // Types of properties
m_dwNameHandle = 0; // The 'Name' property
m_dwPerfTimeStampHandle = 0; // the Perf time TimeStamp property
m_dw100NsTimeStampHandle = 0; // the 100 Ns Perf TimeStamp property
m_dwObjectTimeStampHandle = 0; // the Object TimeStamp property
m_dwPerfFrequencyHandle = 0; // the Perf time frequency property
m_dw100NsFrequencyHandle = 0; // the 100 Ns Perf frequency property
m_dwObjectFrequencyHandle = 0; // the Object frequency property
}
//***************************************************************************
//
// CClassMapInfo::~CClassMapInfo
//
//***************************************************************************
// ok
CClassMapInfo::~CClassMapInfo()
{
// this can be destructed only if it's the last item referencing it.
// if there's another reference to this class, it should have been
// released before the destructor was called.
assert (m_lRefCount <= 1);
if (m_pClassDef)
m_pClassDef->Release();
if (m_pszClassName != NULL) { delete [] m_pszClassName; m_pszClassName = NULL;}
if (m_pdwIDs != NULL) { delete [] m_pdwIDs; m_pdwIDs = NULL; }
if (m_pdwHandles != NULL) { delete [] m_pdwHandles; m_pdwHandles = NULL; }
if (m_pdwTypes != NULL) { delete [] m_pdwTypes; m_pdwTypes = NULL; }
}
//***************************************************************************
//
// CClassMapInfo::Copy(CClassMapInfo *pClassMap)
//
// allocates an new Class Map entry and copies the data from the
// class map passed into it and returns a pointer to the duplicate entry
//
//
//***************************************************************************
// ok
CClassMapInfo * CClassMapInfo::CreateDuplicate()
{
CClassMapInfo *pOrigClassMap = this;
CClassMapInfo *pNewClassMap = NULL;
DWORD i;
pNewClassMap = new CClassMapInfo;
if (pNewClassMap != NULL) {
pNewClassMap->m_pClassDef = pOrigClassMap->m_pClassDef;
pNewClassMap->m_pClassDef->AddRef();
if (pOrigClassMap->m_pszClassName != NULL) {
size_t cchSize = lstrlenW(pOrigClassMap->m_pszClassName)+1;
pNewClassMap->m_pszClassName =
new WCHAR[cchSize];
if (pNewClassMap->m_pszClassName != NULL) {
StringCchCopyW(pNewClassMap->m_pszClassName, cchSize, pOrigClassMap->m_pszClassName);
pNewClassMap->m_bSingleton = pOrigClassMap->m_bSingleton;
pNewClassMap->m_bCostly = pOrigClassMap->m_bCostly;
pNewClassMap->m_dwObjectId = pOrigClassMap->m_dwObjectId;
pNewClassMap->m_lRefCount = 1;
pNewClassMap->m_dwNameHandle = pOrigClassMap->m_dwNameHandle;
pNewClassMap->m_dwPerfTimeStampHandle = pOrigClassMap->m_dwPerfTimeStampHandle;
pNewClassMap->m_dw100NsTimeStampHandle = pOrigClassMap->m_dw100NsTimeStampHandle;
pNewClassMap->m_dwObjectTimeStampHandle = pOrigClassMap->m_dwObjectTimeStampHandle;
pNewClassMap->m_dwPerfFrequencyHandle = pOrigClassMap->m_dwPerfFrequencyHandle;
pNewClassMap->m_dw100NsFrequencyHandle = pOrigClassMap->m_dw100NsFrequencyHandle;
pNewClassMap->m_dwObjectFrequencyHandle = pOrigClassMap->m_dwObjectFrequencyHandle;
pNewClassMap->m_dwNumProps = pOrigClassMap->m_dwNumProps;
pNewClassMap->m_pdwIDs = new PerfObjectId[pNewClassMap->m_dwNumProps];
pNewClassMap->m_pdwHandles = new DWORD[pNewClassMap->m_dwNumProps];
pNewClassMap->m_pdwTypes = new DWORD[pNewClassMap->m_dwNumProps];
if ((pNewClassMap->m_pdwIDs != NULL) &&
(pNewClassMap->m_pdwHandles != NULL) &&
(pNewClassMap->m_pdwTypes != NULL)) {
// copy each table to the new object
for (i = 0; i < pNewClassMap->m_dwNumProps; i++) {
pNewClassMap->m_pdwIDs[i] = pOrigClassMap->m_pdwIDs[i];
pNewClassMap->m_pdwHandles[i] = pOrigClassMap->m_pdwHandles[i];
pNewClassMap->m_pdwTypes[i] = pOrigClassMap->m_pdwTypes[i];
}
}
else {
delete pNewClassMap;
pNewClassMap = NULL;
}
} else {
delete pNewClassMap;
pNewClassMap = NULL;
}
}
}
return pNewClassMap;
}
//***************************************************************************
//
// CClassMapInfo::Map()
//
// Maps the inbound class definition by:
//
// (1) Retrieving the perf object id from the class definition.
// (2) Retrieving the property handles, perf ids, and types for each
// property.
//
//
//***************************************************************************
// ok
BOOL CClassMapInfo::Map(IWbemClassObject *pObj)
{
int nIndex = 0;
IWbemObjectAccess *pAlias = 0;
IWbemQualifierSet *pQSet = 0;
HRESULT hRes;
VARIANT vPropertyCount;
VARIANT vClsName;
VARIANT vPerfObjType;
VARIANT vSingleton;
VARIANT vCostly;
VARIANT vCounter;
VARIANT vCounterType;
CBSTR cbPerfIndex(cszPerfIndex);
CBSTR cbCountertype(cszCountertype);
CBSTR cbPropertyCount(cszPropertyCount);
CBSTR cbClassName(cszClassName);
CBSTR cbSingleton(cszSingleton);
CBSTR cbCostly(cszCostly);
BOOL bReturn = TRUE;
VariantInit(&vPropertyCount);
VariantInit(&vClsName);
VariantInit(&vPerfObjType);
VariantInit(&vSingleton);
VariantInit(&vCostly);
VariantInit(&vCounter);
VariantInit(&vCounterType);
if( NULL == (BSTR)cbPerfIndex ||
NULL == (BSTR)cbCountertype ||
NULL == (BSTR)cbPropertyCount ||
NULL == (BSTR)cbClassName ||
NULL == (BSTR)cbSingleton ||
NULL == (BSTR)cbCostly ){
return FALSE;
}
// Copy the class definition.
// ==========================
m_pClassDef = pObj;
//m_pClassDef->AddRef(); // this is unnecessary
m_lRefCount++; // bump our ref count
// Get the alternate interface so that we can look up handles.
// ===========================================================
hRes = pObj->QueryInterface(IID_IWbemObjectAccess, (LPVOID *) &pAlias);
if (hRes) {
bReturn = FALSE;
}
// Determine the number of properties and allocate
// arrays to hold the handles, perf ids, and types.
// ================================================
if (bReturn) {
hRes = pObj->Get( cbPropertyCount, 0, &vPropertyCount, 0, 0);
if (hRes == NO_ERROR) {
m_dwNumProps = DWORD(V_UI4(&vPropertyCount));
} else {
bReturn = FALSE;
}
VariantClear(&vPropertyCount);
}
// allocate the table of the handles and id's
if (bReturn) {
m_pdwHandles = new DWORD[m_dwNumProps];
assert (m_pdwHandles != NULL);
m_pdwIDs = new PerfObjectId[m_dwNumProps];
assert (m_pdwIDs != NULL);
m_pdwTypes = new DWORD[m_dwNumProps];
assert (m_pdwTypes != NULL);
// check the memory allocations
if ((m_pdwHandles == NULL) ||
(m_pdwIDs == NULL) ||
(m_pdwTypes == NULL)) {
bReturn = FALSE;
}
}
// Clone the class name.
// =====================
if (bReturn) {
hRes = pObj->Get( cbClassName, 0, &vClsName, 0, 0);
if ((hRes == NO_ERROR) && (vClsName.vt == VT_BSTR)) {
m_pszClassName = Macro_CloneLPWSTR(V_BSTR(&vClsName));
if (m_pszClassName == NULL) bReturn = FALSE;
} else {
bReturn = FALSE;
}
VariantClear (&vClsName);
}
// Get the perf object id for the class.
// =====================================
if (bReturn) {
hRes = pObj->GetQualifierSet(&pQSet);
if (hRes == NO_ERROR) {
hRes = pQSet->Get(cbPerfIndex, 0, &vPerfObjType, 0);
if (hRes == NO_ERROR) {
m_dwObjectId = DWORD(V_UI4(&vPerfObjType));
} else {
bReturn = FALSE;
}
VariantClear(&vPerfObjType);
hRes = pQSet->Get( cbSingleton, 0, &vSingleton, 0);
if (hRes == 0) {
m_bSingleton = TRUE;
}
VariantClear (&vSingleton);
hRes = pQSet->Get( cbCostly, 0, &vCostly, 0);
if ((hRes == 0) && (vCostly.vt == VT_BSTR)) {
m_bCostly= TRUE;
}
VariantClear (&vCostly);
pQSet->Release();
} else {
bReturn = FALSE;
}
}
// Enumerate all the properties and get the object ids
// and handles for each.
// ===================================================
hRes = pObj->BeginEnumeration(WBEM_FLAG_NONSYSTEM_ONLY);
if (hRes == NO_ERROR) {
// enumeration handle obtained so
// continue and cache each property
while (bReturn) {
BSTR Name = 0;
DWORD dwCtrId;
DWORD dwCtrType;
IWbemQualifierSet *pQSet = 0;
LONG lType = 0;
LONG lHandle = 0;
hRes = pObj->Next(
0,
&Name,
0,
0,
0
);
if (hRes == WBEM_S_NO_MORE_DATA) {
break;
}
// Next, get the qualifier set for this property.
// ==============================================
hRes = pObj->GetPropertyQualifierSet(Name, &pQSet);
if (hRes == NO_ERROR) {
hRes = pQSet->Get(cbPerfIndex, 0, &vCounter, 0);
if (hRes == S_OK) {
dwCtrId = (DWORD)V_UI4(&vCounter);
} else {
// unable to read qualifier value
dwCtrId = 0;
}
VariantClear (&vCounter);
hRes = pQSet->Get(cbCountertype, 0, &vCounterType, 0);
if (hRes == S_OK) {
dwCtrType = (DWORD)V_UI4(&vCounterType);
} else {
// unable to read qualifier value
dwCtrType = 0;
}
VariantClear (&vCounterType);
// done with the qualifier set
pQSet->Release();
// Get the property handle and type.
// =================================
hRes = pAlias->GetPropertyHandle(Name, &lType, &lHandle);
if (hRes == NO_ERROR && nIndex < (int)m_dwNumProps ) {
// We now know the counter id, the property handle and its
// type. That is all we really need at runtime to map
// blobs into CIM object.
// =======================================================
m_pdwIDs[nIndex] = CM_MAKE_PerfObjectId (dwCtrId, dwCtrType);
m_pdwHandles[nIndex] = (DWORD) lHandle;
m_pdwTypes[nIndex] = (DWORD) lType;
// this property was loaded successfully so
// advance to the next index
nIndex++;
} else {
// no property handle returned so skip it.
}
} else {
// skip this object since it doesn't have
// a qualifier set
}
// Free the name.
// ==============
SysFreeString(Name);
}
pObj->EndEnumeration();
} else {
// unable to get enumeration handle
bReturn = FALSE;
}
// Get the handle of the 'name' property.
// ======================================
if (bReturn) {
if (!m_bSingleton) {
// only non-singleton classes have this property
pAlias->GetPropertyHandle((LPWSTR)cszName, 0, (LONG *) &m_dwNameHandle);
}
// Get the handle of the "timestamp" properties
pAlias->GetPropertyHandle((LPWSTR)cszTimestampPerfTime, 0, (LONG *) &m_dwPerfTimeStampHandle);
pAlias->GetPropertyHandle((LPWSTR)cszFrequencyPerfTime, 0, (LONG *) &m_dwPerfFrequencyHandle);
pAlias->GetPropertyHandle((LPWSTR)cszTimestampSys100Ns, 0, (LONG *) &m_dw100NsTimeStampHandle);
pAlias->GetPropertyHandle((LPWSTR)cszFrequencySys100Ns, 0, (LONG *) &m_dw100NsFrequencyHandle);
pAlias->GetPropertyHandle((LPWSTR)cszTimestampObject, 0, (LONG *) &m_dwObjectTimeStampHandle);
pAlias->GetPropertyHandle((LPWSTR)cszFrequencyObject, 0, (LONG *) &m_dwObjectFrequencyHandle);
// Cleanup.
// ========
SortHandles();
}
if (pAlias != NULL) pAlias->Release();
return bReturn;
}
//***************************************************************************
//
// CClassMapInfo::SortHandles
//
// Sort the perf object ids for quick searching later in the GetPropHandle
// method.
//
//***************************************************************************
// ok
void CClassMapInfo::SortHandles()
{
DWORD dwOuter;
DWORD dwInner;
DWORD dwTemp;
PerfObjectId poiTemp;
// Simple selection sort. The number of elements is so small
// and this is only done once, so a quicksort / shellsort would be
// overkill.
// ===============================================================
for (dwOuter = 0; dwOuter < m_dwNumProps - 1; dwOuter++)
{
for (dwInner = dwOuter + 1; dwInner < m_dwNumProps; dwInner++)
{
if (m_pdwIDs[dwInner] < m_pdwIDs[dwOuter])
{
poiTemp = m_pdwIDs[dwInner];
m_pdwIDs[dwInner] = m_pdwIDs[dwOuter];
m_pdwIDs[dwOuter] = poiTemp;
dwTemp = m_pdwHandles[dwInner];
m_pdwHandles[dwInner] = m_pdwHandles[dwOuter];
m_pdwHandles[dwOuter] = dwTemp;
dwTemp = m_pdwTypes[dwInner];
m_pdwTypes[dwInner] = m_pdwTypes[dwOuter];
m_pdwTypes[dwOuter] = dwTemp;
}
}
}
}
//***************************************************************************
//
// CClassMapInfo::GetPropHandle
//
// Gets the property handle for a corresponding perf counter id.
// Returns 0 if not found.
//
//***************************************************************************
// ok
LONG CClassMapInfo::GetPropHandle(PerfObjectId dwId)
{
// Binary search.
// ==============
LONG l;
LONG u;
LONG m;
LONG lReturn = 0;
if (m_dwNumProps > 0) {
l = 0;
u = m_dwNumProps - 1;
while (l <= u)
{
m = (l + u) / 2;
if (dwId < m_pdwIDs[m]) {
u = m - 1;
} else if (dwId > m_pdwIDs[m]) {
l = m + 1;
} else { // Hit!
lReturn = m_pdwHandles[m];
break;
}
}
} else {
// no entries so return 0;
}
return lReturn;
}