windows-nt/Source/XPSP1/NT/admin/hmonitor/hmagent/pgde.cpp

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2020-09-26 03:20:57 -05:00
//***************************************************************************
//
// PGDE.CPP
//
// Module: HEALTHMON SERVER AGENT
//
// Purpose: CPolledGetObjectDataCollector class to do WMI instance collection.
//
// Copyright (c)1999 Microsoft Corporation, All Rights Reserved
//
//***************************************************************************
#include "pgde.h"
#include "system.h"
extern CSystem* g_pSystem;
//////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////
// Construction/Destruction
//////////////////////////////////////////////////////////////////////
CPolledGetObjectDataCollector::CPolledGetObjectDataCollector()
{
MY_OUTPUT(L"ENTER ***** CPolledGetObjectDataCollector...", 1);
m_pRefresher = NULL;
m_pConfigureRefresher = NULL;
m_pEnum = NULL;
m_pObjAccess = NULL;
m_lId = 0;
m_szObjectPath = NULL;
m_deType = HM_PGDE;
m_lNumInstancesCollected = 0;
m_pEnumObjs = NULL;
m_pCallResult = NULL;
MY_OUTPUT(L"EXIT ***** CPolledGetObjectDataCollector...", 1);
}
CPolledGetObjectDataCollector::~CPolledGetObjectDataCollector()
{
MY_OUTPUT(L"ENTER ***** ~CPolledGetObjectDataCollector...", 1);
if (m_szObjectPath)
{
delete [] m_szObjectPath;
}
if (m_pRefresher != NULL)
{
m_pRefresher->Release();
m_pRefresher = NULL;
}
if (m_pConfigureRefresher != NULL)
{
m_pConfigureRefresher->Release();
m_pConfigureRefresher = NULL;
}
if (m_pEnum != NULL)
{
m_pEnum->Release();
m_pEnum = NULL;
}
if (m_pObjAccess != NULL)
{
m_pObjAccess->Release();
m_pObjAccess = NULL;
}
EnumDone();
MY_OUTPUT(L"EXIT ***** ~CPolledGetObjectDataCollector...", 1);
}
//
// Load a single DataCollector, and everything under it.
//
HRESULT CPolledGetObjectDataCollector::LoadInstanceFromMOF(IWbemClassObject* pObj, CDataGroup *pParentDG, LPTSTR pszParentObjPath, BOOL bModifyPass/*FALSE*/)
{
HRESULT hRes;
IWbemClassObject* pConfigObj = NULL;
BOOL bRetValue = TRUE;
HRESULT hRetRes = S_OK;
int i, iSize;
CThreshold* pThreshold;
MY_OUTPUT(L"ENTER ***** CPolledGetObjectDataCollector::LoadInstanceFromMOF...", 4);
iSize = m_thresholdList.size();
for (i = 0; i < iSize ; i++)
{
MY_ASSERT(i<m_thresholdList.size());
pThreshold = m_thresholdList[i];
if (pThreshold->m_bValidLoad == FALSE)
return WBEM_E_INVALID_OBJECT;
// return S_OK;
}
if (m_szObjectPath)
{
delete [] m_szObjectPath;
m_szObjectPath = NULL;
}
m_lNumInstancesCollected = 0;
//
// Call the base class to load the common properties. Then do the specific ones.
//
hRetRes = CDataCollector::LoadInstanceFromMOF(pObj, pParentDG, pszParentObjPath, bModifyPass);
MY_HRESASSERT(hRetRes); if (hRetRes!=S_OK) return hRetRes;
// Get the GUID property
hRetRes = GetStrProperty(pObj, L"ObjectPath", &m_szObjectPath);
MY_HRESASSERT(hRetRes); if (hRetRes!=S_OK) goto error;
// Decide if the path sets us up for multiple instances
if (wcschr(m_szObjectPath, L'='))
{
m_bMultiInstance = FALSE;
}
else
{
m_bMultiInstance = TRUE;
}
//
// Check to see if the High Performance interfaces are supported
// Otherwise we just revert to less efficient WMI interfaces
//
hRes = E_UNEXPECTED;
if (SUCCEEDED(hRes))
{
}
else
{
m_pRefresher = NULL;
bRetValue = FALSE;
}
if (bModifyPass)
{
}
MY_OUTPUT(L"EXIT ***** CPolledGetObjectDataCollector::LoadInstanceFromMOF...", 4);
return S_OK;
error:
MY_ASSERT(FALSE);
m_bValidLoad = FALSE;
Cleanup(FALSE);
return hRetRes;
}
//
// Get the instance out of WMI, and store all the properties we care about.
// Also calculate statistics for them.
//
BOOL CPolledGetObjectDataCollector::CollectInstance(void)
{
BSTR bstrName = NULL;
TCHAR szTemp[1024];
HRESULT hRes;
IWbemClassObject *pObj = NULL;
BOOL bRetValue = TRUE;
PNSTRUCT *ppn;
INSTSTRUCT inst;
INSTSTRUCT *pinst;
int i, j, iSize, jSize;
SAFEARRAY *psaNames = NULL;
BSTR PropName = NULL;
CThreshold *pThreshold;
IRSSTRUCT *pirs;
ACTUALINSTSTRUCT *pActualInst;
MY_OUTPUT(L"ENTER ***** CPolledGetObjectDataCollector::CollectInstance...", 1);
m_lNumInstancesCollected = 0;
if (m_pIWbemServices == NULL)
{
//XXX m_lCurrState = HM_CRITICAL;
MY_ASSERT(FALSE);
m_ulErrorCode = HMRES_BADWMI;
GetLatestAgentError(HMRES_BADWMI, m_szErrorDescription);
StoreStandardProperties();
return FALSE;
}
//
// First we can tell if this is going to be single instance, or multi-instance
//
//XXXCould split this out into four functions that call from here.
if (m_bMultiInstance==TRUE)
{
//XXXNeed to change this to be asyncronous???
//
// MULTI-INSTANCE CASE
//
//
// Check to see if the High Performance interfaces are supported
//
if (m_pRefresher!=NULL)
{
// Ask for the refresh
#ifdef SAVE
hRes = m_pRefresher->Refresh(0L);
if (FAILED(hRes))
{
}
#endif
// Now get the instance
}
else
{
//
// We get an instance at a time, so we can set all to not needed first,
// then go through them, do StoreValues... and delete what is not needed.
//
//
// Mark each instance, so we can tell if we still need them.
//
iSize = m_pnList.size();
for (i = 0; i < iSize ; i++)
{
MY_ASSERT(i<m_pnList.size());
ppn = &m_pnList[i];
jSize = ppn->instList.size();
for (j = 0; j < jSize ; j++)
{
MY_ASSERT(j<ppn->instList.size());
pinst = &ppn->instList[j];
pinst->bNeeded = FALSE;
}
}
// Also for all thresholds under this DataCollector
iSize = m_thresholdList.size();
for (i = 0; i < iSize; i++)
{
MY_ASSERT(i<m_thresholdList.size());
pThreshold = m_thresholdList[i];
jSize = pThreshold->m_irsList.size();
for (j = 0; j < jSize; j++)
{
MY_ASSERT(j<pThreshold->m_irsList.size());
pirs = &pThreshold->m_irsList[j];
pirs->bNeeded = FALSE;
}
}
iSize = m_actualInstList.size();
for (i=0; i < iSize; i++)
{
MY_ASSERT(i<m_actualInstList.size());
pActualInst = &m_actualInstList[i];
pActualInst->bNeeded = FALSE;
}
//
// Enumerate through the instances
//
bstrName = SysAllocString(m_szObjectPath);
m_pEnumObjs = NULL;
hRes = m_pIWbemServices->CreateInstanceEnum(bstrName,
WBEM_FLAG_SHALLOW|WBEM_FLAG_FORWARD_ONLY|WBEM_FLAG_RETURN_IMMEDIATELY, NULL,
&m_pEnumObjs);
if (hRes != S_OK)
{
m_ulErrorCode = hRes;
GetLatestWMIError(HMRES_OBJECTNOTFOUND, hRes, m_szErrorDescription);
StoreStandardProperties();
bRetValue = FALSE;
MY_HRESASSERT(hRes);
MY_OUTPUT2(L"PGDE-Unexpected Error: 0x%08x",hRes,4);
MY_OUTPUT2(L"m_szGUID was=%s",m_szGUID,4);
MY_OUTPUT2(L"bstrName was=%s",bstrName,4);
MY_OUTPUT2(L"CreateInstanceEnum(%s)",m_szObjectPath,4);
}
else
{
m_bKeepCollectingSemiSync = TRUE;
bRetValue = CollectInstanceSemiSync();
}
SysFreeString(bstrName);
}
}
else
{
//!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
//XXX
//XXX
//XXX
//We should just always use the multi-instance code, and delete this code.
//The multi-instance code will still work in the single instance case!!!!!
//XXX
//XXX
//XXX
//!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
//
// SINGLE INSTANCE CASE
//
//
// Check to see if the High Performance interfaces are supported
//
if (m_pRefresher!=NULL)
{
// Ask for the refresh
#ifdef SAVE
hRes = m_pRefresher->Refresh(0L);
if (FAILED(hRes))
{
}
#endif
// Now get the instances
}
else
{
//
// Mark each instance, so we can tell if we still need them.
//
iSize = m_pnList.size();
for (i = 0; i < iSize ; i++)
{
MY_ASSERT(i<m_pnList.size());
ppn = &m_pnList[i];
jSize = ppn->instList.size();
for (j = 0; j < jSize ; j++)
{
MY_ASSERT(j<ppn->instList.size());
pinst = &ppn->instList[j];
pinst->bNeeded = FALSE;
}
}
// Also for all thresholds under this DataCollector
iSize = m_thresholdList.size();
for (i = 0; i < iSize; i++)
{
MY_ASSERT(i<m_thresholdList.size());
pThreshold = m_thresholdList[i];
jSize = pThreshold->m_irsList.size();
for (j = 0; j < jSize; j++)
{
MY_ASSERT(j<pThreshold->m_irsList.size());
pirs = &pThreshold->m_irsList[j];
pirs->bNeeded = FALSE;
}
}
iSize = m_actualInstList.size();
for (i=0; i < iSize; i++)
{
MY_ASSERT(i<m_actualInstList.size());
pActualInst = &m_actualInstList[i];
pActualInst->bNeeded = FALSE;
}
//
// This is the single instance, NON-HighPerformance case
//
swprintf(szTemp, L"%s", m_szObjectPath);
hRes = GetWbemObjectInstSemiSync(&m_pIWbemServices, szTemp, m_pContext, &m_pCallResult);
if (hRes != S_OK || m_pCallResult == NULL)
{
m_ulErrorCode = hRes;
GetLatestWMIError(HMRES_OBJECTNOTFOUND, hRes, m_szErrorDescription);
StoreStandardProperties();
bRetValue = FALSE;
MY_HRESASSERT(hRes);
MY_OUTPUT2(L"PGDE-Unexpected Error: 0x%08x",hRes,4);
MY_OUTPUT2(L"m_szGUID was=%s",m_szGUID,4);
MY_OUTPUT2(L"CreateWbemObjectInstSemiSync(%s)",m_szObjectPath,4);
}
else
{
m_bKeepCollectingSemiSync = TRUE;
bRetValue = CollectInstanceSemiSync();
}
}
}
MY_OUTPUT(L"EXIT ***** CPolledGetObjectDataCollector::CollectInstance...", 1);
return bRetValue;
}
BOOL CPolledGetObjectDataCollector::CollectInstanceSemiSync(void)
{
LPTSTR pszID = NULL;
HRESULT hRes;
IWbemClassObject *pObj;
IWbemClassObject *apObj[10];
INSTSTRUCT inst;
long lStatus;
ULONG uReturned = 0;
MY_OUTPUT(L"ENTER ***** CPolledGetObjectDataCollector::CollectInstanceSemiSync...", 1);
if (m_bMultiInstance==TRUE)
{
MY_ASSERT(m_pEnumObjs);
// We never want to block here, so we set it for zero second timeout,
// and have it return immediatly what it has available.
hRes = m_pEnumObjs->Next(0, 10, apObj, &uReturned);
if (hRes == WBEM_S_TIMEDOUT)
{
// Didn't get full list of instances yet.
if (!ProcessObjects(uReturned, apObj))
{
EnumDone();
return FALSE;
}
return FALSE;
}
else if (hRes == WBEM_S_FALSE)
{
//
// Means that we are done. The number returned was less than asked for.
// But we still process what we did recieve to finish it off.
// Add in a fake instance for the number of instances returned.
//
if (!ProcessObjects(uReturned, apObj))
{
EnumDone();
return FALSE;
}
else
{
m_ulErrorCode = 0;
StoreStandardProperties();
EnumDone();
//XXXWhy was this here??? m_lCurrState = HM_GOOD;
return TRUE;
}
}
else if (hRes == WBEM_S_NO_ERROR)
{
// Means that we have an instance, The number returned was what was requested
}
else
{
MY_HRESASSERT(hRes);
MY_OUTPUT2(L"PGDE-Unexpected Error MultiInstance Next(): 0x%08x",hRes,4);
MY_OUTPUT2(L"m_szGUID was=%s",m_szGUID,4);
MY_OUTPUT2(L"ObjectPath was=%s",m_szObjectPath,4);
m_ulErrorCode = hRes;
GetLatestWMIError(HMRES_ENUMFAIL, hRes, m_szErrorDescription);
StoreStandardProperties();
EnumDone();
return FALSE;
}
if (apObj[0] == NULL)
{
//
// NULL in this case can actually happen. An example is where the
// threshold is to see if the SQL Server service is running. If it
// is not even on the machine, then we would get an error looking
// for its instance.
//
m_ulErrorCode = hRes;
GetLatestWMIError(HMRES_OBJECTNOTFOUND, hRes, m_szErrorDescription);
StoreStandardProperties();
EnumDone();
}
else
{
MY_ASSERT(uReturned>=1);
if (!ProcessObjects(uReturned, apObj))
{
EnumDone();
return FALSE;
}
// else
// {
// m_ulErrorCode = 0;
// }
}
}
else
{
MY_ASSERT(m_pCallResult);
lStatus = 0;
//
// Keep trying until we get WBEM_S_NO_ERROR. Then we know the GetObject call has completed.
// hRes will contain the result of the origional GetObject call if needed.
//
hRes = m_pCallResult->GetCallStatus(0, &lStatus);
if (hRes == WBEM_S_TIMEDOUT)
{
return FALSE;
}
else if (hRes == WBEM_S_NO_ERROR)
{
// Means that we are done.
// HOWEVER, we don't know if we ever retrieved any instances!
// This is different from the multi-instance case, because we do
// ask for a single specific instance, and will know below if it is there!
}
else
{
MY_HRESASSERT(hRes);
MY_OUTPUT2(L"PGDE-Unexpected Error SingleInstance GetCallStatus: 0x%08x",hRes,4);
MY_OUTPUT2(L"m_szGUID was=%s",m_szGUID,4);
MY_OUTPUT2(L"ObjectPath was=%s",m_szObjectPath,4);
m_ulErrorCode = hRes;
GetLatestWMIError(HMRES_OBJECTNOTFOUND, hRes, m_szErrorDescription);
StoreStandardProperties();
EnumDone();
return FALSE;
}
//
// This may mean that the call completed, and the object was not found (e.g. bad path).
//
if (lStatus != 0)
{
MY_HRESASSERT(lStatus);
m_ulErrorCode = lStatus;
GetLatestWMIError(HMRES_OBJECTNOTFOUND, lStatus, m_szErrorDescription);
StoreStandardProperties();
EnumDone();
return FALSE;
}
//
// Get the Object finaly.
//
hRes = m_pCallResult->GetResultObject(0, &pObj);
if (pObj == NULL)
{
MY_ASSERT(FALSE);
//
// NULL in this case can actually happen. An example is where the
// threshold is to see if the SQL Server service is running. If it
// is not even on the machine, then we would get an error looking
// for its instance.
//
m_lCurrState = HM_WARNING;
m_ulErrorCode = 0;
EnumDone();
}
else
{
//
// Figure out the key property name to identify instances with.
//
hRes = GetInstanceID(pObj, &pszID);
if (hRes != S_OK)
{
pObj->Release();
m_ulErrorCode = hRes;
GetLatestWMIError(HMRES_OBJECTNOTFOUND, hRes, m_szErrorDescription);
StoreStandardProperties();
EnumDone();
return FALSE;
}
//
// Mark instances need to keep around, and add new ones
//
hRes = CheckInstanceExistance(pObj, pszID);
if (hRes != S_OK)
{
delete [] pszID;
pObj->Release();
m_ulErrorCode = hRes;
GetLatestWMIError(HMRES_OBJECTNOTFOUND, hRes, m_szErrorDescription);
StoreStandardProperties();
EnumDone();
return FALSE;
}
m_lNumInstancesCollected = 1;
StoreValues(pObj, pszID);
delete [] pszID;
pObj->Release();
pObj = NULL;
//
// We are done.
// Add in a fake instance for the number of instances returned.
//
m_ulErrorCode = 0;
StoreStandardProperties();
m_lCurrState = HM_GOOD;
EnumDone();
}
return TRUE;
}
MY_OUTPUT(L"EXIT ***** CPolledGetObjectDataCollector::CollectInstanceSemiSync...", 1);
return FALSE;
}
BOOL CPolledGetObjectDataCollector::ProcessObjects(ULONG uReturned, IWbemClassObject **apObj)
{
HRESULT hRes;
LPTSTR pszID;
ULONG n;
BOOL bRetValue = TRUE;
for (n = 0; n < uReturned; n++)
{
if (g_pSystem->m_lNumInstancesAccepted <m_lNumInstancesCollected)
{
m_ulErrorCode = HMRES_TOOMANYINSTS;
GetLatestAgentError(HMRES_TOOMANYINSTS, m_szErrorDescription);
StoreStandardProperties();
bRetValue = FALSE;
break;
}
//Why does the above cause ASSERT on 1151 of Threshold.cpp???
//
// Figure out the key property name to identify instances with.
//
hRes = GetInstanceID(apObj[n], &pszID);
if (hRes != S_OK)
{
m_ulErrorCode = hRes;
GetLatestWMIError(HMRES_OBJECTNOTFOUND, hRes, m_szErrorDescription);
StoreStandardProperties();
bRetValue = FALSE;
break;
}
//
// Special case to throw out the "_Total" instance in the multi-instance case
//
if (!_wcsicmp(pszID, L"_total"))
{
delete [] pszID;
continue;
}
//
// Mark instances need to keep around, and add new ones
//
hRes = CheckInstanceExistance(apObj[n], pszID);
if (hRes != S_OK)
{
delete [] pszID;
m_ulErrorCode = hRes;
GetLatestWMIError(HMRES_OBJECTNOTFOUND, hRes, m_szErrorDescription);
StoreStandardProperties();
bRetValue = FALSE;
break;
}
//
// Now store each property that we need to for this instance
//
m_lNumInstancesCollected++;
StoreValues(apObj[n], pszID);
delete [] pszID;
}
for (n = 0; n < uReturned; n++)
{
apObj[n]->Release();
apObj[n] = NULL;
}
return bRetValue;
}
//XXXIs EnumDone needed in all cases, if so place it in the base class
BOOL CPolledGetObjectDataCollector::EnumDone(void)
{
IRSSTRUCT *pirs;
IWbemClassObject *pObj = NULL;
BOOL bRetValue = TRUE;
PNSTRUCT *ppn;
INSTSTRUCT inst;
INSTSTRUCT *pinst;
int i, j, iSize, jSize;
CThreshold *pThreshold;
SAFEARRAY *psaNames = NULL;
BSTR PropName = NULL;
INSTLIST::iterator iaPINST;
IRSLIST::iterator iaPIRS;
ACTUALINSTLIST::iterator iaPAI;
ACTUALINSTSTRUCT *pActualInst;
CleanupSemiSync();
//XXXAdd similar code to get rid of what is not needed in the m_instList
//XXXOnce again take common code and place it in the base class!VVVVVVVVVVVVVVVVVVVVVVVVv
//
// Now loop through and get rid of instances that are no longer around
//
iSize = m_pnList.size();
for (i = 0; i < iSize; i++)
{
MY_ASSERT(i<m_pnList.size());
ppn = &m_pnList[i];
iaPINST = ppn->instList.begin();
jSize = ppn->instList.size();
for (j = 0; j < jSize && iaPINST ; j++)
{
pinst = iaPINST;
if (pinst->bNeeded == FALSE)
{
if (pinst->szInstanceID)
delete [] pinst->szInstanceID;
if (pinst->szCurrValue)
delete [] pinst->szCurrValue;
pinst->szCurrValue = NULL;
iaPINST = ppn->instList.erase(iaPINST);
}
else
{
iaPINST++;
}
}
}
// Also for all thresholds under this DataCollector
iSize = m_thresholdList.size();
for (i = 0; i < iSize; i++)
{
MY_ASSERT(i<m_thresholdList.size());
pThreshold = m_thresholdList[i];
iaPIRS = pThreshold->m_irsList.begin();
jSize = pThreshold->m_irsList.size();
for (j = 0; j < jSize && iaPIRS ; j++)
{
pirs = iaPIRS;
if (pirs->bNeeded == FALSE)
{
if (pirs->szInstanceID)
delete [] pirs->szInstanceID;
iaPIRS = pThreshold->m_irsList.erase(iaPIRS);
}
else
{
iaPIRS++;
}
}
}
iaPAI = m_actualInstList.begin();
jSize = m_actualInstList.size();
for (j = 0; j < jSize && iaPAI; j++)
{
pActualInst = iaPAI;
if (pActualInst->bNeeded == FALSE)
{
if (pActualInst->szInstanceID)
{
delete [] pActualInst->szInstanceID;
}
if (pActualInst->pInst)
{
pActualInst->pInst->Release();
pActualInst->pInst = NULL;
}
iaPAI = m_actualInstList.erase(iaPAI);
}
else
{
iaPAI++;
}
}
//XXXOnce again take common code and place it in the base class!^^^^^^^^^^^^^^^^^^^^^^^^^
return TRUE;
}
BOOL CPolledGetObjectDataCollector::CleanupSemiSync(void)
{
if (m_bMultiInstance==TRUE)
{
if (m_pEnumObjs)
{
m_pEnumObjs->Release();
m_pEnumObjs = NULL;
}
}
else
{
if (m_pCallResult)
{
m_pCallResult->Release();
m_pCallResult = NULL;
}
}
m_bKeepCollectingSemiSync = FALSE;
m_lCollectionTimeOutCount = 0;
return TRUE;
}