/*++ Copyright (C) 1995-2001 Microsoft Corporation Module Name: PROVPERF.CPP Abstract: Defines the acutal "Put" and "Get" functions for the performance counter provider. The format of the mapping string is; machine|Object|counter[|instance] Examples; local|memory|available bytes a-davj2|LogicalDisk|Free Megabytes|C: History: a-davj 9-27-95 Created. --*/ #include "precomp.h" #include #include "provperf.h" #include "cvariant.h" // maximum amount of time to wait for exclusive access #define MAX_EXEC_WAIT 5000 //*************************************************************************** // // AddTesterDetails // // DESCRIPTION: // // This function is used add the counter type to the property and is useful // to wbem testers. Normal users dont want the overhead caused by this. // // PARAMETERS: // // pClassInt Object being refreshed // PropName Property Name // dwCtrType counter type // // RETURN VALUE: // // always 0 // //*************************************************************************** void AddTesterDetails(IWbemClassObject FAR * pClassInt,BSTR PropName,DWORD dwCtrType) { // Get the qualifier pointer for the property IWbemQualifierSet * pQualifier = NULL; // Get an Qualifier set interface. SCODE sc = pClassInt->GetPropertyQualifierSet(PropName,&pQualifier); // Get prop attribute if(FAILED(sc)) return; WCHAR wcName[40]; switch(dwCtrType) { case PERF_COUNTER_COUNTER: wcsncpy(wcName,L"PERF_COUNTER_COUNTER", 39); break; case PERF_COUNTER_TIMER: wcsncpy(wcName,L"PERF_COUNTER_TIMER", 39); break; case PERF_COUNTER_QUEUELEN_TYPE: wcsncpy(wcName,L"PERF_COUNTER_QUEUELEN_TYPE", 39); break; case PERF_COUNTER_LARGE_QUEUELEN_TYPE: wcsncpy(wcName,L"PERF_COUNTER_LARGE_QUEUELEN_TYPE", 39); break; case PERF_COUNTER_BULK_COUNT: wcsncpy(wcName,L"PERF_COUNTER_BULK_COUNT", 39); break; case PERF_COUNTER_TEXT: wcsncpy(wcName,L"PERF_COUNTER_TEXT", 39); break; case PERF_COUNTER_RAWCOUNT: wcsncpy(wcName,L"PERF_COUNTER_RAWCOUNT", 39); break; case PERF_COUNTER_LARGE_RAWCOUNT: wcsncpy(wcName,L"PERF_COUNTER_LARGE_RAWCOUNT", 39); break; case PERF_COUNTER_RAWCOUNT_HEX: wcsncpy(wcName,L"PERF_COUNTER_RAWCOUNT_HEX", 39); break; case PERF_COUNTER_LARGE_RAWCOUNT_HEX: wcsncpy(wcName,L"PERF_COUNTER_LARGE_RAWCOUNT_HEX", 39); break; case PERF_SAMPLE_FRACTION: wcsncpy(wcName,L"PERF_SAMPLE_FRACTION", 39); break; case PERF_SAMPLE_COUNTER: wcsncpy(wcName,L"PERF_SAMPLE_COUNTER", 39); break; case PERF_COUNTER_NODATA: wcsncpy(wcName,L"PERF_COUNTER_NODATA", 39); break; case PERF_COUNTER_TIMER_INV: wcsncpy(wcName,L"PERF_COUNTER_TIMER_INV", 39); break; case PERF_SAMPLE_BASE: wcsncpy(wcName,L"PERF_SAMPLE_BASE", 39); break; case PERF_AVERAGE_TIMER: wcsncpy(wcName,L"PERF_AVERAGE_TIMER", 39); break; case PERF_AVERAGE_BASE: wcsncpy(wcName,L"PERF_AVERAGE_BASE", 39); break; case PERF_AVERAGE_BULK: wcsncpy(wcName,L"PERF_AVERAGE_BULK", 39); break; case PERF_100NSEC_TIMER: wcsncpy(wcName,L"PERF_100NSEC_TIMER", 39); break; case PERF_100NSEC_TIMER_INV: wcsncpy(wcName,L"PERF_100NSEC_TIMER_INV", 39); break; case PERF_COUNTER_MULTI_TIMER: wcsncpy(wcName,L"PERF_COUNTER_MULTI_TIMER", 39); break; case PERF_COUNTER_MULTI_TIMER_INV: wcsncpy(wcName,L"PERF_COUNTER_MULTI_TIMER_INV", 39); break; case PERF_COUNTER_MULTI_BASE: wcsncpy(wcName,L"PERF_COUNTER_MULTI_BASE", 39); break; case PERF_100NSEC_MULTI_TIMER: wcsncpy(wcName,L"PERF_100NSEC_MULTI_TIMER", 39); break; case PERF_100NSEC_MULTI_TIMER_INV: wcsncpy(wcName,L"PERF_100NSEC_MULTI_TIMER_INV", 39); break; case PERF_RAW_FRACTION: wcsncpy(wcName,L"PERF_RAW_FRACTION", 39); break; case PERF_RAW_BASE: wcsncpy(wcName,L"PERF_RAW_BASE", 39); break; case PERF_ELAPSED_TIME: wcsncpy(wcName,L"PERF_ELAPSED_TIME", 39); break; case PERF_COUNTER_HISTOGRAM_TYPE: wcsncpy(wcName,L"PERF_COUNTER_HISTOGRAM_TYPE", 39); break; case PERF_COUNTER_DELTA: wcsncpy(wcName,L"PERF_COUNTER_DELTA", 39); break; case PERF_COUNTER_LARGE_DELTA: wcsncpy(wcName,L"PERF_COUNTER_LARGE_DELTA", 39); break; default: swprintf(wcName,L"0x%x", dwCtrType); } wcName[39] = 0; CVariant var(wcName); BSTR bstr = SysAllocString(L"CounterType"); if(bstr) { sc = pQualifier->Put(bstr, var.GetVarPtr(), 0); SysFreeString(bstr); } pQualifier->Release(); } //*************************************************************************** // // CImpPerf::CImpPerf // // DESCRIPTION: // // Constuctor. // // PARAMETERS: // //*************************************************************************** CImpPerf::CImpPerf() { wcscpy(wcCLSID,L"{F00B4404-F8F1-11CE-A5B6-00AA00680C3F}"); sMachine = TEXT("local"); hKeyMachine = HKEY_LOCAL_MACHINE; dwLastTimeUsed = 0; hKeyPerf = HKEY_PERFORMANCE_DATA; TitleBuffer = NULL; hExec = CreateMutex(NULL, false, TEXT("WbemPerformanceDataMutex")); m_hTermEvent = CreateEvent(NULL,TRUE,FALSE,NULL); return; } //*************************************************************************** // // CImpPerf::~CImpPerf // // DESCRIPTION: // // Destructor. // //*************************************************************************** CImpPerf::~CImpPerf() { bool bGotMutex = false; if(hExec) { DWORD dwRet = WaitForSingleObject(hExec,2*MAX_EXEC_WAIT); if(dwRet == WAIT_OBJECT_0 || dwRet == WAIT_ABANDONED) bGotMutex = true; } if(bGotMutex) ReleaseMutex(hExec); FreeStuff(); sMachine.Empty(); if(hExec) CloseHandle(hExec); if(m_hTermEvent) CloseHandle(m_hTermEvent); } //*************************************************************************** // // SCODE CImpPerf::LoadData // // DESCRIPTION: // // Loads up the perf monitor data. // // PARAMETERS: // // ProvObj Object containing the property context string. // pls Where to put the data // piObject Identifies the perf mon object // piCounter Identifies the perf mon counter // **ppNew Created data block // bJustGettingInstances Flag which indicates that we are actully // looking for the instance names. // // RETURN VALUE: // // WBEM_E_INVALID_PARAMETER Bad context string // WBEM_E_OUT_OF_MEMORY low memory // otherwise error from called function // //*************************************************************************** SCODE CImpPerf::LoadData( CProvObj & ProvObj, LINESTRUCT * pls, int * piObject, int * piCounter, PERF_DATA_BLOCK **ppNew, BOOL bJustGettingInstances) { SCODE sc; BOOL bChange; if( ( ProvObj.sGetToken(0) == NULL ) || ( piObject == NULL ) || ( piCounter == NULL ) ) return WBEM_E_INVALID_PARAMETER; //BAD MAPPING STRING // Determine if there has been a change in the machine being // accessed. Save the current machine and get the handles if // there was a change. bChange = lstrcmpi(sMachine,ProvObj.sGetToken(0)); sMachine = ProvObj.sGetToken(0); if(bChange) { sc = dwGetRegHandles(ProvObj.sGetToken(0)); if(sc != S_OK) return sc; } // build up a table of the performance strings and // their corresponding indexes. This only needs to be done // when the buffer is empty or when the machine changes. if(bChange || TitleBuffer == NULL) { sc = GetPerfTitleSz (); if(sc != S_OK) return sc; } // get the indexs for the object and counter names dwLastTimeUsed = GetCurrentTime(); *piObject = iGetTitleIndex(ProvObj.sGetToken(1)); if(bJustGettingInstances) *piCounter = 0; else *piCounter = iGetTitleIndex(ProvObj.sGetToken(2)); if(*piObject == -1 || *piCounter == -1) { return WBEM_E_INVALID_PARAMETER; // bad mapping string } // Using the index for the object, get the perf counter data // data. sc = Cache.dwGetNew(ProvObj.sGetToken(0),*piObject,(LPSTR *)ppNew,pls); return sc; } //*************************************************************************** // // SCODE CImpPerf::RefreshProperty // // DESCRIPTION: // // Gets the value of a single property from the NT performance // counter data. // // PARAMETERS: // // lFlags flags. Not currently used // pClassInt Instance object // PropName Property name // ProvObj Object containing the property context string. // pPackage Caching object // pVar Points to value to set // bTesterDetails Provide extra info for testers // RETURN VALUE: // // S_OK all is well // else probably set by LoadData or FindData. // //*************************************************************************** SCODE CImpPerf::RefreshProperty( IN long lFlags, IN IWbemClassObject FAR * pClassInt, IN BSTR PropName, IN CProvObj & ProvObj, OUT IN CObject * pPackage, OUT CVariant * pVar, BOOL bTesterDetails) { DWORD dwCtrType; float fRet; SCODE sc; int iObject,iCounter; PERF_DATA_BLOCK * pNew, * pOld; DWORD dwSize; LINESTRUCT ls; void * pCountData, *pIgnore; CVariant vPerf; // The perf counter provider keeps some rather expensive data and // so it doesnt support complete reentrancy. if(hExec) { DWORD dwRet; dwRet = WaitForSingleObject(hExec,MAX_EXEC_WAIT); if(dwRet != WAIT_ABANDONED && dwRet != WAIT_OBJECT_0) return WBEM_E_FAILED; } else return WBEM_E_FAILED; // Load up the data sc = LoadData(ProvObj,&ls,&iObject,&iCounter,&pNew,FALSE); if(sc != S_OK) goto Done; // Find the desired data. sc = FindData(pNew,iObject,iCounter,ProvObj,&dwSize,&pCountData, &ls,TRUE,NULL); // find data sets the error in pMo! if(sc != S_OK) goto Done; // determine what type of counter it is dwCtrType = ls.lnCounterType & 0xc00; if(dwCtrType == PERF_TYPE_COUNTER) { // This type of counter requires time average data. Get the cache to // get two buffers which are separated by a minimum amount of time sc = Cache.dwGetPair(ProvObj.sGetToken(0),iObject, (LPSTR *)&pOld,(LPSTR *)&pNew,&ls); if(sc != S_OK) goto Done; sc = FindData(pNew,iObject,iCounter,ProvObj,&dwSize,&pCountData,&ls,TRUE,NULL); if(sc != S_OK) goto Done; sc = FindData(pOld,iObject,iCounter,ProvObj,&dwSize,&pIgnore,&ls,FALSE,NULL); if(sc != S_OK) goto Done; fRet = CounterEntry(&ls); vPerf.SetData(&fRet,VT_R4); } else if(dwCtrType == PERF_TYPE_NUMBER) { // Simple counter. fRet = CounterEntry(&ls); vPerf.SetData(&fRet,VT_R4); } else if(dwCtrType == PERF_TYPE_TEXT) { // Text. Allocate enough space to hold the text and // copy the text into temp WCHAR buffer since it is not // clear from the documentation if the data in the block // is null terminated. WCHAR * pNew = (WCHAR *)CoTaskMemAlloc(dwSize+2); if(pNew == NULL) { sc = WBEM_E_OUT_OF_MEMORY; goto Done; } memset(pNew,0,dwSize+2); if(ls.lnCounterType & 0x10000) mbstowcs(pNew,(char *)pCountData,dwSize); else memcpy(pNew,pCountData,dwSize); VARIANT * pVar = vPerf.GetVarPtr(); VariantClear(pVar); pVar->vt = VT_BSTR; pVar->bstrVal = SysAllocString(pNew); if(pVar->bstrVal == NULL) sc = WBEM_E_OUT_OF_MEMORY; CoTaskMemFree(pNew); if(sc != S_OK) { goto Done; } } // Convert the data into the desired form sc = vPerf.DoPut(lFlags,pClassInt,PropName,pVar); if(bTesterDetails) AddTesterDetails(pClassInt, PropName, dwCtrType); Done: if(hExec) ReleaseMutex(hExec); return sc; } //*************************************************************************** // // SCODE CImpPerf::UpdateProperty // // DESCRIPTION: // // Normally this routine is used to save properties, but NT // performance counter data is Read only. // // PARAMETERS: // // lFlags N/A // pClassInt N/A // PropName N/A // ProvObj N/A // pPackage N/A // pVar N/A // // RETURN VALUE: // // E_NOTIMPL // //*************************************************************************** SCODE CImpPerf::UpdateProperty( long lFlags, IWbemClassObject FAR * pClassInt, BSTR PropName, CProvObj & ProvObj, CObject * pPackage, CVariant * pVar) { return E_NOTIMPL; } //*************************************************************************** // // void CImpPerf::FreeStuff // // DESCRIPTION: // // Used to free up memory that is no longer needed as well as // freeing up registry handles. // //*************************************************************************** void CImpPerf::FreeStuff(void) { if(hKeyMachine != HKEY_LOCAL_MACHINE) { RegCloseKey(hKeyMachine); hKeyMachine = NULL; } if(hKeyPerf != HKEY_PERFORMANCE_DATA) { RegCloseKey(hKeyPerf); hKeyPerf = NULL; } if(TitleBuffer) { delete TitleBuffer; TitleBuffer = NULL; } m_IndexCache.Empty(); return; } //*************************************************************************** // // DWORD CImpPerf::GetPerfTitleSz // // DESCRIPTION: // // Retrieves the performance data title strings. // This call retrieves english version of the title strings. // // RETURN VALUE: // // 0 if OK // WBEM_E_OUT_OF_MEMORY if low memory // else set by RegOpenKeyEx // //*************************************************************************** DWORD CImpPerf::GetPerfTitleSz () { HKEY hKey1; DWORD Type; DWORD DataSize; DWORD dwR; // Free any existing stuff if(TitleBuffer) { delete TitleBuffer; TitleBuffer = NULL; } m_IndexCache.Empty(); // Initialize // hKey1 = NULL; // Open the perflib key to find out the last counter's index and system version. // char cRegPath[100]; // DWORD dwLoc = GetUserDefaultLCID(); // dwLoc &= 0x3ff; // mask off the high word // wsprintf(cRegPath,"software\\microsoft\\windows nt\\currentversion\\perflib\\%03x", // dwLoc); // dwR = RegOpenKeyEx (hKeyMachine, // cRegPath, // 0, // KEY_READ, // &hKey1); // if (dwR != S_OK) // { dwR = RegOpenKeyEx (hKeyMachine, TEXT("software\\microsoft\\windows nt\\currentversion\\perflib\\009"), 0, KEY_READ, &hKey1); // } if (dwR != S_OK) goto done; // Find out the size of the data. // dwR = RegQueryValueEx (hKey1, TEXT("Counter"), 0, &Type, 0, &DataSize); if (dwR != S_OK) goto done; // Allocate memory // TitleBuffer = new TCHAR[DataSize]; if (!TitleBuffer) { dwR = WBEM_E_OUT_OF_MEMORY; goto done; } // Query the data // dwR = RegQueryValueEx (hKey1, TEXT("Counter"), 0, &Type, (BYTE *)TitleBuffer, &DataSize); done: if(dwR == 5) dwR = WBEM_E_ACCESS_DENIED; if(hKey1 != NULL) RegCloseKey(hKey1); return dwR; } //*************************************************************************** // // DWORD CImpPerf::dwGetRegHandles // // DESCRIPTION: // // Sets the handles for the local computer and the performance // information. // // PARAMETERS: // // pMachine Machine name // // RETURN VALUE: // // S_OK all is well // otherwise return is from RegConnectRegistry //*************************************************************************** DWORD CImpPerf::dwGetRegHandles( const TCHAR * pMachine) { DWORD dwRet; TCHAR pTemp[256]; if(pMachine == NULL) return WBEM_E_INVALID_PARAMETER; lstrcpy(pTemp,pMachine); // if the current handles are to a remote machine, then free them if(!lstrcmpi(sMachine,TEXT("local"))) { if(hKeyPerf && hKeyPerf != HKEY_PERFORMANCE_DATA) RegCloseKey(hKeyPerf); if(hKeyMachine) RegCloseKey(hKeyMachine); hKeyPerf = hKeyMachine = NULL; } // Determine if the target is remote or local if(lstrcmpi(pMachine,TEXT("local"))) { // Remote, connect up dwRet = RegConnectRegistry(pTemp,HKEY_PERFORMANCE_DATA, &hKeyPerf); if(dwRet != S_OK) // could not remote connect return dwRet; dwRet = RegConnectRegistry(pTemp,HKEY_LOCAL_MACHINE, &hKeyMachine); if(dwRet != S_OK) { RegCloseKey(hKeyPerf); hKeyPerf = hKeyMachine = NULL; return dwRet; } } else { hKeyMachine = HKEY_LOCAL_MACHINE; hKeyPerf = HKEY_PERFORMANCE_DATA; } return 0; } //*************************************************************************** // // int CImpPerf::iGetTitleIndex // // DESCRIPTION: // // Looks for the name in the buffer containing the names and // returns the index. The buffer is a series of strings with a double // null at the end. Each counter or object is represented by a pair of // strings with the first having the number and the second having the // text. This code goes through the pairs, storing the number string and // checking the text vs the input. If a match, then the number is returned. // // PARAMETERS: // // pSearch String to be found in buffer // // RETURN VALUE: // // integer that goes with the string. -1 if not found // //*************************************************************************** int CImpPerf::iGetTitleIndex( const TCHAR * pSearch) { DWORD Index; int Len; TCHAR * pIndex; if(pSearch == NULL) return -1; Index = m_IndexCache.Find(pSearch); if(Index != -1) return Index; int iRet = -1; LPTSTR szTitle = TitleBuffer; while (Len = lstrlen (szTitle)) { pIndex = szTitle; // save pointer to number szTitle = szTitle + Len +1; // skip to name if (pSearch != NULL && !lstrcmpi(pSearch,szTitle)) { // found string! Index = _ttoi (pIndex); // get number m_IndexCache.Add(szTitle, Index); if(iRet == -1) iRet = Index; } szTitle = szTitle + lstrlen (szTitle) +1; // skip to next number } return iRet; } //*************************************************************************** // // SCODE CImpPerf::FindData // // DESCRIPTION: // // Finds the counter in the data block. Note that the steps are quite // involved and an understanding of the structure of performance data // is probably required. See chap 66 of the Win32 Programmers Ref. // // // PARAMETERS: // // pData Data block to be searched // iObj Int which identifies the object // iCount Int which identifies the counter // ProvObj Object containing the parsed context string // pdwSize Size of data // **ppRetData points to data // pls Line structure // bNew If true, indicates that we are searching the newest // sample of data. // pInfo If set, points to an collection object which // contains a list of instance names. By being set // the function doesnt look for actual data, instead // it is used just to get the instance names. // // RETURN VALUE: // // S_OK all is well // WBEM_E_FAILED couldnt find the data in the block // //*************************************************************************** SCODE CImpPerf::FindData( IN PERF_DATA_BLOCK * pData, IN int iObj, IN int iCount, IN CProvObj & ProvObj, OUT DWORD * pdwSize, OUT void **ppRetData, OUT PLINESTRUCT pls, IN BOOL bNew, OUT CEnumPerfInfo * pInfo) { try { int iIndex; BOOL bEqual; DWORD dwSize = 0; DWORD dwType,dwTypeBase = 0; *ppRetData = NULL; void * pVoid = NULL, * pVoidBase = NULL; PPERF_OBJECT_TYPE pObj = NULL; PPERF_COUNTER_DEFINITION pCount = NULL; PPERF_COUNTER_DEFINITION pCountBase= NULL; PPERF_INSTANCE_DEFINITION pInst = NULL; // Some objects, such as disks, have what are called instances and in // that case the provider string will have an extra token with the // instance name in it. WCHAR wInstName[MAX_PATH]; wInstName[0] = 0; WCHAR * pwInstName = wInstName; long lDuplicateNum = 0; // If there is an instance name, convert it to WCHAR. Also, the // instance name may be of the for "[123]chars" and in this case the // didits between "[]" are converted to a number and the actual name // starts after the ']'. if(ProvObj.iGetNumTokens() > 3) { if(lstrlen(ProvObj.sGetToken(3)) > MAX_PATH -1) return WBEM_E_FAILED; #ifdef UNICODE wcscpy(wInstName, ProvObj.sGetToken(3)); #else mbstowcs(wInstName, ProvObj.sGetToken(3), MAX_PATH-1); #endif if(wInstName[0] == L'[') { lDuplicateNum = _wtol(&wInstName[1]); for(pwInstName = &wInstName[1]; *pwInstName && *pwInstName != L']'; pwInstName++); // INTENTIONAL SEMI! if(*pwInstName == L']') pwInstName++; } } else { // if there is not an instance name and the argument for enumeration is null, then we have a // bad path if(pInfo == NULL) return WBEM_E_INVALID_OBJECT_PATH; } // Go through the list of objects and find the one // that matches iObj pObj = (PPERF_OBJECT_TYPE)((PBYTE)pData + pData->HeaderLength); for(iIndex = 0; iIndex < (int)pData->NumObjectTypes; iIndex++) { if((int)pObj->ObjectNameTitleIndex == iObj) break; // found it! pObj = (PPERF_OBJECT_TYPE)((PBYTE)pObj + pObj->TotalByteLength); } if(iIndex == (int)pData->NumObjectTypes) return WBEM_E_FAILED; // never found object in the block // Object was found, set the object type data if(bNew) { pls->ObjPerfFreq = *(LONGLONG UNALIGNED *)(&pObj->PerfFreq); pls->ObjCounterTimeNew = *(LONGLONG UNALIGNED *)(&pObj->PerfTime); } else pls->ObjCounterTimeOld = *(LONGLONG UNALIGNED *)(&pObj->PerfTime); // Go through the list of counters for the object and find the one that // matches iCount. Note that some counter names may be have more than // one id. Therefore, try the other ids if the intial one doesnt work. bool bFound = false; bool bEndOfList = false; int lTry = 0; // how may times we have tried do { pCount = (PPERF_COUNTER_DEFINITION)((PBYTE)pObj + pObj->HeaderLength); for(iIndex = 0; iIndex < (int)pObj->NumCounters; iIndex++) { if((int)pCount->CounterNameTitleIndex == iCount || pInfo) { bFound = true; break; // found it! } pCount = (PPERF_COUNTER_DEFINITION)((PBYTE)pCount + pCount->ByteLength); } if(bFound == false) { lTry++; iCount = m_IndexCache.Find(ProvObj.sGetToken(2), lTry); if(iCount == -1) bEndOfList = true; } } while (bFound == false && bEndOfList == false); if(bFound == false) { return WBEM_E_FAILED; // never found object in the block } // The counter was found, save the counter information // If the counter is not the last one in the object, then the // next one might be the base which is used for certain calculations dwType = pCount->CounterType; pls->lnCounterType = pCount->CounterType; if(iIndex < (int)pObj->NumCounters - 1) { // might be the base pCountBase = (PPERF_COUNTER_DEFINITION)((PBYTE)pCount + pCount->ByteLength); dwTypeBase = pCountBase->CounterType; } // Get a pointer to the start of the perf counter block // There are two cases: If there are no instances, then // the data starts after the last counter descriptor. // If there are instances, each instance has it's own block. pVoid = NULL; if(pObj->NumInstances == -1) { // The object is a singleton if(pInfo) // If we are enumerating instances { pInfo->AddEntry(L"@"); return S_OK; } // easy case, get offset into data, add offset // for particular counter. pVoid = (PBYTE)pObj + pObj->DefinitionLength + pCount->CounterOffset; if(pCountBase) pVoidBase = (PBYTE)pObj + pObj->DefinitionLength + pCountBase->CounterOffset; } else if(pObj->NumInstances > 0) { WCHAR wNum[12]; // hard case, got a list of instaces, start off // by getting a pointer to the first one. long lNumDupsSoFar = 0; pInst= (PPERF_INSTANCE_DEFINITION)((PBYTE)pObj + pObj->DefinitionLength); for(iIndex = 0; iIndex < (int)pObj->NumInstances; iIndex++) { // Each instance has a unicode name, get it and // compare it against the name passed in the // provider string. PPERF_COUNTER_BLOCK pCtrBlk; WCHAR * pwName; if(pInst->UniqueID == PERF_NO_UNIQUE_ID) pwName = (WCHAR *)((PBYTE)pInst + pInst->NameOffset); else { _ltow (pInst->UniqueID, wNum, 10); pwName = wNum; } if(pInfo) { // We we are mearly getting the instance names, just add the // instance name to the list. If the instance name is a // duplicate, prepend "[num]" to the name. if(wcslen(pwName) > 240) continue; // should never happen but just in case! int iRet = pInfo->GetNumDuplicates(pwName); if(iRet > 0) { swprintf(wInstName,L"[%ld]", iRet); wcscat(wInstName, pwName); } else wcscpy(wInstName, pwName); pInfo->AddEntry(wInstName); } else { // for now the code assumes that the first instance // will be retrieved if the instance is not specified if(wcslen(pwInstName) == 0) bEqual = TRUE; else { bEqual = !_wcsicmp(pwName ,pwInstName); if(lDuplicateNum > lNumDupsSoFar && bEqual) { bEqual = FALSE; lNumDupsSoFar++; } } if(bEqual) { // we found the instance !!!! Data is found // in data block following instance offset // appropriatly for this counter. pVoid = (PBYTE)pInst + pInst->ByteLength + pCount->CounterOffset; if(pCountBase) pVoidBase = (PBYTE)pInst + pInst->ByteLength + pCountBase->CounterOffset; break; } } // not found yet, next instance is after this // instance + this instance's counter data pCtrBlk = (PPERF_COUNTER_BLOCK)((PBYTE)pInst + pInst->ByteLength); pInst = (PPERF_INSTANCE_DEFINITION)((PBYTE)pInst + pInst->ByteLength + pCtrBlk->ByteLength); } } // Bail out if data was never found or if we were just looking for instances if(pInfo) return pInfo->GetStatus(); if(pVoid == NULL) { return WBEM_E_FAILED; // never found object in the block } // Move the counter data and possibly the base data into the structure // Note that text is handled via the ppRetData pointer and is not // done here. DWORD dwSizeField = dwType & 0x300; void * pDest = (bNew) ? &pls->lnaCounterValue[0] : &pls->lnaOldCounterValue[0]; if(dwSizeField == PERF_SIZE_DWORD) { memset(pDest,0,sizeof(LONGLONG)); // zero out unused portions dwSize = sizeof(DWORD); memcpy(pDest,pVoid,dwSize); } else if(dwSizeField == PERF_SIZE_LARGE) { dwSize = sizeof(LONGLONG); memcpy(pDest,pVoid,dwSize); } else if(dwSizeField == PERF_SIZE_VARIABLE_LEN) dwSize = pCount->CounterSize; // this sets it for text else { return WBEM_E_FAILED; // never found object in the block } // possibly do the base now. dwSizeField = dwTypeBase & 0x300; pDest = (bNew) ? &pls->lnaCounterValue[1] : &pls->lnaOldCounterValue[1]; if(dwSizeField == PERF_SIZE_DWORD && pVoidBase) { memset(pDest,0,sizeof(LONGLONG)); memcpy(pDest,pVoidBase,sizeof(DWORD)); } else if(dwSizeField == PERF_SIZE_LARGE && pVoidBase) memcpy(pDest,pVoidBase,sizeof(LONGLONG)); *ppRetData = pVoid; // Set to return data *pdwSize = dwSize; return S_OK; } catch(...) { return WBEM_E_FAILED; } } //*************************************************************************** // // SCODE CImpPerf::MakeEnum // // DESCRIPTION: // // Creates a CEnumPerfInfo object which can be used for enumeration // // PARAMETERS: // // pClass Pointer to the class object. // ProvObj Object containing the property context string. // ppInfo Set to point to an collection object which has // the keynames of the instances. // // RETURN VALUE: // // S_OK all is well, // else set by LoadData or FindData // //*************************************************************************** SCODE CImpPerf::MakeEnum( IN IWbemClassObject * pClass, IN CProvObj & ProvObj, OUT CEnumInfo ** ppInfo) { SCODE sc; int iObject,iCounter; PERF_DATA_BLOCK * pNew; DWORD dwSize; LINESTRUCT ls; void * pCountData; CVariant vPerf; CEnumPerfInfo * pInfo = NULL; *ppInfo = NULL; // The perf counter provider keeps some rather expensive data and // so it doesnt support complete reentrancy. if(hExec) { DWORD dwRet; dwRet = WaitForSingleObject(hExec,MAX_EXEC_WAIT); if(dwRet != WAIT_ABANDONED && dwRet != WAIT_OBJECT_0) return WBEM_E_FAILED; } else return WBEM_E_FAILED; // Load up the data sc = LoadData(ProvObj,&ls,&iObject,&iCounter,&pNew,TRUE); if(sc != S_OK) goto DoneMakeEnum; // Create a new CEnumPerfInfo object. Its entries will be filled // in by Find Data. pInfo = new CEnumPerfInfo(); if(pInfo == NULL) { sc = WBEM_E_OUT_OF_MEMORY; goto DoneMakeEnum; } sc = FindData(pNew,iObject,iCounter,ProvObj,&dwSize,&pCountData, &ls,TRUE,pInfo); if(sc != S_OK) delete pInfo; DoneMakeEnum: if(sc == S_OK) *ppInfo = pInfo; if(hExec) ReleaseMutex(hExec); return sc; } //*************************************************************************** // // SCODE CImpPerf::GetKey // // DESCRIPTION: // // Gets the key name of an entry in the enumeration list. // // PARAMETERS: // // pInfo Collection list // iIndex Index in the collection // ppKey Set to the string. MUST BE FREED with "delete" // // RETURN VALUE: // // S_OK if all is well // WBEM_E_INVALID_PARAMETER bad index // WBEM_E_OUT_OF_MEMORY //*************************************************************************** SCODE CImpPerf::GetKey( IN CEnumInfo * pInfo, IN int iIndex, OUT LPWSTR * ppKey) { CEnumPerfInfo * pPerfInfo = (CEnumPerfInfo *)pInfo; LPWSTR pEntry = pPerfInfo->GetEntry(iIndex); if(pEntry == NULL) return WBEM_E_INVALID_PARAMETER; *ppKey = new WCHAR[wcslen(pEntry)+1]; if(*ppKey == NULL) return WBEM_E_OUT_OF_MEMORY; wcscpy(*ppKey,pEntry); return S_OK; } //*************************************************************************** // // SCODE CImpPerf::MergeStrings // // DESCRIPTION: // // Combines the Class Context, Key, and Property Context strings. // // PARAMETERS: // // ppOut Output string. MUST BE FREED VIA "delete" // pClassContext Class context // pKey Key property value // pPropContext Property context // // RETURN VALUE: // // S_OK if all is well // WBEM_E_INVALID_PARAMETER context string // WBEM_E_OUT_OF_MEMORY // //*************************************************************************** SCODE CImpPerf::MergeStrings( OUT LPWSTR * ppOut, IN LPWSTR pClassContext, IN LPWSTR pKey, IN LPWSTR pPropContext) { // Allocate space for output int iLen = 3; if(pClassContext) iLen += wcslen(pClassContext); if(pKey) iLen += wcslen(pKey); if(pPropContext) iLen += wcslen(pPropContext); else return WBEM_E_INVALID_PARAMETER; // should always have this! *ppOut = new WCHAR[iLen]; if(*ppOut == NULL) return WBEM_E_OUT_OF_MEMORY; //todo todo, remove this demo specical if(pPropContext[0] == L'@') { wcscpy(*ppOut,pPropContext+1); return S_OK; } //todo todo, remove this demo specical // simplecase is that everything is in the property context. That would // be the case when the provider is being used as a simple dynamic // property provider if(pClassContext == NULL || pKey == NULL) { wcscpy(*ppOut,pPropContext); return S_OK; } // Copy the class context, property, and finally the key wcscpy(*ppOut,pClassContext); wcscat(*ppOut,L"|"); wcscat(*ppOut,pPropContext); wcscat(*ppOut,L"|"); wcscat(*ppOut,pKey); return S_OK; } //*************************************************************************** // // CEnumPerfInfo::CEnumPerfInfo // // DESCRIPTION: // // Constructor. // //*************************************************************************** CEnumPerfInfo::CEnumPerfInfo() { m_iNumUniChar = 0; m_iNumEntries = 0; m_pBuffer = NULL; m_status = S_OK; } //*************************************************************************** // // CEnumPerfInfo::~CEnumPerfInfo // // DESCRIPTION: // // Destructor. // //*************************************************************************** CEnumPerfInfo::~CEnumPerfInfo() { if(m_pBuffer) delete m_pBuffer; } //*************************************************************************** // // void CEnumPerfInfo::AddEntry // // DESCRIPTION: // // Adds an entry to the enumeration list. // // PARAMETERS: // // pNew String to add to collection. // //*************************************************************************** void CEnumPerfInfo::AddEntry( LPWSTR pNew) { if(m_status != S_OK) return; // already had memory problems. int iNewSize = wcslen(pNew) + 1 + m_iNumUniChar; LPWSTR pNewBuff = new WCHAR[iNewSize]; if(pNewBuff == NULL) { m_status = WBEM_E_OUT_OF_MEMORY; return; } wcscpy(&pNewBuff[m_iNumUniChar],pNew); if(m_pBuffer) { memcpy(pNewBuff,m_pBuffer,m_iNumUniChar*2); delete m_pBuffer; } m_iNumEntries++; m_iNumUniChar = iNewSize; m_pBuffer = pNewBuff; } //*************************************************************************** // // int CEnumPerfInfo::GetNumDuplicates // // DESCRIPTION: // // Checks the list to find duplicate entries. // // PARAMETERS: // // pwcTest string to test for duplicates // // RETURN VALUE: // // number of matching strings in the collection. // //*************************************************************************** int CEnumPerfInfo::GetNumDuplicates( LPWSTR pwcTest) { int iRet = 0; int iCnt; LPWSTR pVal = m_pBuffer; for(iCnt = 0; iCnt < m_iNumEntries; iCnt++) { WCHAR * pwcText = pVal; // If the string is of the form "[number]text", skip the "[number]" // part. if(*pVal == L'[') { for(pwcText = pVal+1; *pwcText && *pwcText != L']';pwcText++); if(*pwcText == L']') pVal = pwcText+1; } if(!_wcsicmp(pwcTest, pVal)) iRet++; pVal += wcslen(pVal) + 1; } return iRet; } //*************************************************************************** // // LPWSTR CEnumPerfInfo::GetEntry // // DESCRIPTION: // // Gets a list entry. // // PARAMETERS: // // iIndex collection index // // RETURN VALUE: // // pointer to string in index. Should NOT be freed. // NULL if bad index // //*************************************************************************** LPWSTR CEnumPerfInfo::GetEntry( IN int iIndex) { // fist check for bad conditions if(m_status != S_OK || iIndex < 0 || iIndex >= m_iNumEntries) return NULL; int iCnt; LPWSTR pRet = m_pBuffer; for(iCnt = 0; iCnt < iIndex; iCnt++) pRet += wcslen(pRet) + 1; return pRet; } //*************************************************************************** // // CImpPerfProp::CImpPerfProp // // DESCRIPTION: // // Constructor. // //*************************************************************************** CImpPerfProp::CImpPerfProp() { m_pImpDynProv = new CImpPerf(); } //*************************************************************************** // // CImpPerfProp::~CImpPerfProp // // DESCRIPTION: // // Destructor. // //*************************************************************************** CImpPerfProp::~CImpPerfProp() { if(m_pImpDynProv) delete m_pImpDynProv; }