/*=================================================================== Microsoft Denali Microsoft Confidential. Copyright 1996 Microsoft Corporation. All Rights Reserved. Component: Main File: axperf.cpp Owner: LeiJin Abstract: This file implements the Extensible Objects for the ActiveX Server object type ===================================================================*/ //-------------------------------------------------------------------- // Include Files // //-------------------------------------------------------------------- #include "denpre.h" #pragma hdrstop #include "windows.h" #include "winperf.h" #include "axpfdata.h" #include // from denali #include #define QUERY_GLOBAL 1 #define QUERY_ITEMS 2 #define QUERY_FOREIGN 3 #define QUERY_COSTLY 4 // test for delimiter, end of line and non-digit characters // used by IsNumberInUnicodeList routine // #define DIGIT 1 #define DELIMITER 2 #define INVALID 3 #define EvalThisChar(c,d) ( \ (c == d) ? DELIMITER : \ (c == 0) ? DELIMITER : \ (c < (WCHAR)'0') ? INVALID : \ (c > (WCHAR)'9') ? INVALID : \ DIGIT) extern AXPD g_AxDataDefinition; DWORD g_dwOpenCount = 0; BOOL bInitOK = FALSE; // true = DLL Initialized OK // WinSE 5901 CRITICAL_SECTION g_CS; WCHAR GLOBAL_STRING[] = L"Global"; WCHAR FOREIGN_STRING[] = L"Foreign"; WCHAR COSTLY_STRING[] = L"Costly"; WCHAR NULL_STRING[] = L"\0"; // pointer to null string /* * Output Debug String should occur in Debug only */ #ifdef _DEBUG BOOL gfOutputDebugString = TRUE; #else BOOL gfOutputDebugString = FALSE; #endif #define DebugOutputDebugString(x) \ {\ if (gfOutputDebugString) \ { \ OutputDebugString(x); \ } \ } //------------------------------------------------------------------- // Function Prototypes // // these are used to insure that the data collection functions accessed // by Perf lib will have the correct calling format //------------------------------------------------------------------- DWORD APIENTRY OpenASPPerformanceData(LPWSTR lpDeviceNames); DWORD APIENTRY CollectASPPerformanceData(LPWSTR lpValueName, LPVOID *lppData, LPDWORD lpcbTotalBytes, LPDWORD lpNumObjectTypes ); DWORD APIENTRY CloseASPPerformanceData(void); DWORD APIENTRY RegisterAXS(void); DWORD APIENTRY UnRegisterAXS(void); DWORD GetQueryType (IN LPWSTR lpValue); BOOL IsNumberInUnicodeList ( IN DWORD dwNumber, IN LPWSTR lpwszUnicodeList); CPerfMainBlock g_Shared; // shared global memory block //-------------------------------------------------------------------- // // OpenASPPerformanceData // // This routine will open and map the memory used by the ActiveX Server // to pass performance data in. This routine also initializes the data // structure used to pass data back to the registry. // // Arguments: // // Pointer to object ID to be opened. // // Return Value: // // None. //-------------------------------------------------------------------- //extern "C" DWORD APIENTRY OpenASPPerformanceData(LPWSTR lpDeviceNames) DWORD APIENTRY OpenASPPerformanceData(LPWSTR lpDeviceNames) { int status; DWORD RetCode = ERROR_SUCCESS; PERF_COUNTER_DEFINITION *pCounterDef; DWORD size = sizeof(DWORD); DebugOutputDebugString("Open"); // WinSE 5901 EnterCriticalSection(&g_CS); LONG nOpenCount = InterlockedIncrement((LONG *)&g_dwOpenCount); if (nOpenCount > 1){ goto ExitPathSuccess; }; // Hold the counter to 1, even if we are no sure to have this // initialized correctly // open shared memory to pass performance values if (FAILED(g_Shared.Init())) { RetCode = ERROR_INVALID_HANDLE; goto ExitPath; } // get counter and help index base values from registry // Open key to registry entry // read first counter and first help values // update static data structures by adding base to offset // value in structure HKEY hKeyServerPerf; status = RegOpenKeyEx(HKEY_LOCAL_MACHINE, "SYSTEM\\CurrentControlSet\\Services\\ASP\\Performance", 0L, KEY_READ, &hKeyServerPerf); if (ERROR_SUCCESS != status) { RetCode = status; goto ExitPath; } DWORD type; DWORD dwFirstCounter; DWORD dwFirstHelp; status = RegQueryValueEx(hKeyServerPerf, "First Counter", 0L, &type, (LPBYTE)&dwFirstCounter, &size); if (ERROR_SUCCESS != status || size != sizeof(DWORD)) { RegCloseKey(hKeyServerPerf); RetCode = status; goto ExitPath; } status = RegQueryValueEx(hKeyServerPerf, "First Help", 0L, &type, (LPBYTE)&dwFirstHelp, &size); if (ERROR_SUCCESS != status || size != sizeof(DWORD)) { RegCloseKey(hKeyServerPerf); RetCode = status; goto ExitPath; } // // NOTE: the initialiation could also retrieve // LastCounter and LastHelp if they wanted // to do bounds checking on the new number // g_AxDataDefinition.AXSObjectType.ObjectNameTitleIndex += dwFirstCounter; g_AxDataDefinition.AXSObjectType.ObjectHelpTitleIndex += dwFirstHelp; pCounterDef = (PERF_COUNTER_DEFINITION *)&(g_AxDataDefinition.Counters[0]); int i; for (i = 0; i < AX_NUM_PERFCOUNT; i++, pCounterDef++) { pCounterDef->CounterNameTitleIndex += dwFirstCounter; pCounterDef->CounterHelpTitleIndex += dwFirstHelp; } RegCloseKey(hKeyServerPerf); // close key to registry bInitOK = TRUE; // ok to use this function // we have already incremented g_dwOpenCount // before going through this path ExitPathSuccess: LeaveCriticalSection(&g_CS); return ERROR_SUCCESS; ExitPath: InterlockedDecrement((LONG *)&g_dwOpenCount); LeaveCriticalSection(&g_CS); return RetCode; } //-------------------------------------------------------------------- // DWORD CollectASPPerformanceData // // Description: // // This routine will return the data for the AxctiveX Server counters. // // Arguments: // // IN LPWSTR lpValueName // pointer to a wide chacter string passed by registry // // IN OUT LPVOID *lppData // IN: pointer to the address of the buffer to receive the completed // PerfDataBlock and subordinate structures. This routine will // append its data to the buffer starting at the point referenced // by the *lppData // OUT:points to the first byte after the data structure added by // this routine. This routine updated the value at lppdata after // appending its data. // // IN OUT LPDWORD lpcbTotalBytes // IN: the address of the DWORD that tells the size in bytes of the // buffer referenced by the lppData argument // OUT:the number of bytes added by this routine is written to the // DWORD pointed to by this argument // // IN OUT LPDWORD NumObjectTypes // IN: the address of the DWORD that receives the number of the objects // added by this routine // OUT:the number of objects added by this routine is written to // the DWORD pointed to by this argument // // // Return Value: // // ERROR_MORE_DATA if buffer passed is too small to hold data // // ERROR_SUCCESS if success or any other error. // //-------------------------------------------------------------------- DWORD APIENTRY CollectASPPerformanceData(IN LPWSTR lpValueName, IN OUT LPVOID *lppData, IN OUT LPDWORD lpcbTotalBytes, IN OUT LPDWORD lpNumObjectTypes) { // before doing anything else, see if Open went Ok. DebugOutputDebugString("collect"); if(!bInitOK) { //unable to continue because open failed *lpcbTotalBytes = (DWORD) 0; *lpNumObjectTypes = (DWORD) 0; return ERROR_SUCCESS; } // // variables used for error logging DWORD dwQueryType; // see if this is a foreign(i.e. non-NT) computer data request dwQueryType = GetQueryType(lpValueName); if (QUERY_FOREIGN == dwQueryType) { // this routine does not service requests for data from // Non-NT computers *lpcbTotalBytes = (DWORD)0; *lpNumObjectTypes = (DWORD)0; return ERROR_SUCCESS; } if (QUERY_ITEMS == dwQueryType) { if (!(IsNumberInUnicodeList(g_AxDataDefinition.AXSObjectType.ObjectNameTitleIndex, lpValueName))) { // request received for data object not provided by this routine *lpcbTotalBytes = (DWORD)0; *lpNumObjectTypes = (DWORD)0; return ERROR_SUCCESS; } } if (QUERY_GLOBAL == dwQueryType) { /* Comment the following code out, looks like that it is for debugging only. int i; i++; */ } AXPD *pAxDataDefinition = (AXPD *)*lppData; ULONG SpaceNeeded = QWORD_MULTIPLE((sizeof(AXPD) + SIZE_OF_AX_PERF_DATA)); if ( *lpcbTotalBytes < SpaceNeeded) { *lpcbTotalBytes = (DWORD)0; *lpNumObjectTypes = (DWORD)0; return ERROR_MORE_DATA; } // //Copy the (constant, initialized) Object Type and counter defintions to the caller's //data buffer // memmove(pAxDataDefinition, &g_AxDataDefinition, sizeof(AXPD)); // // Format and collect Active X server performance data from shared memory // PERF_COUNTER_BLOCK *pPerfCounterBlock = (PERF_COUNTER_BLOCK *)&pAxDataDefinition[1]; pPerfCounterBlock->ByteLength = SIZE_OF_AX_PERF_DATA; PDWORD pdwCounter = (PDWORD)(&pPerfCounterBlock[1]); // Get statistics from shared memory if (FAILED(g_Shared.GetStats(pdwCounter))) { *lpcbTotalBytes = (DWORD)0; *lpNumObjectTypes = (DWORD)0; return ERROR_SUCCESS; } pdwCounter += AX_NUM_PERFCOUNT; // update arguments for return *lpNumObjectTypes = 1; *lpcbTotalBytes = QWORD_MULTIPLE((DIFF((PBYTE)pdwCounter - (PBYTE)pAxDataDefinition))); *lppData = (PBYTE)(*lppData) + *lpcbTotalBytes; return ERROR_SUCCESS; } //------------------------------------------------------------------- // DWORD CloseASPPerformanceData // // Description: // // This routine closes the open handles to ActiveX Server performance // counters. // // Arguments: // // None. // // Return Value: // // ERROR_SUCCESS // //-------------------------------------------------------------------- DWORD APIENTRY CloseASPPerformanceData(void) { DebugOutputDebugString("Close"); EnterCriticalSection(&g_CS); LONG nLeft = InterlockedDecrement((LONG *)&g_dwOpenCount); if (nLeft == 0) { g_Shared.UnInit(); bInitOK = FALSE; }; LeaveCriticalSection(&g_CS); return ERROR_SUCCESS; } static const TCHAR szPerformance[] = TEXT("SYSTEM\\CurrentControlSet\\Services\\ASP\\Performance"); static const TCHAR szAXS[] = TEXT("SYSTEM\\CurrentControlSet\\Services\\ASP"); static const TCHAR szLibrary[] = TEXT("Library"); static const TCHAR szOpen[] = TEXT("Open"); static const TCHAR szClose[] = TEXT("Close"); static const TCHAR szCollect[] = TEXT("Collect"); static const TCHAR szLibraryValue[] = TEXT("aspperf.dll"); static const TCHAR szOpenValue[] = TEXT("OpenASPPerformanceData"); static const TCHAR szCloseValue[] = TEXT("CloseASPPerformanceData"); static const TCHAR szCollectValue[] = TEXT("CollectASPPerformanceData"); //-------------------------------------------------------------------- // // //-------------------------------------------------------------------- DWORD APIENTRY RegisterAXS(void) { HKEY hkey; if ((RegCreateKey(HKEY_LOCAL_MACHINE, szPerformance, &hkey)) != ERROR_SUCCESS) return E_FAIL; if ((RegSetValueEx(hkey, szLibrary, 0, REG_SZ, (const unsigned char *)&szLibraryValue, lstrlen(szLibraryValue))) != ERROR_SUCCESS) goto LRegErr; if ((RegSetValueEx(hkey, szOpen, 0, REG_SZ, (const unsigned char *)&szOpenValue, lstrlen(szOpenValue))) != ERROR_SUCCESS) goto LRegErr; if ((RegSetValueEx(hkey, szClose, 0, REG_SZ, (const unsigned char *)&szCloseValue, lstrlen(szCloseValue))) != ERROR_SUCCESS) goto LRegErr; if ((RegSetValueEx(hkey, szCollect, 0, REG_SZ, (const unsigned char *)&szCollectValue, lstrlen(szCollectValue))) != ERROR_SUCCESS) goto LRegErr; RegCloseKey(hkey); return NOERROR; LRegErr: RegCloseKey(hkey); return E_FAIL; } //-------------------------------------------------------------------- // // //-------------------------------------------------------------------- DWORD APIENTRY UnRegisterAXS(void) { if ((RegDeleteKey(HKEY_LOCAL_MACHINE, szPerformance)) != ERROR_SUCCESS) return (E_FAIL); if ((RegDeleteKey(HKEY_LOCAL_MACHINE, szAXS)) != ERROR_SUCCESS) return (E_FAIL); else return NOERROR; } DWORD GetQueryType ( IN LPWSTR lpValue ) /*++ GetQueryType returns the type of query described in the lpValue string so that the appropriate processing method may be used Arguments IN lpValue string passed to PerfRegQuery Value for processing Return Value QUERY_GLOBAL if lpValue == 0 (null pointer) lpValue == pointer to Null string lpValue == pointer to "Global" string QUERY_FOREIGN if lpValue == pointer to "Foriegn" string QUERY_COSTLY if lpValue == pointer to "Costly" string otherwise: QUERY_ITEMS --*/ { WCHAR *pwcArgChar, *pwcTypeChar; BOOL bFound; if (lpValue == 0) { return QUERY_GLOBAL; } else if (*lpValue == 0) { return QUERY_GLOBAL; } // check for "Global" request pwcArgChar = lpValue; pwcTypeChar = GLOBAL_STRING; bFound = TRUE; // assume found until contradicted // check to the length of the shortest string while ((*pwcArgChar != 0) && (*pwcTypeChar != 0)) { if (*pwcArgChar++ != *pwcTypeChar++) { bFound = FALSE; // no match break; // bail out now } } if (bFound) return QUERY_GLOBAL; // check for "Foreign" request pwcArgChar = lpValue; pwcTypeChar = FOREIGN_STRING; bFound = TRUE; // assume found until contradicted // check to the length of the shortest string while ((*pwcArgChar != 0) && (*pwcTypeChar != 0)) { if (*pwcArgChar++ != *pwcTypeChar++) { bFound = FALSE; // no match break; // bail out now } } if (bFound) return QUERY_FOREIGN; // check for "Costly" request pwcArgChar = lpValue; pwcTypeChar = COSTLY_STRING; bFound = TRUE; // assume found until contradicted // check to the length of the shortest string while ((*pwcArgChar != 0) && (*pwcTypeChar != 0)) { if (*pwcArgChar++ != *pwcTypeChar++) { bFound = FALSE; // no match break; // bail out now } } if (bFound) return QUERY_COSTLY; // if not Global and not Foreign and not Costly, // then it must be an item list return QUERY_ITEMS; } BOOL IsNumberInUnicodeList ( IN DWORD dwNumber, IN LPWSTR lpwszUnicodeList ) /*++ IsNumberInUnicodeList Arguments: IN dwNumber DWORD number to find in list IN lpwszUnicodeList Null terminated, Space delimited list of decimal numbers Return Value: TRUE: dwNumber was found in the list of unicode number strings FALSE: dwNumber was not found in the list. --*/ { DWORD dwThisNumber; WCHAR *pwcThisChar; BOOL bValidNumber; BOOL bNewItem; //BOOL bReturnValue; WCHAR wcDelimiter; // could be an argument to be more flexible if (lpwszUnicodeList == 0) return FALSE; // null pointer, # not founde pwcThisChar = lpwszUnicodeList; dwThisNumber = 0; wcDelimiter = (WCHAR)' '; bValidNumber = FALSE; bNewItem = TRUE; while (TRUE) { switch (EvalThisChar (*pwcThisChar, wcDelimiter)) { case DIGIT: // if this is the first digit after a delimiter, then // set flags to start computing the new number if (bNewItem) { bNewItem = FALSE; bValidNumber = TRUE; } if (bValidNumber) { dwThisNumber *= 10; dwThisNumber += (*pwcThisChar - (WCHAR)'0'); } break; case DELIMITER: // a delimter is either the delimiter character or the // end of the string ('\0') if when the delimiter has been // reached a valid number was found, then compare it to the // number from the argument list. if this is the end of the // string and no match was found, then return. // if (bValidNumber) { if (dwThisNumber == dwNumber) return TRUE; bValidNumber = FALSE; } if (*pwcThisChar == 0) { return FALSE; } else { bNewItem = TRUE; dwThisNumber = 0; } break; case INVALID: // if an invalid character was encountered, ignore all // characters up to the next delimiter and then start fresh. // the invalid number is not compared. bValidNumber = FALSE; break; default: break; } pwcThisChar++; } } // IsNumberInUnicodeList STDAPI DLLRegisterServer(void) { return RegisterAXS(); } BOOL WINAPI DllMain(HINSTANCE hInstDLL, // handle to the DLL module DWORD dwReason, // reason for calling function LPVOID lpvReserved // reserved ) { switch(dwReason){ case DLL_PROCESS_ATTACH: DisableThreadLibraryCalls(hInstDLL); InitializeCriticalSection(&g_CS); return TRUE; case DLL_PROCESS_DETACH: DeleteCriticalSection(&g_CS); return TRUE; } return TRUE; }