//==========================================================================// // Includes // //==========================================================================// #include "perfmon.h" // included by all source files #include "line.h" // external declarations for this file //#include // for _tcsncpy #include "fileutil.h" // for FileRead, FileWrite #include "pmemory.h" // for MemoryXXX (mallloc-type) routines #include "perfdata.h" // for UpdateSystemData, et al #include "perfmops.h" // for InsertLine #include "system.h" // for SystemAdd #include "utils.h" #include "playback.h" // for PlayingBackLog #include "counters.h" // CounterEntry #include // for strncpy #ifdef UNICODE #define _tcsncpy wcsncpy #else #define _tcsncpy strncpy #endif TCHAR LOCAL_SYS_CODE_NAME[] = TEXT("....") ; #define sizeofCodeName sizeof(LOCAL_SYS_CODE_NAME) / sizeof(TCHAR) - 1 // Local Function prototype PLINE ReadLine (PPERFSYSTEM *ppSystem, PPPERFSYSTEM ppSystemFirst, PPERFDATA *ppPerfData, HANDLE hFile, int LineType, PDISKLINE *ppDiskLine, DWORD *pSizeofDiskLine) ; //==========================================================================// // Exported Functions // //==========================================================================// PLINE LineAllocate (void) /* Effect: Allocate and initialize a Line data structure. Lines are used as the primary elements of both charts and alerts. Establish any representation invariants for the Line type. Also alllocate another structure, an array of data elements, iNumDataValues long. */ { PLINE pLine ; pLine = MemoryAllocate (sizeof (LINESTRUCT)) ; if (pLine) { // don't need to zero these again since MemoryAllocate is using // GMEM_ZEROPOINT // pLine->pLineNext = NULL ; // pLine->pLineCounterNext = NULL ; // do want to do this since (FLOAT)0.0 is not 0 pLine->lnMinValue = pLine->lnMaxValue = pLine->lnAveValue = (FLOAT) 0.0 ; if (PlayingBackLog()) { pLine->bFirstTime = FALSE ; } else { // pLine->bFirstTime = TRUE ; // we want to take 2 samples before plotting the first data pLine->bFirstTime = 2 ; } } return (pLine) ; } void LineFree ( PLINE pLine ) { // free any memory allocated by this line if (pLine->lnSystemName) MemoryFree (pLine->lnSystemName) ; if (pLine->lnObjectName) MemoryFree (pLine->lnObjectName) ; if (pLine->lnCounterName) MemoryFree (pLine->lnCounterName) ; if (pLine->lnInstanceName) MemoryFree (pLine->lnInstanceName) ; if (pLine->lnParentObjName) MemoryFree (pLine->lnParentObjName) ; if (pLine->lnPINName) MemoryFree (pLine->lnPINName) ; if (pLine->lpszAlertProgram) MemoryFree (pLine->lpszAlertProgram) ; if (pLine->hPen) DeletePen(pLine->hPen); if (pLine->hBrush) DeletePen(pLine->hBrush); if (pLine->lnValues) MemoryFree (pLine->lnValues) ; if (pLine->aiLogIndexes) MemoryFree (pLine->aiLogIndexes) ; MemoryFree (pLine) ; } void LineAppend ( PPLINE ppLineFirst, PLINE pLineNew ) { PLINE pLine ; if (!*ppLineFirst) { *ppLineFirst = pLineNew ; } else { for (pLine = *ppLineFirst ; pLine->pLineNext ; pLine = pLine->pLineNext) /* nothing */ ; pLine->pLineNext = pLineNew ; } } BOOL LineRemove ( PPLINE ppLineFirst, PLINE pLineRemove ) { PLINE pLine ; if (*ppLineFirst == pLineRemove) { *ppLineFirst = (*ppLineFirst)->pLineNext ; return (TRUE) ; } for (pLine = *ppLineFirst; pLine->pLineNext; pLine = pLine->pLineNext) { if (pLine->pLineNext == pLineRemove) { pLine->pLineNext = pLineRemove->pLineNext ; return (TRUE) ; } } return (FALSE) ; } int NumLines ( PLINE pLineFirst ) { PLINE pLine ; int iNumLines ; if (!pLineFirst) return (0) ; iNumLines = 0 ; for (pLine = pLineFirst; pLine; pLine = pLine->pLineNext) { iNumLines++ ; } return (iNumLines) ; } LPTSTR LineInstanceName ( PLINE pLine ) { if (pLine->lnObject.NumInstances <= 0) return (NULL) ; else return (pLine->lnInstanceName) ; } LPTSTR LineParentName ( PLINE pLine ) { if (pLine->lnObject.NumInstances <= 0) return (NULL) ; else if (pLine->lnInstanceDef.ParentObjectTitleIndex) return (pLine->lnPINName) ; else return (NULL) ; } void LineCounterAppend ( PCOUNTERGROUP pCGroup, PLINE pLineNew ) { if (!pCGroup->pLineFirst) { pCGroup->pLineFirst = pLineNew ; pCGroup->pLineLast = pLineNew; } else { pCGroup->pLineLast->pLineCounterNext = pLineNew; pCGroup->pLineLast = pLineNew; } } BOOL EquivalentLine ( PLINE pLine1, PLINE pLine2 ) { return (pstrsame (pLine1->lnCounterName, pLine2->lnCounterName) && pstrsame (pLine1->lnInstanceName, pLine2->lnInstanceName) && pstrsame (pLine1->lnPINName, pLine2->lnPINName) && pstrsame (pLine1->lnObjectName, pLine2->lnObjectName) && pstrsamei (pLine1->lnSystemName, pLine2->lnSystemName)) ; } PLINE FindEquivalentLine ( PLINE pLineToFind, PLINE pLineFirst ) { PLINE pLine = NULL; PLINE pLastEquivLine = NULL; for (pLine = pLineFirst ; pLine ; pLine = pLine->pLineNext) { if (EquivalentLine (pLine, pLineToFind)) { if (pLastEquivLine == NULL) { pLastEquivLine = pLine; } else { if (pLine->dwInstanceIndex > pLastEquivLine->dwInstanceIndex) { pLastEquivLine = pLine; } } } } return (pLastEquivLine) ; } // This routine is used only to read the system name from a disk string // It is mainly for performance improvement. LPTSTR DiskStringReadSys ( PDISKSTRING pDS ) { LPTSTR lpszText ; LPTSTR pDiskSysName ; int iIndex ; BOOL bLocalSysName = FALSE ; if (pDS->dwLength == 0) { return (NULL) ; } if (pDS->dwLength == sizeofCodeName) { // check for LOCAL_SYS_CODE_NAME bLocalSysName = TRUE ; pDiskSysName = (LPTSTR)((PBYTE) pDS + pDS->dwOffset) ; for (iIndex = 0 ; iIndex < sizeofCodeName; iIndex++, pDiskSysName++) { if (*pDiskSysName != LOCAL_SYS_CODE_NAME[iIndex]) { bLocalSysName = FALSE ; break ; } } } if (bLocalSysName) { lpszText = MemoryAllocate ((lstrlen(LocalComputerName)+1) * sizeof(TCHAR)) ; if (lpszText) { lstrcpy (lpszText, LocalComputerName) ; } } else { lpszText = MemoryAllocate (sizeof (TCHAR) * (pDS->dwLength + 1)) ; if (lpszText) { _tcsncpy ((WCHAR *)lpszText, (WCHAR *)((PBYTE) pDS + pDS->dwOffset), pDS->dwLength) ; } } return (lpszText) ; } LPTSTR DiskStringRead ( PDISKSTRING pDS ) { LPTSTR lpszText ; if (pDS->dwLength == 0) { return (NULL) ; } lpszText = MemoryAllocate (sizeof (TCHAR) * (pDS->dwLength + 1)) ; if (!lpszText) { return (NULL) ; } _tcsncpy ((WCHAR *)lpszText, (WCHAR *)((PBYTE) pDS + pDS->dwOffset), pDS->dwLength) ; return (lpszText) ; } int DiskStringLength ( LPTSTR lpszText ) { if (!lpszText) return (0) ; else return (lstrlen (lpszText)) ; } PBYTE DiskStringCopy ( PDISKSTRING pDS, LPTSTR lpszText, PBYTE pNextFree ) { if (!lpszText) { pDS->dwOffset = 0 ; pDS->dwLength = 0 ; return (pNextFree) ; } else { pDS->dwOffset = (DWORD)(pNextFree - (PBYTE) pDS) ; pDS->dwLength = DiskStringLength (lpszText) ; _tcsncpy ((WCHAR *)pNextFree, (WCHAR *)lpszText, pDS->dwLength) ; return (pNextFree + pDS->dwLength * sizeof(TCHAR)) ; } } void CounterName ( PPERFSYSTEM pSystem, PPERFCOUNTERDEF pCounter, LPTSTR lpszCounter ) { //!! strclr (lpszCounter) ; lpszCounter [0] = TEXT('\0') ; QueryPerformanceName (pSystem, pCounter->CounterNameTitleIndex, 0, 256, lpszCounter, FALSE) ; } PPERFOBJECT LineFindObject ( PPERFSYSTEM pSystem, PPERFDATA pPerfData, PLINE pLine ) /* Effect: Set the lnObject field of pLine to the object with the name of lnObjectName, and return TRUE. Return FALSE if there is no such object. */ { PPERFOBJECT pObject ; pObject = GetObjectDefByName (pSystem, pPerfData, pLine->lnObjectName) ; if (pObject) { pLine->lnObject = *pObject ; return (pObject) ; } else return (NULL) ; } PPERFCOUNTERDEF LineFindCounter ( PPERFSYSTEM pSystem, PPERFOBJECT pObject, PPERFDATA pPerfData, PLINE pLine ) { UINT i ; PPERFCOUNTERDEF pCounter ; TCHAR szCounter [256] ; for (i = 0, pCounter = FirstCounter (pObject) ; i < pObject->NumCounters ; i++, pCounter = NextCounter (pCounter)) { CounterName (pSystem, pCounter, szCounter) ; if (strsame (szCounter, pLine->lnCounterName)) { pLine->lnCounterDef = *pCounter ; return (pCounter) ; } } return (NULL) ; } PPERFINSTANCEDEF LineFindInstance ( PPERFDATA pPerfData, PPERFOBJECT pObject, PLINE pLine ) { PPERFINSTANCEDEF pInstance = NULL ; if ((pObject->NumInstances > 0) && pLine->lnInstanceName) { // instances exist, find the right one if (pLine->lnUniqueID != PERF_NO_UNIQUE_ID) { pInstance = GetInstanceByUniqueID(pObject, pLine->lnUniqueID, pLine->dwInstanceIndex) ; } else { pInstance = GetInstanceByName(pPerfData, pObject, pLine->lnInstanceName, pLine->lnPINName, pLine->dwInstanceIndex) ; } } if (pInstance) { pLine->lnInstanceDef = *pInstance ; } return (pInstance) ; } void ReadLines ( HANDLE hFile, DWORD dwNumLines, PPPERFSYSTEM ppSystemFirst, PPLINE ppLineFirst, int LineType ) { DWORD i ; PPERFDATA pPerfData ; PLINE pLine ; PPERFSYSTEM pSystem ; PDISKLINE pDiskLine = NULL ; DWORD SizeofDiskLine = 0 ; // bytes in pDiskLine pPerfData = AllocatePerfData () ; pSystem = *ppSystemFirst ; pDiskLine = MemoryAllocate (FilePathLen) ; if (!pDiskLine) { // no memory to begin with, forget it DlgErrorBox (hWndMain, ERR_NO_MEMORY) ; return ; } SizeofDiskLine = FilePathLen ; for (i = 0 ; i < dwNumLines ; i++) { pLine = ReadLine (&pSystem, ppSystemFirst, &pPerfData, hFile, LineType, &pDiskLine, &SizeofDiskLine) ; if (pLine) { if (InsertLine (pLine) == FALSE) { // no inert occurred due to either line already existed // or error detected. LineFree (pLine) ; } } } if (pDiskLine) { MemoryFree (pDiskLine); } BuildValueListForSystems (*ppSystemFirst, *ppLineFirst) ; MemoryFree ((LPMEMORY)pPerfData) ; } PLINE ReadLine ( PPERFSYSTEM *ppSystem, PPPERFSYSTEM ppSystemFirst, PPERFDATA *ppPerfData, HANDLE hFile, int LineType, PDISKLINE *ppDiskLine, DWORD *pSizeofDiskLine ) /* Effect: Read in a line from the file hFile, at the current file position. Internals: The very first characters are a line signature, then a length integer. If the signature is correct, then allocate the length amount, and work with that. */ { PLINE pLine ; struct { DWORD dwSignature ; DWORD dwLength ; } LineHeader ; PPERFOBJECT pObject ; PPERFCOUNTERDEF pCounter ; PDISKLINE pDiskLine ; // Local copy of the pointer PPERFINSTANCEDEF pInstance ; pLine = NULL ; //=============================// // read and compare signature // //=============================// if (!FileRead (hFile, &LineHeader, sizeof (LineHeader))) return (NULL) ; if (LineHeader.dwSignature != dwLineSignature || LineHeader.dwLength == 0) { SetLastError (ERROR_BAD_FORMAT) ; return (NULL) ; } //=============================// // read and allocate length // //=============================// // if (!FileRead (hFile, &dwLength, sizeof (dwLength)) || dwLength == 0) // return (NULL) ; // check if we need a bigger buffer, // normally, it should be the same except the first time... if (LineHeader.dwLength > *pSizeofDiskLine) { if (*ppDiskLine) { // free the previous buffer MemoryFree (*ppDiskLine); *pSizeofDiskLine = 0 ; } // re-allocate a new buffer *ppDiskLine = (PDISKLINE) MemoryAllocate (LineHeader.dwLength) ; if (!(*ppDiskLine)) { // no memory, should flag an error... return (NULL) ; } *pSizeofDiskLine = LineHeader.dwLength ; } pDiskLine = *ppDiskLine ; //=============================// // copy diskline, alloc line // //=============================// if (!FileRead (hFile, pDiskLine, LineHeader.dwLength)) return (NULL) ; pLine = LineAllocate () ; if (!pLine) { return (NULL) ; } pLine->iLineType = pDiskLine->iLineType ; //=============================// // convert system information // //=============================// pLine->lnSystemName = DiskStringReadSys (&(pDiskLine->dsSystemName)) ; if (!pLine->lnSystemName) goto ErrorBadLine ; if (!*ppSystem || !strsamei (pLine->lnSystemName, (*ppSystem)->sysName)) { *ppSystem = SystemAdd (ppSystemFirst, pLine->lnSystemName, NULL) ; if (!*ppSystem) { SetLastError (ERROR_BAD_FORMAT) ; goto ErrorBadLine ; } UpdateSystemData (*ppSystem, ppPerfData) ; } //=============================// // convert object information // //=============================// pLine->lnObjectName = DiskStringRead (&(pDiskLine->dsObjectName)) ; if (!pLine->lnObjectName) goto ErrorBadLine ; pObject = LineFindObject (*ppSystem, *ppPerfData, pLine) ; //=============================// // convert counter information // //=============================// pLine->lnCounterName = DiskStringRead (&(pDiskLine->dsCounterName)) ; if (!pLine->lnCounterName) goto ErrorBadLine ; if (pObject) { pCounter = LineFindCounter (*ppSystem, pObject, *ppPerfData, pLine) ; if (!pCounter) { SetLastError (ERROR_BAD_FORMAT) ; goto ErrorBadLine ; } } //=============================// // convert instance info // //=============================// pLine->lnUniqueID = pDiskLine->dwUniqueID ; pLine->lnInstanceName = DiskStringRead (&(pDiskLine->dsInstanceName)) ; pLine->lnPINName = DiskStringRead (&(pDiskLine->dsPINName)) ; if (pObject && pLine->lnObject.NumInstances > 0 && pLine->lnInstanceName == NULL) { goto ErrorBadLine ; } if (pObject) { pInstance = LineFindInstance (*ppPerfData, pObject, pLine) ; if (pInstance) { pLine->lnParentObjName = DiskStringRead (&(pDiskLine->dsParentObjName)) ; } } else { pLine->lnParentObjName = DiskStringRead (&(pDiskLine->dsParentObjName)) ; } //=============================// // convert chart information // //=============================// if (LineType == IDM_VIEWCHART) { pLine->Visual = pDiskLine->Visual ; pLine->hPen = CreatePen (pLine->Visual.iStyle, pLine->Visual.iWidth, pLine->Visual.crColor) ; pLine->iScaleIndex = pDiskLine->iScaleIndex ; pLine->eScale = pDiskLine->eScale ; } //=============================// // convert alert information // //=============================// if (LineType == IDM_VIEWALERT) { pLine->Visual = pDiskLine->Visual ; pLine->hBrush = CreateSolidBrush (pLine->Visual.crColor) ; pLine->bAlertOver = pDiskLine->bAlertOver ; pLine->eAlertValue = pDiskLine->eAlertValue ; pLine->lpszAlertProgram = DiskStringRead (&(pDiskLine->dsAlertProgram)) ; pLine->bEveryTime = pDiskLine->bEveryTime ; pLine->bAlerted = FALSE ; } //=============================// // Convert the nasty stuff // //=============================// if (pObject) { pLine->lnCounterType = pCounter->CounterType; pLine->lnCounterLength = pCounter->CounterSize; } return (pLine) ; ErrorBadLine: if (!pLine) { LineFree (pLine) ; } return (NULL) ; } BOOL WriteLine ( PLINE pLine, HANDLE hFile ) { PDISKLINE pDiskLine ; DWORD dwSignature ; DWORD dwLength ; PBYTE pNextFree ; BOOL bConvertName ; //=============================// // write signature // //=============================// dwSignature = dwLineSignature ; if (!FileWrite (hFile, &dwSignature, sizeof (dwSignature))) return (FALSE) ; if (IsLocalComputer(pLine->lnSystemName)) { bConvertName = TRUE ; } else { bConvertName = FALSE ; } //=============================// // compute and allocate length // //=============================// dwLength = sizeof (DISKLINE) ; if (bConvertName) { dwLength += DiskStringLength (LOCAL_SYS_CODE_NAME) * sizeof (TCHAR) ; } else { dwLength += DiskStringLength (pLine->lnSystemName) * sizeof (TCHAR) ; } dwLength += DiskStringLength (pLine->lnObjectName) * sizeof (TCHAR) ; dwLength += DiskStringLength (pLine->lnCounterName) * sizeof (TCHAR) ; dwLength += DiskStringLength (pLine->lnInstanceName) * sizeof (TCHAR) ; dwLength += DiskStringLength (pLine->lnPINName) * sizeof (TCHAR) ; dwLength += DiskStringLength (pLine->lnParentObjName) * sizeof (TCHAR) ; dwLength += DiskStringLength (pLine->lpszAlertProgram) * sizeof (TCHAR) ; if (!FileWrite (hFile, &dwLength, sizeof (dwLength))) return (FALSE) ; pDiskLine = (PDISKLINE) MemoryAllocate (dwLength) ; if (!pDiskLine) return (FALSE) ; pNextFree = (PBYTE) pDiskLine + sizeof (DISKLINE) ; //=============================// // convert fixed size fields // //=============================// pDiskLine->iLineType = pLine->iLineType ; pDiskLine->dwUniqueID = pLine->lnUniqueID ; pDiskLine->Visual = pLine->Visual ; pDiskLine->iScaleIndex = pLine->iScaleIndex ; pDiskLine->eScale = pLine->eScale ; pDiskLine->bAlertOver = pLine->bAlertOver ; pDiskLine->eAlertValue = pLine->eAlertValue ; pDiskLine->bEveryTime = pLine->bEveryTime ; //=============================// // copy disk string fields // //=============================// if (bConvertName) { pNextFree = DiskStringCopy (&pDiskLine->dsSystemName, LOCAL_SYS_CODE_NAME, pNextFree) ; } else { pNextFree = DiskStringCopy (&pDiskLine->dsSystemName, pLine->lnSystemName, pNextFree) ; } pNextFree = DiskStringCopy (&pDiskLine->dsObjectName, pLine->lnObjectName, pNextFree) ; pNextFree = DiskStringCopy (&pDiskLine->dsCounterName, pLine->lnCounterName, pNextFree) ; pNextFree = DiskStringCopy (&pDiskLine->dsParentObjName, pLine->lnParentObjName, pNextFree) ; pNextFree = DiskStringCopy (&pDiskLine->dsInstanceName, pLine->lnInstanceName, pNextFree) ; pNextFree = DiskStringCopy (&pDiskLine->dsPINName, pLine->lnPINName, pNextFree) ; pNextFree = DiskStringCopy (&pDiskLine->dsAlertProgram, pLine->lpszAlertProgram, pNextFree) ; FileWrite (hFile, pDiskLine, dwLength) ; MemoryFree (pDiskLine) ; return (TRUE) ; } // we are not doing printing. In case we need this // later, then define DO_PRINTING #ifdef DO_PRINTING int aiPrinterLineStyles [] = { PS_SOLID, PS_DASH, PS_DOT, PS_DASHDOT, PS_DASHDOTDOT } ; #define NumPrinterLineStyles() \ (sizeof (aiPrinterLineStyles) / sizeof (aiPrinterLineStyles [0])) COLORREF acrPrinterLineColors [] = { RGB (192, 192, 192), RGB (128, 128, 128), RGB (64, 64, 64), RGB (0, 0, 0) } ; #define NumPrinterLineColors() \ (sizeof (acrPrinterLineColors) / sizeof (acrPrinterLineColors [0])) #endif // DO_PRINTING HPEN LineCreatePen ( HDC hDC, PLINEVISUAL pVisual, BOOL bForPrint ) { HPEN hPen ; #ifdef DO_PRINTING LOGBRUSH logBrush ; if (bForPrint) { logBrush.lbStyle = PS_SOLID ; //!! aiPrinterLineStyles [pVisual->iColorIndex % NumPrinterLineStyles ()] ; logBrush.lbColor = acrPrinterLineColors [pVisual->iColorIndex % NumPrinterLineColors ()] ; logBrush.lbHatch = 0 ; hPen = ExtCreatePen (logBrush.lbStyle | PS_GEOMETRIC | PS_ENDCAP_SQUARE | PS_JOIN_BEVEL, VertInchPixels (hDC, pVisual->iWidth, 20), &logBrush, 0, NULL) ; } else #endif hPen = CreatePen (pVisual->iStyle, pVisual->iWidth, pVisual->crColor) ; return (hPen) ; } VOID FreeLines ( PLINESTRUCT pLineFirst ) { PLINESTRUCT pLine,next_line; for (pLine = pLineFirst; pLine; pLine = next_line) { next_line = pLine->pLineNext; LineFree (pLine) ; } }