PERFDATA.C

//==========================================================================// 
// Includes //
//==========================================================================//


#include <string.h> // strupr
#include <stdio.h> // for sprintf.
#include "perfmon.h"
#include "utils.h"

#include "pmemory.h" // for MemoryXXX (mallloc-type) routines
#include "playback.h" // for PlayingBackLog
#include "perfdata.h" // external declarations for this file
#include "system.h" // for DeleteUnusedSystems
#include "line.h" // for LineFind???()
#include "perfmops.h" // for AppendObjectToValueList()

//==========================================================================//
// Constants //
//==========================================================================//

TCHAR NamesKey[] = L"SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion\\Perflib";
TCHAR Counters[] = L"Counters";
TCHAR Help[] = L"Help";
TCHAR LastHelp[] = L"Last Help";
TCHAR LastCounter[] = L"Last Counter";
TCHAR SysVersion[] = L"Version";
TCHAR CounterNameStr[] = L"Counter ";
TCHAR ExplainNameStr[] = L"Explain ";

#define szPerfSubkey (NULL)
TCHAR NULL_NAME[] = L" ";
#define RESERVED 0L

TCHAR DefaultLangId[4] ;
TCHAR EnglishLangId[4] ;

static HANDLE *lpHandles ;
static int NumberOfHandles = 0 ;

//==========================================================================//
// Macros //
//==========================================================================//



//==========================================================================//
// Local Data //
//==========================================================================//


// When the conversion of this code is complete, this will be the *only*
// allocated copy of the performance data. It will monotonically grow
// to hold the largest of the system's performance data.

// PPERFDATA pGlobalPerfData ;

//==========================================================================//
// Local Functions //
//==========================================================================//

NTSTATUS AddNamesToArray (LPTSTR pNames,
DWORD dwLastID,
LPWSTR *lpCounterId) ;

//======================================//
// Object Accessors //
//======================================//


void ObjectName (PPERFSYSTEM pSystem,
PPERFOBJECT pObject,
LPTSTR lpszName,
int iLen)
{ // ObjectName
strclr (lpszName) ;
QueryPerformanceName (pSystem,
pObject->ObjectNameTitleIndex,
0, iLen, lpszName, FALSE) ;
} // ObjectName



//======================================//
// Counter Accessors //
//======================================//


PERF_INSTANCE_DEFINITION *
FirstInstance(
PERF_OBJECT_TYPE *pObjectDef)
{
return (PERF_INSTANCE_DEFINITION *)
((PCHAR) pObjectDef + pObjectDef->DefinitionLength);
}


PERF_INSTANCE_DEFINITION *
NextInstance(
PERF_INSTANCE_DEFINITION *pInstDef)
{
PERF_COUNTER_BLOCK *pCounterBlock;

pCounterBlock = (PERF_COUNTER_BLOCK *)
((PCHAR) pInstDef + pInstDef->ByteLength);

return (PERF_INSTANCE_DEFINITION *)
((PCHAR) pCounterBlock + pCounterBlock->ByteLength);
}




LPTSTR
GetInstanceName(
PPERFINSTANCEDEF pInstDef)
{
return (LPTSTR) ((PCHAR) pInstDef + pInstDef->NameOffset);
}


void
GetInstanceNameStr (PPERFINSTANCEDEF pInstance,
LPTSTR lpszInstance)
{
LPSTR pSource;

pSource = (LPSTR) GetInstanceName(pInstance) ;

if (pSource[1] == '\0' && pSource[2] != '\0')
{
// Must be Unicode
wcsncpy (lpszInstance,
(LPTSTR)pSource,
pInstance->NameLength);
}
else
{
// Must be ANSI (or a single Unicode character)
mbstowcs (lpszInstance,
pSource,
pInstance->NameLength);
}

}

void
GetPerfComputerName(PPERFDATA pPerfData,
LPTSTR lpszComputerName)
{
lstrcpy(lpszComputerName, szComputerPrefix) ;
if (pPerfData)
{
wcsncpy (&lpszComputerName[2],
(LPWSTR)((PBYTE) pPerfData + pPerfData->SystemNameOffset),
pPerfData->SystemNameLength/sizeof(WCHAR)) ;
}
else
{
lpszComputerName[0] = TEXT('\0') ;
}
}


//==========================================================================//
// Exported Functions //
//==========================================================================//


int CounterIndex (PPERFCOUNTERDEF pCounterToFind,
PPERFOBJECT pObject)
/*
Effect: Return the index ("counter number") of pCounterToFind
within pObject. If the counter doesnt belong to pObject,
return -1.
*/
{ // CounterIndex
PPERFCOUNTERDEF pCounter ;
UINT iCounter ;

for (iCounter = 0, pCounter = FirstCounter (pObject) ;
iCounter < pObject->NumCounters ;
iCounter++, pCounter = NextCounter (pCounter))
{ // for
if (pCounter->CounterNameTitleIndex ==
pCounterToFind->CounterNameTitleIndex)
return (iCounter) ;
} // for

return (-1) ;
} // CounterIndex


HKEY
OpenSystemPerfData (
IN LPCTSTR lpszSystem
)
{ // OpenSystemPerfData

HKEY hKey = NULL;
LONG lStatus;


lStatus = ERROR_CANTOPEN; // default error if none is returned

if (IsLocalComputer(lpszSystem) || PlayingBackLog()) {
bCloseLocalMachine = TRUE ;
SetLastError (ERROR_SUCCESS);
return HKEY_PERFORMANCE_DATA;
} else if (lstrlen (lpszSystem) < MAX_COMPUTERNAME_LENGTH+3) {
// Must be a remote system
try {
lStatus = RegConnectRegistry (
(LPTSTR)lpszSystem,
HKEY_PERFORMANCE_DATA,
&hKey);
} finally {
if (lStatus != ERROR_SUCCESS) {
SetLastError (lStatus);
hKey = NULL;
}
}
}
return (hKey);

} // OpenSystemPerfData

LPWSTR
*AddNewName(
HKEY hKeyNames,
PCOUNTERTEXT pCounterInfo,
LPWSTR CounterBuffer,
LPWSTR HelpBuffer,
DWORD dwLastId,
DWORD dwCounterSize,
DWORD dwHelpSize,
LANGID LangIdUsed
)
{
LPWSTR *lpReturnValue;
LPWSTR *lpCounterId;
LPWSTR lpCounterNames;
LPWSTR lpHelpText;
DWORD dwArraySize;
DWORD dwBufferSize;
DWORD dwValueType;
LONG lWin32Status;
NTSTATUS Status;
DWORD dwLastError;

dwArraySize = (dwLastId + 1 ) * sizeof(LPWSTR);
lpReturnValue = MemoryAllocate (dwArraySize + dwCounterSize + dwHelpSize);

if (!lpReturnValue) goto ERROR_EXIT;

// initialize pointers into buffer

lpCounterId = lpReturnValue;
lpCounterNames = (LPWSTR)((LPBYTE)lpCounterId + dwArraySize);
lpHelpText = (LPWSTR)((LPBYTE)lpCounterNames + dwCounterSize);

// read counters into memory

dwBufferSize = dwCounterSize;
lWin32Status = RegQueryValueEx (
hKeyNames,
CounterBuffer,
RESERVED,
&dwValueType,
(LPVOID)lpCounterNames,
&dwBufferSize);

if (lWin32Status != ERROR_SUCCESS) goto ERROR_EXIT;

if (bExplainTextButtonHit) {
dwBufferSize = dwHelpSize;
lWin32Status = RegQueryValueEx (
hKeyNames,
HelpBuffer,
RESERVED,
&dwValueType,
(LPVOID)lpHelpText,
&dwBufferSize);

if (lWin32Status != ERROR_SUCCESS) goto ERROR_EXIT;
}

// load counter array items
Status = AddNamesToArray (lpCounterNames, dwLastId, lpCounterId);
if (Status != ERROR_SUCCESS) goto ERROR_EXIT;

if (bExplainTextButtonHit) {
Status = AddNamesToArray (lpHelpText, dwLastId, lpCounterId);
}

if (Status != ERROR_SUCCESS) goto ERROR_EXIT;

if (pCounterInfo) {
pCounterInfo->dwLastId = dwLastId;
pCounterInfo->dwLangId = LangIdUsed;
pCounterInfo->dwHelpSize = dwHelpSize;
pCounterInfo->dwCounterSize = dwCounterSize;
}

return lpReturnValue;

ERROR_EXIT:
if (lWin32Status != ERROR_SUCCESS) {
dwLastError = GetLastError();
}

if (lpReturnValue) {
MemoryFree ((LPVOID)lpReturnValue);
}

return NULL;
}


LPWSTR
*BuildNewNameTable(
PPERFSYSTEM pSystem,
LPWSTR lpszLangId, // unicode value of Language subkey
PCOUNTERTEXT pCounterInfo,
LANGID iLangId, // lang ID of the lpszLangId
DWORD dwLastId
)
/*++

BuildNewNameTable

Arguments:

lpszLangId
The unicode id of the language to look up. (English is 0x409)

Return Value:

pointer to an allocated table. (the caller must free it when finished!)
the table is an array of pointers to zero terminated strings. NULL is
returned if an error occured.

--*/
{
LONG lWin32Status;
DWORD dwValueType;
DWORD dwLastError;
DWORD dwBufferSize;
DWORD dwCounterSize;
DWORD dwHelpSize;
HKEY hKeyNames;
TCHAR CounterBuffer [MiscTextLen] ;
TCHAR ExplainBuffer [MiscTextLen] ;
TCHAR subLangId [ShortTextLen] ;
LANGID LangIdUsed = iLangId;


//initialize local variables
hKeyNames = pSystem->sysDataKey;


// check for null arguments and insert defaults if necessary
if (!lpszLangId) {
lpszLangId = DefaultLangId;
LangIdUsed = iLanguage ;
}

// get size of counter names and add that to the arrays
lstrcpy (CounterBuffer, CounterNameStr);
lstrcat (CounterBuffer, lpszLangId);

lstrcpy (ExplainBuffer, ExplainNameStr);
lstrcat (ExplainBuffer, lpszLangId);

dwBufferSize = 0;
lWin32Status = RegQueryValueEx (
hKeyNames,
CounterBuffer,
RESERVED,
&dwValueType,
NULL,
&dwBufferSize);

if (lWin32Status != ERROR_SUCCESS) {
// try take out the country ID
LangIdUsed = MAKELANGID (LangIdUsed & 0x0ff, LANG_NEUTRAL);
TSPRINTF (subLangId, TEXT("%03x"), LangIdUsed);
lstrcpy (CounterBuffer, CounterNameStr);
lstrcat (CounterBuffer, subLangId);

lstrcpy (ExplainBuffer, ExplainNameStr);
lstrcpy (ExplainBuffer, subLangId);

dwBufferSize = 0;
lWin32Status = RegQueryValueEx (
hKeyNames,
CounterBuffer,
RESERVED,
&dwValueType,
NULL,
&dwBufferSize);
}

if (lWin32Status != ERROR_SUCCESS) {
// try the EnglishLangId
if (!strsame(EnglishLangId, subLangId)) {

lstrcpy (CounterBuffer, CounterNameStr);
lstrcat (CounterBuffer, EnglishLangId);

lstrcpy (ExplainBuffer, ExplainNameStr);
lstrcpy (ExplainBuffer, EnglishLangId);

LangIdUsed = iEnglishLanguage ;

dwBufferSize = 0;
lWin32Status = RegQueryValueEx (
hKeyNames,
CounterBuffer,
RESERVED,
&dwValueType,
NULL,
&dwBufferSize);
}
}

// Fail, too bad...
if (lWin32Status != ERROR_SUCCESS) {
goto BNT_BAILOUT;
}

dwCounterSize = dwBufferSize;

// If ExplainText is needed, then
// get size of help text and add that to the arrays

if (bExplainTextButtonHit) {
dwBufferSize = 0;
lWin32Status = RegQueryValueEx (
hKeyNames,
ExplainBuffer,
RESERVED,
&dwValueType,
NULL,
&dwBufferSize);

if (lWin32Status != ERROR_SUCCESS) goto BNT_BAILOUT;

dwHelpSize = dwBufferSize;
} else {
dwHelpSize = 0;
}

return (AddNewName(
hKeyNames,
pCounterInfo,
CounterBuffer,
ExplainBuffer,
dwLastId,
dwCounterSize,
dwHelpSize,
LangIdUsed));


BNT_BAILOUT:
if (lWin32Status != ERROR_SUCCESS) {
dwLastError = GetLastError();
}

return NULL;
}


LPWSTR
*BuildOldNameTable(
HKEY hKeyRegistry, // handle to registry db with counter names
LPWSTR lpszLangId, // unicode value of Language subkey
PCOUNTERTEXT pCounterInfo,
LANGID iLangId, // lang ID of the lpszLangId
DWORD dwLastId
)
/*++

BuildOldNameTable

Arguments:

hKeyRegistry
Handle to an open registry (this can be local or remote.) and
is the value returned by RegConnectRegistry or a default key.

lpszLangId
The unicode id of the language to look up. (English is 0x409)

Return Value:

pointer to an allocated table. (the caller must free it when finished!)
the table is an array of pointers to zero terminated strings. NULL is
returned if an error occured.

--*/
{
LPWSTR *lpReturnValue = NULL;

LONG lWin32Status;
DWORD dwValueType;
DWORD dwLastError;
DWORD dwBufferSize;
DWORD dwCounterSize;
DWORD dwHelpSize;
HKEY hKeyNames;
TCHAR tempBuffer [MiscTextLen] ;
TCHAR subLangId [ShortTextLen] ;
LPWSTR lpValueNameString;
LANGID LangIdUsed = iLangId;
TCHAR Slash[2];

//initialize local variables
hKeyNames = NULL;
Slash[0] = L'\\';
Slash[1] = L'\0';

// check for null arguments and insert defaults if necessary
if (!lpszLangId) {
lpszLangId = DefaultLangId;
LangIdUsed = iLanguage ;
}

// get size of string buffer
lpValueNameString = tempBuffer ;

lstrcpy (lpValueNameString, NamesKey);
lstrcat (lpValueNameString, Slash);
lstrcat (lpValueNameString, lpszLangId);

lWin32Status = RegOpenKeyEx (
hKeyRegistry,
lpValueNameString,
RESERVED,
KEY_READ,
&hKeyNames);

if (lWin32Status != ERROR_SUCCESS) {
// try take out the country ID
LangIdUsed = MAKELANGID (LangIdUsed & 0x0ff, LANG_NEUTRAL);
TSPRINTF (subLangId, TEXT("%03x"), LangIdUsed);
lstrcpy (lpValueNameString, NamesKey);
lstrcat (lpValueNameString, Slash);
lstrcat (lpValueNameString, subLangId);

lWin32Status = RegOpenKeyEx (
hKeyRegistry,
lpValueNameString,
RESERVED,
KEY_READ,
&hKeyNames);
}

if (lWin32Status != ERROR_SUCCESS) {
// try the EnglishLangId
if (!strsame(EnglishLangId, subLangId)) {

lstrcpy (lpValueNameString, NamesKey);
lstrcat (lpValueNameString, Slash);
lstrcat (lpValueNameString, EnglishLangId);

LangIdUsed = iEnglishLanguage ;

lWin32Status = RegOpenKeyEx (
hKeyRegistry,
lpValueNameString,
RESERVED,
KEY_READ,
&hKeyNames);
}
}

// Fail, too bad...
if (lWin32Status != ERROR_SUCCESS) {
goto BNT_BAILOUT;
}

// get size of counter names and add that to the arrays


dwBufferSize = 0;
lWin32Status = RegQueryValueEx (
hKeyNames,
Counters,
RESERVED,
&dwValueType,
NULL,
&dwBufferSize);

if (lWin32Status != ERROR_SUCCESS) goto BNT_BAILOUT;

dwCounterSize = dwBufferSize;

// If ExplainText is needed, then
// get size of help text and add that to the arrays

if (bExplainTextButtonHit) {
dwBufferSize = 0;
lWin32Status = RegQueryValueEx (
hKeyNames,
Help,
RESERVED,
&dwValueType,
NULL,
&dwBufferSize);

if (lWin32Status != ERROR_SUCCESS) goto BNT_BAILOUT;

dwHelpSize = dwBufferSize;
} else {
dwHelpSize = 0;
}

lpReturnValue = AddNewName(
hKeyNames,
pCounterInfo,
Counters,
Help,
dwLastId,
dwCounterSize,
dwHelpSize,
LangIdUsed);

RegCloseKey (hKeyNames);

return lpReturnValue;

BNT_BAILOUT:
if (lWin32Status != ERROR_SUCCESS) {
dwLastError = GetLastError();
}

if (lpReturnValue) {
MemoryFree ((LPVOID)lpReturnValue);
}

if (hKeyNames) RegCloseKey (hKeyNames);

return NULL;
}


LPWSTR
*BuildNameTable(
PPERFSYSTEM pSysInfo,
HKEY hKeyRegistry, // handle to registry db with counter names
LPWSTR lpszLangId, // unicode value of Language subkey
PCOUNTERTEXT pCounterInfo,
LANGID iLangId // lang ID of the lpszLangId
)
/*++

BuildNameTable

Arguments:

hKeyRegistry
Handle to an open registry (this can be local or remote.) and
is the value returned by RegConnectRegistry or a default key.

lpszLangId
The unicode id of the language to look up. (English is 0x409)

Return Value:

pointer to an allocated table. (the caller must free it when finished!)
the table is an array of pointers to zero terminated strings. NULL is
returned if an error occured.

--*/
{

LPWSTR *lpReturnValue;
LONG lWin32Status;
DWORD dwLastError;
DWORD dwValueType;
DWORD dwLastHelp;
DWORD dwLastCounter;
DWORD dwLastId;
DWORD dwBufferSize;
HKEY hKeyValue;
DWORD dwSystemVersion;


//initialize local variables
lpReturnValue = NULL;
hKeyValue = NULL;


// open registry to get number of items for computing array size

lWin32Status = RegOpenKeyEx (
hKeyRegistry,
NamesKey,
RESERVED,
KEY_READ,
&hKeyValue);

if (lWin32Status != ERROR_SUCCESS) {
goto BNT_BAILOUT;
}

// get number of items

dwBufferSize = sizeof (dwLastHelp);
lWin32Status = RegQueryValueEx (
hKeyValue,
LastHelp,
RESERVED,
&dwValueType,
(LPBYTE)&dwLastHelp,
&dwBufferSize);

if ((lWin32Status != ERROR_SUCCESS) || (dwValueType != REG_DWORD)) {
goto BNT_BAILOUT;
}

dwBufferSize = sizeof (dwLastCounter);
lWin32Status = RegQueryValueEx (
hKeyValue,
LastCounter,
RESERVED,
&dwValueType,
(LPBYTE)&dwLastCounter,
&dwBufferSize);

if ((lWin32Status != ERROR_SUCCESS) || (dwValueType != REG_DWORD)) {
goto BNT_BAILOUT;
}

if (dwLastCounter >= dwLastHelp) {
dwLastId = dwLastCounter;
} else {
dwLastId = dwLastHelp;
}

// get system version
dwBufferSize = sizeof (dwSystemVersion);
lWin32Status = RegQueryValueEx (
hKeyValue,
SysVersion,
RESERVED,
&dwValueType,
(LPBYTE)&dwSystemVersion,
&dwBufferSize);

if ((lWin32Status != ERROR_SUCCESS) || (dwValueType != REG_DWORD)) {
pSysInfo->SysVersion = 0x10000;
} else {
pSysInfo->SysVersion = dwSystemVersion;
}

if (pSysInfo->SysVersion <= 0x10000) {
lpReturnValue = BuildOldNameTable (
hKeyRegistry,
lpszLangId,
pCounterInfo,
iLangId,
dwLastId) ;
} else {
lpReturnValue = BuildNewNameTable (
pSysInfo,
lpszLangId,
pCounterInfo,
iLangId,
dwLastId) ;
}

RegCloseKey (hKeyValue);
return lpReturnValue;

BNT_BAILOUT:
if (lWin32Status != ERROR_SUCCESS) {
dwLastError = GetLastError();
}
if (hKeyValue) RegCloseKey (hKeyValue);
return NULL;
}

DWORD GetSystemKey (PPERFSYSTEM pSysInfo, HKEY *phKeyMachine)
{
DWORD dwStatus;

// connect to system registry

if (IsLocalComputer(pSysInfo->sysName) ||
(PlayingBackLog() && PlaybackLog.pBaseCounterNames)) {
*phKeyMachine = HKEY_LOCAL_MACHINE;
} else if (lstrlen(pSysInfo->sysName) < MAX_COMPUTERNAME_LENGTH+3) {
try {
dwStatus = RegConnectRegistry (
pSysInfo->sysName,
HKEY_LOCAL_MACHINE,
phKeyMachine);

if (dwStatus != ERROR_SUCCESS) {
if (PlayingBackLog()) {
// If remote machine is not on and we are
// playing back log, then, use the counters from
// local machine.
*phKeyMachine = HKEY_LOCAL_MACHINE;
} else {
return dwStatus;
}
}
} finally {
; // nothing
}
}
return 0;
}


DWORD GetSystemNames(PPERFSYSTEM pSysInfo)
{
HKEY hKeyMachine = 0;
DWORD dwStatus;

if (dwStatus = GetSystemKey (pSysInfo, &hKeyMachine)) {
return dwStatus;
}

// if here, then hKeyMachine is an open key to the system's
// HKEY_LOCAL_MACHINE registry database

// only one language is supported by this approach.
// multiple language support would:
// 1. enumerate language keys
// and for each key:
// 2. allocate memory for structures
// 3. call BuildNameTable for each lang key.

pSysInfo->CounterInfo.pNextTable = NULL;
pSysInfo->CounterInfo.dwLangId = iLanguage ; // default Lang ID

if (PlayingBackLog() && PlaybackLog.pBaseCounterNames) {
pSysInfo->CounterInfo.TextString = LogBuildNameTable (pSysInfo) ;
} else {
pSysInfo->CounterInfo.TextString = BuildNameTable (
pSysInfo,
hKeyMachine,
NULL, // use default
&pSysInfo->CounterInfo,
0);
}

if (hKeyMachine && hKeyMachine != HKEY_LOCAL_MACHINE) {
RegCloseKey (hKeyMachine) ;
}

if (pSysInfo->CounterInfo.TextString == NULL) {
return GetLastError();
} else {
return ERROR_SUCCESS;
}
}

BOOL GetHelpText(
PPERFSYSTEM pSysInfo
)
{
LPWSTR *lpCounterId;
LPWSTR lpHelpText;
LONG lWin32Status;
DWORD dwValueType;
DWORD dwArraySize;
DWORD dwBufferSize;
DWORD dwCounterSize;
DWORD dwHelpSize;
NTSTATUS Status;
DWORD dwLastId;
TCHAR Slash[2];

HKEY hKeyNames;

TCHAR SysLangId [ShortTextLen] ;
TCHAR ValueNameString [MiscTextLen] ;
HKEY hKeyMachine = 0;
DWORD dwStatus;

SetHourglassCursor() ;

//initialize local variables
lpHelpText = NULL;
hKeyNames = hKeyMachine = NULL;
Slash[0] = L'\\';
Slash[1] = L'\0';

dwBufferSize = 0;

TSPRINTF (SysLangId, TEXT("%03x"), pSysInfo->CounterInfo.dwLangId) ;

if (pSysInfo->SysVersion <= 0x10000) {
// old version, get help from registry
if (dwStatus = GetSystemKey (pSysInfo, &hKeyMachine)) {
goto ERROR_EXIT;
}

lstrcpy (ValueNameString, NamesKey);
lstrcat (ValueNameString, Slash);
lstrcat (ValueNameString, SysLangId);

lWin32Status = RegOpenKeyEx (
hKeyMachine,
ValueNameString,
RESERVED,
KEY_READ,
&hKeyNames);

if (lWin32Status != ERROR_SUCCESS) goto ERROR_EXIT;
} else {
// new system version, get it from the HKEY_PERFORMANCE
hKeyNames = pSysInfo->sysDataKey;
lstrcpy (ValueNameString, ExplainNameStr);
lstrcat (ValueNameString, SysLangId);
}

dwHelpSize = 0;
lWin32Status = RegQueryValueEx (
hKeyNames,
pSysInfo->SysVersion <= 0x010000 ? Help : ValueNameString,
RESERVED,
&dwValueType,
NULL,
&dwHelpSize);

if (lWin32Status != ERROR_SUCCESS || dwHelpSize == 0) goto ERROR_EXIT;

dwLastId = pSysInfo->CounterInfo.dwLastId;
dwArraySize = (dwLastId + 1) * sizeof (LPWSTR);
dwCounterSize = pSysInfo->CounterInfo.dwCounterSize;

// allocate another memory to get the help text
lpHelpText = MemoryAllocate (dwHelpSize);
if (!lpHelpText) goto ERROR_EXIT;

dwBufferSize = dwHelpSize;
lWin32Status = RegQueryValueEx (
hKeyNames,
pSysInfo->SysVersion <= 0x010000 ? Help : ValueNameString,
RESERVED,
&dwValueType,
(LPVOID)lpHelpText,
&dwBufferSize);

if (lWin32Status != ERROR_SUCCESS) goto ERROR_EXIT;

// setup the help text pointers
lpCounterId = pSysInfo->CounterInfo.TextString;
Status = AddNamesToArray (lpHelpText, dwLastId, lpCounterId) ;
if (Status != ERROR_SUCCESS) goto ERROR_EXIT;

pSysInfo->CounterInfo.dwHelpSize = dwHelpSize;

if (pSysInfo->SysVersion <= 0x010000)
RegCloseKey (hKeyNames);

if (hKeyMachine && hKeyMachine != HKEY_LOCAL_MACHINE) {
RegCloseKey (hKeyMachine) ;
}

pSysInfo->CounterInfo.HelpTextString = lpHelpText;

SetArrowCursor() ;

return TRUE;

ERROR_EXIT:

SetArrowCursor() ;

if (lpHelpText) {
MemoryFree ((LPVOID)lpHelpText);
}

if (hKeyNames) {
RegCloseKey (hKeyNames);
}
if (hKeyMachine && hKeyMachine != HKEY_LOCAL_MACHINE) {
RegCloseKey (hKeyMachine) ;
}

return FALSE;
}

//
// QueryPerformanceName -Get a title, given an index
//
//Inputs:
//
// pSysInfo - Pointer to sysinfo struct for the
// system in question
//
// dwTitleIndex -Index of Title entry
//
// LangID - language in which title should be displayed
//
// cbTitle -# of char in the lpTitle buffer
//
// lpTitle -pointer to a buffer to receive the
// Title
//
// Help - TRUE is help is desired, else counter or
// object is assumed
DWORD
QueryPerformanceName(
PPERFSYSTEM pSysInfo,
DWORD dwTitleIndex,
LANGID LangID,
DWORD cbTitle,
LPTSTR lpTitle,
BOOL Help
)
{
LPWSTR lpTitleFound;
NTSTATUS Status;
BOOL bGetTextSuccess = TRUE ;

DBG_UNREFERENCED_PARAMETER(LangID);

if (Help && pSysInfo->CounterInfo.dwHelpSize == 0) {
// we have not get the help text yet, go get it
bGetTextSuccess = GetHelpText (pSysInfo);
}

if (!bGetTextSuccess) {
Status = ERROR_INVALID_NAME;
goto ErrorExit;
}

if ((dwTitleIndex > 0) && (dwTitleIndex <= pSysInfo->CounterInfo.dwLastId)) {
// then title should be found in the array
lpTitleFound = pSysInfo->CounterInfo.TextString[dwTitleIndex];
if (!lpTitleFound) {
// no entry for this index
Status = ERROR_INVALID_NAME;
}
else if ((DWORD)lstrlen(lpTitleFound) < cbTitle) {
lstrcpy (lpTitle, lpTitleFound);
return (ERROR_SUCCESS);
} else {
Status = ERROR_MORE_DATA;
}
} else {

Status = ERROR_INVALID_NAME;
}

ErrorExit:
// if here, then an error occured, so return a blank

if ((DWORD)lstrlen (NULL_NAME) < cbTitle) { 
lstrcpy (lpTitle, NULL_NAME);
}

return Status; // title not returned

}


LONG
GetSystemPerfData (
IN HKEY hKeySystem,
IN LPTSTR lpszValue,
OUT PPERFDATA pPerfData,
OUT PDWORD pdwPerfDataLen
)
{ // GetSystemPerfData
LONG lError ;
DWORD Type ;

// have to pass in a Type to RegQueryValueEx(W) or else it
// will crash
lError = RegQueryValueEx (hKeySystem, lpszValue, NULL, &Type,
(LPSTR) pPerfData, pdwPerfDataLen) ;
return (lError) ;
} // GetSystemPerfData


BOOL CloseSystemPerfData (HKEY hKeySystem)
{ // CloseSystemPerfData
return (TRUE) ;
} // CloseSystemPerfData



int CBLoadObjects (HWND hWndCB,
PPERFDATA pPerfData,
PPERFSYSTEM pSysInfo,
DWORD dwDetailLevel,
LPTSTR lpszDefaultObject,
BOOL bIncludeAll)
/*
Effect: Load into the combo box CB one item for each Object in
pPerfData. For each item, look up the object's name in
the registry strings associated with pSysInfo, and
attach the object to the data field of the CB item.

Dont add those objects that are more detailed than
dwDetailLevel.

Set the current selected CB item to the object named
lpszDefaultObject, or to the default object specified in
pPerfData if lpszDefaultObject is NULL.
*/
{ // CBLoadObjects
UINT i ;
int iIndex ;
PPERFOBJECT pObject ;
TCHAR szObject [PerfObjectLen + 1] ;
TCHAR szDefaultObject [PerfObjectLen + 1] ;

CBReset (hWndCB) ;
strclr (szDefaultObject) ;

pObject = FirstObject (pPerfData) ;

for (i = 0, pObject = FirstObject (pPerfData) ;
i < pPerfData->NumObjectTypes ;
i++, pObject = NextObject (pObject))
{ // for
if (pObject->DetailLevel <= dwDetailLevel)
{ // if
strclr (szObject) ;
QueryPerformanceName (pSysInfo, pObject->ObjectNameTitleIndex,
0, PerfObjectLen, szObject, FALSE) ;

// if szObject not empty, add it to the Combo-box
if (!strsame(szObject, NULL_NAME))
{
iIndex = CBAdd (hWndCB, szObject) ;
CBSetData (hWndCB, iIndex, (DWORD) pObject) ;

if ((LONG)pObject->ObjectNameTitleIndex == pPerfData->DefaultObject)
lstrcpy (szDefaultObject, szObject) ;
} // if szObject not empty
} // if
} // for


if (bIncludeAll)
{
StringLoad (IDS_ALLOBJECTS, szObject) ;
CBInsert (hWndCB, 0, szObject) ;
// assume "ALL" is default unless overridden
lstrcpy (szDefaultObject, szObject) ;
}

if (lpszDefaultObject)
lstrcpy (szDefaultObject, lpszDefaultObject) ;

iIndex = CBFind (hWndCB, szDefaultObject) ;
CBSetSelection (hWndCB, (iIndex != CB_ERR) ? iIndex : 0) ;

return (i) ;
} // CBLoadObjects


int LBLoadObjects (HWND hWndLB,
PPERFDATA pPerfData,
PPERFSYSTEM pSysInfo,
DWORD dwDetailLevel,
LPTSTR lpszDefaultObject,
BOOL bIncludeAll)
/*
Effect: Load into the list box LB one item for each Object in
pPerfData. For each item, look up the object's name in
the registry strings associated with pSysInfo, and
attach the object to the data field of the LB item.

Dont add those objects that are more detailed than
dwDetailLevel.

Set the current selected LB item to the object named
lpszDefaultObject, or to the default object specified in
pPerfData if lpszDefaultObject is NULL.
*/
{ // LBLoadObjects
UINT i ;
int iIndex ;
PPERFOBJECT pObject ;
TCHAR szObject [PerfObjectLen + 1] ;
TCHAR szDefaultObject [PerfObjectLen + 1] ;

LBReset (hWndLB) ;
strclr (szDefaultObject) ;

pObject = FirstObject (pPerfData) ;

for (i = 0, pObject = FirstObject (pPerfData) ;
i < pPerfData->NumObjectTypes ;
i++, pObject = NextObject (pObject))
{ // for
if (pObject->DetailLevel <= dwDetailLevel)
{ // if
strclr (szObject) ;
QueryPerformanceName (pSysInfo, pObject->ObjectNameTitleIndex,
0, PerfObjectLen, szObject, FALSE) ;

// if szObject is not empty, add it to the listbox
if (!strsame(szObject, NULL_NAME))
{
iIndex = LBAdd (hWndLB, szObject) ;
LBSetData (hWndLB, iIndex, (DWORD) pObject) ;

if ((LONG)pObject->ObjectNameTitleIndex == pPerfData->DefaultObject)
lstrcpy (szDefaultObject, szObject) ;
} // if szObject is not empty
}
} // for


if (bIncludeAll)
{
StringLoad (IDS_ALLOBJECTS, szObject) ;
LBInsert (hWndLB, 0, szObject) ;
LBSetData (hWndLB, iIndex, (DWORD) NULL) ;
// assume "ALL" is default unless overridden
lstrcpy (szDefaultObject, szObject) ;
}

if (lpszDefaultObject)
lstrcpy (szDefaultObject, lpszDefaultObject) ;

iIndex = LBFind (hWndLB, szDefaultObject) ;
LBSetSelection (hWndLB, (iIndex != LB_ERR) ? iIndex : 0) ;

return (i) ;
} // LBLoadObjects


/***************************************************************************\
* GetObjectDef()
*
* Entry: pointer to data block and the number of the object type
* Exit: returns a pointer to the specified object type definition
*
\***************************************************************************/

PERF_OBJECT_TYPE *GetObjectDef(
PERF_DATA_BLOCK *pDataBlock,
DWORD NumObjectType)
{
DWORD NumTypeDef;

PERF_OBJECT_TYPE *pObjectDef;

pObjectDef = FirstObject(pDataBlock);

for ( NumTypeDef = 0;
NumTypeDef < pDataBlock->NumObjectTypes;
NumTypeDef++ ) {

if ( NumTypeDef == NumObjectType ) {

return pObjectDef;
}
pObjectDef = NextObject(pObjectDef);
}
return 0;
}

/***************************************************************************\
* GetObjectDefByTitleIndex()
*
* Entry: pointer to data block and the title index of the object type
* Exit: returns a pointer to the specified object type definition
*
\***************************************************************************/

PERF_OBJECT_TYPE *GetObjectDefByTitleIndex(
PERF_DATA_BLOCK *pDataBlock,
DWORD ObjectTypeTitleIndex)
{
DWORD NumTypeDef;

PERF_OBJECT_TYPE *pObjectDef;

pObjectDef = FirstObject(pDataBlock);

for ( NumTypeDef = 0;
NumTypeDef < pDataBlock->NumObjectTypes;
NumTypeDef++ ) {

if ( pObjectDef->ObjectNameTitleIndex == ObjectTypeTitleIndex ) {

return pObjectDef;
}
pObjectDef = NextObject(pObjectDef);
}
return 0;
}

/***************************************************************************\
* GetObjectDefByName()
*
* Entry: pointer to data block and the name of the object type
* Exit: returns a pointer to the specified object type definition
*
\***************************************************************************/

PERF_OBJECT_TYPE *GetObjectDefByName(
PPERFSYSTEM pSystem,
PERF_DATA_BLOCK *pDataBlock,
LPTSTR pObjectName)
{
DWORD NumTypeDef;
TCHAR szObjectName [PerfObjectLen + 1] ;

PERF_OBJECT_TYPE *pObjectDef;

pObjectDef = FirstObject(pDataBlock);
for ( NumTypeDef = 0;
NumTypeDef < pDataBlock->NumObjectTypes;
NumTypeDef++ ) {

ObjectName (pSystem, pObjectDef, szObjectName, PerfObjectLen) ;
if (strsame (szObjectName, pObjectName) ) {

return pObjectDef;
}
pObjectDef = NextObject(pObjectDef);
}
return 0;
}

/***************************************************************************\
* GetObjectIdByName()
*
* Entry: pointer to data block and the name of the object type
* Exit: returns the Object title index for the specified Object Name
*
\***************************************************************************/

DWORD GetObjectIdByName(
PPERFSYSTEM pSystem,
PERF_DATA_BLOCK *pDataBlock,
LPTSTR pObjectName)
{
DWORD NumTypeDef;
TCHAR szObjectName [PerfObjectLen + 1] ;

PERF_OBJECT_TYPE *pObjectDef;

pObjectDef = FirstObject(pDataBlock);
for ( NumTypeDef = 0;
NumTypeDef < pDataBlock->NumObjectTypes;
NumTypeDef++ ) {

ObjectName (pSystem, pObjectDef, szObjectName, PerfObjectLen) ;
if (strsame (szObjectName, pObjectName) ) {

return pObjectDef->ObjectNameTitleIndex;
}
pObjectDef = NextObject(pObjectDef);
}
return 0;
}


/***************************************************************************\
* GetCounterDef()
*
* Entry: pointer to object type definition the number of the Counter
* definition
* Exit: returns a pointer to the specified Counter definition
*
\***************************************************************************/

PERF_COUNTER_DEFINITION *GetCounterDef(
PERF_OBJECT_TYPE *pObjectDef,
DWORD NumCounter)
{
DWORD NumCtrDef;

PERF_COUNTER_DEFINITION *pCounterDef;

pCounterDef = FirstCounter(pObjectDef);

for ( NumCtrDef = 0;
NumCtrDef < pObjectDef->NumCounters;
NumCtrDef++ ) {

if ( NumCtrDef == NumCounter ) {

return pCounterDef;
}
pCounterDef = NextCounter(pCounterDef);
}
return 0;
}

/***************************************************************************\
* GetCounterNumByTitleIndex()
*
* Entry: pointer to object type definition and the title index of
* the name of the Counter definition
* Exit: returns the number of the specified Counter definition
*
\***************************************************************************/

LONG GetCounterNumByTitleIndex(
PERF_OBJECT_TYPE *pObjectDef,
DWORD CounterTitleIndex)
{
DWORD NumCtrDef;

PERF_COUNTER_DEFINITION *pCounterDef;

pCounterDef = FirstCounter(pObjectDef);

for ( NumCtrDef = 0;
NumCtrDef < pObjectDef->NumCounters;
NumCtrDef++ ) {

if ( pCounterDef->CounterNameTitleIndex == CounterTitleIndex ) {

return NumCtrDef;
}
pCounterDef = NextCounter(pCounterDef);
}
return 0;
}

/***************************************************************************\
* GetCounterData()
*
* Entry: pointer to object definition and number of counter, must be
* an object with no instances
* Exit: returns a pointer to the data
*
\***************************************************************************/

PVOID GetCounterData(
PERF_OBJECT_TYPE *pObjectDef,
PERF_COUNTER_DEFINITION *pCounterDef)
{

PERF_COUNTER_BLOCK *pCtrBlock;

pCtrBlock = (PERF_COUNTER_BLOCK *)((PCHAR)pObjectDef +
pObjectDef->DefinitionLength);

return (PVOID)((PCHAR)pCtrBlock + pCounterDef->CounterOffset);
}

/***************************************************************************\
* GetInstanceCounterData()
*
* Entry: pointer to object definition and number of counter, and a pointer
* to the instance for which the data is to be retrieved
* Exit: returns a pointer to the data
*
\***************************************************************************/

PVOID GetInstanceCounterData(
PERF_OBJECT_TYPE *pObjectDef,
PERF_INSTANCE_DEFINITION *pInstanceDef,
PERF_COUNTER_DEFINITION *pCounterDef)
{

PERF_COUNTER_BLOCK *pCtrBlock;

pCtrBlock = (PERF_COUNTER_BLOCK *)((PCHAR)pInstanceDef +
pInstanceDef->ByteLength);

return (PVOID)((PCHAR)pCtrBlock + pCounterDef->CounterOffset);
}

/***************************************************************************\
* GetNextInstance()
*
* Entry: pointer to instance definition
* Exit: returns a pointer to the next instance definition. If none,
* points to byte past this instance
*
\***************************************************************************/

PERF_INSTANCE_DEFINITION *GetNextInstance(
PERF_INSTANCE_DEFINITION *pInstDef)
{
PERF_COUNTER_BLOCK *pCtrBlock;

pCtrBlock = (PERF_COUNTER_BLOCK *)
((PCHAR) pInstDef + pInstDef->ByteLength);

return (PERF_INSTANCE_DEFINITION *)
((PCHAR) pCtrBlock + pCtrBlock->ByteLength);
}

/***************************************************************************\
* GetInstance()
*
* Entry: pointer to object type definition, the name of the instance,
* the name of the parent object type, and the parent instance index.
* The name of the parent object type is NULL if no parent.
* Exit: returns a pointer to the specified instance definition
*
\***************************************************************************/

PERF_INSTANCE_DEFINITION *GetInstance(
PERF_OBJECT_TYPE *pObjectDef,
LONG InstanceNumber)
{

PERF_INSTANCE_DEFINITION *pInstanceDef;
LONG NumInstance;

if (!pObjectDef)
{
return 0;
}

pInstanceDef = FirstInstance(pObjectDef);

for ( NumInstance = 0;
NumInstance < pObjectDef->NumInstances;
NumInstance++ )
{
if ( InstanceNumber == NumInstance )
{
return pInstanceDef;
}
pInstanceDef = GetNextInstance(pInstanceDef);
}

return 0;
}

/***************************************************************************\
* GetInstanceByUniqueID()
*
* Entry: pointer to object type definition, and
* the unique ID of the instance.
* Exit: returns a pointer to the specified instance definition
*
\***************************************************************************/

PERF_INSTANCE_DEFINITION *GetInstanceByUniqueID(
PERF_OBJECT_TYPE *pObjectDef,
LONG UniqueID)
{

PERF_INSTANCE_DEFINITION *pInstanceDef;

LONG NumInstance;

pInstanceDef = FirstInstance(pObjectDef);

for ( NumInstance = 0;
NumInstance < pObjectDef->NumInstances;
NumInstance++ ) {

if ( pInstanceDef->UniqueID == UniqueID ) {

return pInstanceDef;
}
pInstanceDef = GetNextInstance(pInstanceDef);
}
return 0;
}


/***************************************************************************\
* GetInstanceByNameUsingParentTitleIndex()
*
* Entry: pointer to object type definition, the name of the instance,
* and the name of the parent instance.
* The name of the parent instance is NULL if no parent.
* Exit: returns a pointer to the specified instance definition
*
\***************************************************************************/

PERF_INSTANCE_DEFINITION *GetInstanceByNameUsingParentTitleIndex(
PERF_DATA_BLOCK *pDataBlock,
PERF_OBJECT_TYPE *pObjectDef,
LPTSTR pInstanceName,
LPTSTR pParentName)
{
BOOL fHaveParent;
PERF_OBJECT_TYPE *pParentObj;

PERF_INSTANCE_DEFINITION *pParentInst,
*pInstanceDef;

LONG NumInstance;
TCHAR InstanceName[256];


fHaveParent = FALSE;
pInstanceDef = FirstInstance(pObjectDef);

for ( NumInstance = 0;
NumInstance < pObjectDef->NumInstances;
NumInstance++ )
{

GetInstanceNameStr(pInstanceDef,InstanceName);
if ( lstrcmp(InstanceName, pInstanceName) == 0 )
{

// Instance name matches

if ( pParentName == NULL )
{

// No parent, we're done

return pInstanceDef;

}
else
{

// Must match parent as well

pParentObj = GetObjectDefByTitleIndex(
pDataBlock,
pInstanceDef->ParentObjectTitleIndex);

if (!pParentObj)
{
// can't locate the parent, forget it
break ;
}

// Object type of parent found; now find parent
// instance

pParentInst = GetInstance(pParentObj,
pInstanceDef->ParentObjectInstance);

if (!pParentInst)
{
// can't locate the parent instance, forget it
break ;
}

GetInstanceNameStr(pParentInst,InstanceName);
if ( lstrcmp(InstanceName, pParentName) == 0 )
{

// Parent Instance Name matches that passed in

return pInstanceDef;
}
}
}
pInstanceDef = GetNextInstance(pInstanceDef);
}
return 0;
}

/***************************************************************************\
* GetInstanceByName()
*
* Entry: pointer to object type definition, the name of the instance,
* and the name of the parent instance.
* The name of the parent instance is NULL if no parent.
* Exit: returns a pointer to the specified instance definition
*
\***************************************************************************/

PERF_INSTANCE_DEFINITION *GetInstanceByName(
PERF_DATA_BLOCK *pDataBlock,
PERF_OBJECT_TYPE *pObjectDef,
LPTSTR pInstanceName,
LPTSTR pParentName)
{
BOOL fHaveParent;

PERF_OBJECT_TYPE *pParentObj;

PERF_INSTANCE_DEFINITION *pParentInst,
*pInstanceDef;

LONG NumInstance;
TCHAR InstanceName[256];


fHaveParent = FALSE;
pInstanceDef = FirstInstance(pObjectDef);

for ( NumInstance = 0;
NumInstance < pObjectDef->NumInstances;
NumInstance++ ) {

GetInstanceNameStr(pInstanceDef,InstanceName);
if ( lstrcmp(InstanceName, pInstanceName) == 0 ) {

// Instance name matches

if ( !pInstanceDef->ParentObjectTitleIndex ) {

// No parent, we're done

return pInstanceDef;

} else {

// Must match parent as well

pParentObj = GetObjectDefByTitleIndex(
pDataBlock,
pInstanceDef->ParentObjectTitleIndex);

// Object type of parent found; now find parent
// instance

pParentInst = GetInstance(pParentObj,
pInstanceDef->ParentObjectInstance);

GetInstanceNameStr(pParentInst,InstanceName);
if ( lstrcmp(InstanceName, pParentName) == 0 ) {

// Parent Instance Name matches that passed in

return pInstanceDef;
}
}
}
pInstanceDef = GetNextInstance(pInstanceDef);
}
return 0;
} // GetInstanceByName


BOOL FailedLineData (PPERFDATA pPerfData,
PLINE pLine)
/*
This routine handles the case where there is no data for a
system.
*/

{ // FailedLineData
LONGLONG liDummy ;

// System no longer exists.
liDummy = (LONGLONG) 0;
if (pLine->lnCounterType == PERF_COUNTER_TIMER_INV)
{
// Timer inverse with Performance Counter as timer
pLine->lnaOldCounterValue[0] = pLine->lnOldTime ;
pLine->lnaCounterValue[0] = pLine->lnNewTime ;
} else if (pLine->lnCounterType == PERF_100NSEC_TIMER_INV ||
pLine->lnCounterType == PERF_100NSEC_MULTI_TIMER_INV)
{
// Timer inverse with System Time as timer
pLine->lnaOldCounterValue[0] = pLine->lnOldTime100Ns ;
pLine->lnaCounterValue[0] = pLine->lnNewTime100Ns ;
} else
{
// Normal timer
pLine->lnaOldCounterValue[0] =
pLine->lnaCounterValue[0] =
pLine->lnaOldCounterValue[1] =
pLine->lnaCounterValue[1] = liDummy ;
}
return TRUE ;

} // FailedLineData


BOOL UpdateLineData (PPERFDATA pPerfData,
PLINE pLine,
PPERFSYSTEM pSystem)
/*
Assert: pPerfData holds the performance data for the same
system as pLine.
*/
{ // UpdateLineData
PPERFOBJECT pObject ;
PPERFINSTANCEDEF pInstanceDef ;
PPERFCOUNTERDEF pCounterDef ;
PPERFCOUNTERDEF pCounterDef2 ;
PDWORD pCounterValue ;
PDWORD pCounterValue2 ;
UINT iCounterIndex ;
LONGLONG liDummy[2] ;

// Use Object time units if available, otherwise use system
// performance timer

pLine->lnOldTime = pLine->lnNewTime;

pLine->lnOldTime100Ns = pLine->lnNewTime100Ns;
pLine->lnNewTime100Ns = *(LONGLONG UNALIGNED *)(&pPerfData->PerfTime100nSec);

pLine->lnPerfFreq = *(LONGLONG UNALIGNED *)(&pPerfData->PerfFreq) ;

if ((pLine->lnObject.TotalByteLength == 0) && !(PlayingBackLog()))
{
// this is the case when openning a setting file and the remote
// system is not up at that time. We have all the names but no
// pObject, pCounter, etc. So, we have to re-built the linedata.
PPERFOBJECT pObject ;
PPERFCOUNTERDEF pCounter ;
PPERFINSTANCEDEF pInstance ;

pObject = LineFindObject (pSystem, pPerfData, pLine) ;
if (!pObject)
{
//Something wrong, this object is still not there...
return FALSE ;
}
pCounter = LineFindCounter (pSystem, pObject, pPerfData, pLine) ;
if (!pCounter)
{
return FALSE ;
}
if (pObject &&
pLine->lnObject.NumInstances > 0 &&
pLine->lnInstanceName == NULL)
{
return FALSE ;
}
pInstance = LineFindInstance (pPerfData, pObject, pLine) ;
if (!pInstance)
{
if (pLine->lnParentObjName)
{
MemoryFree (pLine->lnParentObjName) ;
pLine->lnParentObjName = NULL ;
}
}

pLine->lnCounterType = pCounter->CounterType;
pLine->lnCounterLength = pCounter->CounterSize;

if (pSystem->lpszValue && strsame (pSystem->lpszValue, L"Global"))
{
DWORD dwBufferSize = MemorySize (pSystem->lpszValue) ;
memset (pSystem->lpszValue, 0, dwBufferSize) ;
}

AppendObjectToValueList (
pLine->lnObject.ObjectNameTitleIndex,
pSystem->lpszValue);


}

pObject = GetObjectDefByTitleIndex(
pPerfData,
pLine->lnObject.ObjectNameTitleIndex);

if (!pObject)
{
// Object Type no longer exists. This is possible if we are
// looking at a log file which has not always collected all
// the same data, such as appending measurements of different
// object types.

pCounterValue =
pCounterValue2 = (PDWORD) liDummy;
liDummy[0] = (LONGLONG)0;


pLine->lnNewTime = *(LONGLONG UNALIGNED *)(&pPerfData->PerfTime);

if (pLine->lnCounterType == PERF_COUNTER_TIMER_INV)
{
// Timer inverse with Performance Counter as timer
pLine->lnaOldCounterValue[0] = pLine->lnOldTime ;
pLine->lnaCounterValue[0] = pLine->lnNewTime ;
} else if (pLine->lnCounterType == PERF_100NSEC_TIMER_INV ||
pLine->lnCounterType == PERF_100NSEC_MULTI_TIMER_INV)
{
// Timer inverse with System Time as timer
pLine->lnaOldCounterValue[0] = pLine->lnOldTime100Ns ;
pLine->lnaCounterValue[0] = pLine->lnNewTime100Ns ;
} else
{
// Normal timer or counter
pLine->lnaOldCounterValue[0] =
pLine->lnaCounterValue[0] =
pLine->lnaOldCounterValue[1] =
pLine->lnaCounterValue[1] = liDummy[0] ;
}
return TRUE ;
}
else
{
pCounterDef = &pLine->lnCounterDef ;

if (pCounterDef->CounterType & PERF_OBJECT_TIMER) {
pLine->lnNewTime = *(LONGLONG UNALIGNED *)(&pObject->PerfTime);
} else {
pLine->lnNewTime = *(LONGLONG UNALIGNED *)(&pPerfData->PerfTime);
}

iCounterIndex = CounterIndex (pCounterDef, pObject) ;

// Get second counter, only if we are not at
// the end of the counters; some computations
// require a second counter

if (iCounterIndex < pObject->NumCounters-1 && iCounterIndex != -1) {
pCounterDef2 = GetCounterDef(pObject, iCounterIndex+1);
} else {
pCounterDef2 = NULL;
}

if (pObject->NumInstances > 0)
{

if ( pLine->lnUniqueID != PERF_NO_UNIQUE_ID ) {
pInstanceDef = GetInstanceByUniqueID(pObject,
pLine->lnUniqueID);
} else {

pInstanceDef =
GetInstanceByNameUsingParentTitleIndex(
pPerfData,
pObject,
pLine->lnInstanceName,
pLine->lnPINName);
}

if (pInstanceDef) {
pLine->lnInstanceDef = *pInstanceDef;
pCounterValue = GetInstanceCounterData(pObject,
pInstanceDef,
pCounterDef);
if ( pCounterDef2 ) {
pCounterValue2 = GetInstanceCounterData(pObject,
pInstanceDef,
pCounterDef2);
}
} else {
pCounterValue =
pCounterValue2 = (PDWORD) liDummy;
liDummy[0] = (LONGLONG) 0;
liDummy[1] = (LONGLONG) 0;
}

// Got everything...

} // instances exist, look at them for counter blocks

else
{
pCounterValue = GetCounterData(pObject, pCounterDef);
if (pCounterDef2)
{
pCounterValue2 = GetCounterData(pObject, pCounterDef2);
}

} // counter def search when no instances
}

pLine->lnaOldCounterValue[0] = pLine->lnaCounterValue[0] ;

if (pLine->lnCounterLength <= 4)
{
pLine->lnaCounterValue[0] = *pCounterValue;
pLine->lnaCounterValue[0] &= (LONGLONG) (0x0ffffffff) ;
}
else
{
pLine->lnaCounterValue[0] = *(LONGLONG UNALIGNED *) pCounterValue;
}

// Get second counter, only if we are not at
// the end of the counters; some computations
// require a second counter

if ( pCounterDef2 ) {
pLine->lnaOldCounterValue[1] =
pLine->lnaCounterValue[1] ;
if (pCounterDef2->CounterSize <= 4)
{
pLine->lnaCounterValue[1] = *pCounterValue2;
pLine->lnaCounterValue[1] &= (LONGLONG) (0x0ffffffff) ;
}
else
pLine->lnaCounterValue[1] =
*((LONGLONG UNALIGNED *) pCounterValue2);
}
return (TRUE) ;
} // UpdateLineData



BOOL UpdateSystemData (PPERFSYSTEM pSystem,
PPERFDATA *ppPerfData)
{ // UpdateSystemData
#define PERF_SYSTEM_TIMEOUT (60L * 1000L)
long lError ;
DWORD Status ;
DWORD Size;

if (!ppPerfData)
return (FALSE) ;

while (TRUE)
{
if (pSystem->FailureTime)
{
BOOL TimeToCheck = FALSE ;
DWORD CurrentTickCount = GetTickCount() ;

if (CurrentTickCount < pSystem->FailureTime) {
// wrap-around case
if (CurrentTickCount >= PERF_SYSTEM_TIMEOUT)
TimeToCheck = TRUE ;
else if ( ~pSystem->FailureTime >= PERF_SYSTEM_TIMEOUT)
TimeToCheck = TRUE ;
else if (CurrentTickCount + (~pSystem->FailureTime) >= PERF_SYSTEM_TIMEOUT)
TimeToCheck = TRUE ;
}
else {
if (CurrentTickCount - pSystem->FailureTime >= PERF_SYSTEM_TIMEOUT)
TimeToCheck = TRUE ;
}

if (TimeToCheck)
{
// free any memory hanging off this system
SystemFree (pSystem, FALSE) ;

// get the registry info
pSystem->sysDataKey = OpenSystemPerfData(pSystem->sysName) ;

Status = !ERROR_SUCCESS ;
if (pSystem->sysDataKey)
{
Status = GetSystemNames(pSystem);
}


if (Status != ERROR_SUCCESS)
{
// something wrong in getting the registry info,
// remote system must be still down (??)
pSystem->FailureTime = GetTickCount();

// Free any memory that may have created
SystemFree (pSystem, FALSE) ;

return (FALSE) ;
}

// time to check again
pSystem->FailureTime = 0 ;
}
else
{
// not time to check again
return (FALSE) ;
}
}

if (pSystem->FailureTime == 0 )
{
Size = MemorySize (*ppPerfData);

lError = GetSystemPerfData (pSystem->sysDataKey,
pSystem->lpszValue,
*ppPerfData,
&Size) ;
if ((!lError) &&
(Size > 0) &&
(*ppPerfData)->Signature[0] == (WCHAR)'P' &&
(*ppPerfData)->Signature[1] == (WCHAR)'E' &&
(*ppPerfData)->Signature[2] == (WCHAR)'R' &&
(*ppPerfData)->Signature[3] == (WCHAR)'F' )
{
if (pSystem->dwSystemState == SYSTEM_OK)
{
return (TRUE) ;
}
else if (pSystem->dwSystemState == SYSTEM_DOWN ||
pSystem->dwSystemState == SYSTEM_DOWN_RPT )
{
pSystem->dwSystemState = SYSTEM_RECONNECT ;
}
else if (pSystem->dwSystemState == SYSTEM_RECONNECT_RPT)
{
pSystem->dwSystemState = SYSTEM_OK ;
}
// for SYSTEM_RECONNECT case, we want to wait for Alert
// view to report the re-connection first
return (TRUE) ;
}

if (lError == ERROR_MORE_DATA)
{
*ppPerfData = MemoryResize (*ppPerfData,
MemorySize (*ppPerfData) +
dwPerfDataIncrease) ;
if (!*ppPerfData)
{
if (pSystem->dwSystemState != SYSTEM_DOWN_RPT)
{
pSystem->dwSystemState = SYSTEM_DOWN ;
}
pSystem->FailureTime = GetTickCount();
return (FALSE) ;
}
}
else
{
if (pSystem->dwSystemState != SYSTEM_DOWN_RPT)
{
pSystem->dwSystemState = SYSTEM_DOWN ;
}
pSystem->FailureTime = GetTickCount();
return (FALSE) ;
} // else
} // if
} // while
} // UpdateSystemData



BOOL FailedLinesForSystem (LPTSTR lpszSystem,
PPERFDATA pPerfData,
PLINE pLineFirst)
{ // FailedLinesForSystem
PLINE pLine ;
BOOL bMatchFound = FALSE ; // no line from this system

for (pLine = pLineFirst ;
pLine ;
pLine = pLine->pLineNext)
{ // for pLine
if (strsamei (lpszSystem, pLine->lnSystemName))
{
FailedLineData (pPerfData, pLine) ;
if (pLine->bFirstTime)
{
pLine->bFirstTime-- ;
}
bMatchFound = TRUE ; // one or more lines from this system
}
} // for pLine

return (bMatchFound) ;
}


BOOL UpdateLinesForSystem (LPTSTR lpszSystem,
PPERFDATA pPerfData,
PLINE pLineFirst,
PPERFSYSTEM pSystem)
{ // UpdateLinesForSystem
PLINE pLine ;
BOOL bMatchFound = FALSE ; // no line from this system

for (pLine = pLineFirst ;
pLine ;
pLine = pLine->pLineNext)
{ // for pLine
if (strsamei (lpszSystem, pLine->lnSystemName))
{
UpdateLineData (pPerfData, pLine, pSystem) ;
if (pLine->bFirstTime)
{
pLine->bFirstTime-- ;
}
bMatchFound = TRUE ; // one or more lines from this system
}
} // for pLine

return (bMatchFound) ;
}


BOOL PerfDataInitializeInstance (void)
{
// pGlobalPerfData = MemoryAllocate (STARTING_SYSINFO_SIZE) ;
// return (pGlobalPerfData != NULL) ;
return (TRUE) ;
}

NTSTATUS AddNamesToArray (LPTSTR lpNames,
DWORD dwLastId,
LPWSTR *lpCounterId)
{
LPWSTR lpThisName;
LPWSTR lpStopString;
DWORD dwThisCounter;
NTSTATUS Status = ERROR_SUCCESS;

for (lpThisName = lpNames;
*lpThisName;
)
{

// first string should be an integer (in decimal unicode digits)
dwThisCounter = wcstoul(lpThisName, &lpStopString, 10);

if ((dwThisCounter == 0) || (dwThisCounter == ULONG_MAX))
{
Status += 1;
goto ADD_BAILOUT; // bad entry
}

// point to corresponding counter name

while (*lpThisName++);

if (dwThisCounter <= dwLastId)
{

// and load array element;

lpCounterId[dwThisCounter] = lpThisName;

}

while (*lpThisName++);

}

ADD_BAILOUT:
return (Status) ;
}

// try the new way of getting data...

BOOL UpdateLines (PPPERFSYSTEM ppSystemFirst,
PLINE pLineFirst)
{
PPERFSYSTEM pSystem ;
int iNoUseSystemDetected = 0 ;
int NumberOfSystems = 0 ;
DWORD WaitStatus ;
HANDLE *lpPacketHandles ;

// allocate the handle array for multiple wait
if (NumberOfHandles == 0)
{
NumberOfHandles = MAXIMUM_WAIT_OBJECTS ;
lpHandles = (HANDLE *) MemoryAllocate (NumberOfHandles * sizeof (HANDLE)) ;
if (!lpHandles)
{
// out of memory, can't go on
NumberOfHandles = 0 ;
return FALSE ;
}
}


for (pSystem = *ppSystemFirst ;
pSystem ;
pSystem = pSystem->pSystemNext)
{ // for

// lock the state data mutex, should be quick unless this thread
// is still getting data from last time
if (pSystem->hStateDataMutex == 0)
continue ;

WaitStatus = WaitForSingleObject(pSystem->hStateDataMutex, 100L);
if (WaitStatus == WAIT_OBJECT_0)
{
ResetEvent (pSystem->hPerfDataEvent) ;
pSystem->StateData = WAIT_FOR_PERF_DATA ;

// add this to the wait
if (NumberOfSystems >= NumberOfHandles)
{
NumberOfHandles += MAXIMUM_WAIT_OBJECTS ;
lpHandles = (HANDLE *) MemoryResize (
lpHandles,
NumberOfHandles * sizeof (HANDLE)) ;
if (!lpHandles)
{
// out of memory, can't go on
NumberOfHandles = 0 ;
return FALSE ;
}
}

lpHandles [NumberOfSystems] = pSystem->hPerfDataEvent ;
NumberOfSystems++ ;

// Send Message to thread to take a data sample
PostThreadMessage (
pSystem->dwThreadID,
WM_GET_PERF_DATA,
(WPARAM)0,
(LPARAM)0) ;

ReleaseMutex(pSystem->hStateDataMutex);
}
}

// wait for all the data
if (NumberOfSystems)
{
// increase timeout if we are monitoring lots of systems
// For every additional 5 systems, add 5 more seconds
lpPacketHandles = lpHandles ;
do
{
WaitStatus = WaitForMultipleObjects (
min (NumberOfSystems, MAXIMUM_WAIT_OBJECTS),
lpPacketHandles,
TRUE, // wait for all objects
DataTimeOut + (NumberOfSystems / 5) * DEFAULT_DATA_TIMEOUT);

if (WaitStatus == WAIT_TIMEOUT ||
NumberOfSystems <= MAXIMUM_WAIT_OBJECTS)
{
//if (WaitStatus == WAIT_TIMEOUT)
// mike2(TEXT("WaitTimeOut for %ld systems\n"), NumberOfSystems) ;

break ;
}

// more systems --> more to wait
NumberOfSystems -= MAXIMUM_WAIT_OBJECTS ;
lpPacketHandles += MAXIMUM_WAIT_OBJECTS ;
} while (TRUE) ;

for (pSystem = *ppSystemFirst ;
pSystem ;
pSystem = pSystem->pSystemNext)
{ // for

if (pSystem->hStateDataMutex == 0)
continue ;

// lock the state data mutex
WaitStatus = WaitForSingleObject(pSystem->hStateDataMutex, 100L);
if (WaitStatus == WAIT_OBJECT_0)
{
if (pSystem->StateData != PERF_DATA_READY)
{
if (!FailedLinesForSystem (pSystem->sysName,
pSystem->pSystemPerfData,
pLineFirst))
{
if (!bAddLineInProgress)
{
// mark this system as no-longer-needed
iNoUseSystemDetected++ ;
pSystem->bSystemNoLongerNeeded = TRUE ;
}
}
}
else
{
if (!UpdateLinesForSystem (pSystem->sysName,
pSystem->pSystemPerfData,
pLineFirst,
pSystem))
{
if (!bAddLineInProgress)
{
// mark this system as no-longer-needed
iNoUseSystemDetected++ ;
pSystem->bSystemNoLongerNeeded = TRUE ;
}
}
}
pSystem->StateData = IDLE_STATE ;
ReleaseMutex(pSystem->hStateDataMutex);
}
else
{
if (!FailedLinesForSystem (pSystem->sysName,
pSystem->pSystemPerfData,
pLineFirst))
{
if (!bAddLineInProgress)
{
// mark this system as no-longer-needed
iNoUseSystemDetected++ ;
pSystem->bSystemNoLongerNeeded = TRUE ;
}
}
}
}

// check for un-used systems
if (iNoUseSystemDetected)
{
// some unused system(s) detected.
DeleteUnusedSystems (ppSystemFirst, iNoUseSystemDetected) ;
}
}

return (TRUE) ;
} // UpdateLines

void PerfDataThread (PPERFSYSTEM pSystem)
{
MSG msg ;
BOOL bGetPerfData ;
DWORD WaitStatus ;

while (GetMessage (&msg, NULL, 0, 0))
{
if (LOWORD(msg.message) == WM_GET_PERF_DATA)
{

// this system has been marked as no long used,
// forget about getting data and continue until
// we get to the WM_FREE_SYSTEM msg
if (pSystem->bSystemNoLongerNeeded)
continue ;

bGetPerfData = FALSE ;

if (!bAddLineInProgress ||
(pSystem->lpszValue &&
!strsame (pSystem->lpszValue, L"Global")))
{
bGetPerfData = UpdateSystemData (pSystem, &(pSystem->pSystemPerfData)) ;
}

WaitStatus = WaitForSingleObject(pSystem->hStateDataMutex, 1000L);
if (WaitStatus == WAIT_OBJECT_0)
{
if (pSystem->StateData == WAIT_FOR_PERF_DATA)
{
pSystem->StateData = bGetPerfData ?
PERF_DATA_READY : PERF_DATA_FAIL ;
}
else
{
//mike2(TEXT("Thread - System = %s, WaitStatus = %d\n"),
//pSystem->sysName, WaitStatus) ;
}
ReleaseMutex(pSystem->hStateDataMutex);
SetEvent (pSystem->hPerfDataEvent) ;
}
} // WM_GET_PERF_DATA MSG

else if (LOWORD(msg.message) == WM_FREE_SYSTEM)
{
//mike2(TEXT("Thread - System = %s closing\n"),
//pSystem->sysName) ;
// do the memory cleanup during SystemFree stage
// cleanup all the data collection variables
if (pSystem->hPerfDataEvent)
CloseHandle (pSystem->hPerfDataEvent) ;

if (pSystem->hStateDataMutex)
CloseHandle (pSystem->hStateDataMutex) ;

if (pSystem->pSystemPerfData)
MemoryFree (pSystem->pSystemPerfData);

if (pSystem->lpszValue) {
MemoryFree (pSystem->lpszValue);
pSystem->lpszValue = NULL ;
}

CloseHandle (pSystem->hThread);

MemoryFree (pSystem) ;
break ; // get out of message loop
} // WM_FREE_SYSTEM MSG
} // GetMessage Loop

ExitThread (TRUE) ;
} // PerfDataThread