6 * Copyright (C) 1999 - 2001 Brian Palmer <brianp@reactos.org>
8 * This library is free software; you can redistribute it and/or
9 * modify it under the terms of the GNU Lesser General Public
10 * License as published by the Free Software Foundation; either
11 * version 2.1 of the License, or (at your option) any later version.
13 * This library is distributed in the hope that it will be useful,
14 * but WITHOUT ANY WARRANTY; without even the implied warranty of
15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
16 * Lesser General Public License for more details.
18 * You should have received a copy of the GNU Lesser General Public
19 * License along with this library; if not, write to the Free Software
20 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
23 #define WIN32_LEAN_AND_MEAN /* Exclude rarely-used stuff from Windows headers */
35 PROCNTQSI NtQuerySystemInformation
= NULL
;
36 PROCGGR pGetGuiResources
= NULL
;
37 PROCGPIC pGetProcessIoCounters
= NULL
;
38 CRITICAL_SECTION PerfDataCriticalSection
;
39 PPERFDATA pPerfDataOld
= NULL
; /* Older perf data (saved to establish delta values) */
40 PPERFDATA pPerfData
= NULL
; /* Most recent copy of perf data */
41 ULONG ProcessCountOld
= 0;
42 ULONG ProcessCount
= 0;
46 LARGE_INTEGER liOldIdleTime
= {{0,0}};
47 double OldKernelTime
= 0;
48 LARGE_INTEGER liOldSystemTime
= {{0,0}};
49 SYSTEM_PERFORMANCE_INFORMATION SystemPerfInfo
;
50 SYSTEM_BASIC_INFORMATION SystemBasicInfo
;
51 SYSTEM_CACHE_INFORMATION SystemCacheInfo
;
52 SYSTEM_HANDLE_INFORMATION SystemHandleInfo
;
53 PSYSTEM_PROCESSORTIME_INFO SystemProcessorTimeInfo
= NULL
;
55 BOOL
PerfDataInitialize(void)
59 NtQuerySystemInformation
= (PROCNTQSI
)GetProcAddress(GetModuleHandle(_T("ntdll.dll")), "NtQuerySystemInformation");
60 pGetGuiResources
= (PROCGGR
)GetProcAddress(GetModuleHandle(_T("user32.dll")), "GetGuiResources");
61 pGetProcessIoCounters
= (PROCGPIC
)GetProcAddress(GetModuleHandle(_T("kernel32.dll")), "GetProcessIoCounters");
63 InitializeCriticalSection(&PerfDataCriticalSection
);
65 if (!NtQuerySystemInformation
)
69 * Get number of processors in the system
71 status
= NtQuerySystemInformation(SystemBasicInformation
, &SystemBasicInfo
, sizeof(SystemBasicInfo
), NULL
);
72 if (status
!= NO_ERROR
)
78 void PerfDataUninitialize(void)
80 NtQuerySystemInformation
= NULL
;
82 DeleteCriticalSection(&PerfDataCriticalSection
);
85 void PerfDataRefresh(void)
91 PSYSTEM_PROCESS_INFORMATION pSPI
;
96 TCHAR szTemp
[MAX_PATH
];
98 SYSTEM_PERFORMANCE_INFORMATION SysPerfInfo
;
99 SYSTEM_TIME_INFORMATION SysTimeInfo
;
100 SYSTEM_CACHE_INFORMATION SysCacheInfo
;
101 LPBYTE SysHandleInfoData
;
102 PSYSTEM_PROCESSORTIME_INFO SysProcessorTimeInfo
;
103 double CurrentKernelTime
;
106 if (!NtQuerySystemInformation
)
109 /* Get new system time */
110 status
= NtQuerySystemInformation(SystemTimeInformation
, &SysTimeInfo
, sizeof(SysTimeInfo
), 0);
111 if (status
!= NO_ERROR
)
114 /* Get new CPU's idle time */
115 status
= NtQuerySystemInformation(SystemPerformanceInformation
, &SysPerfInfo
, sizeof(SysPerfInfo
), NULL
);
116 if (status
!= NO_ERROR
)
119 /* Get system cache information */
120 status
= NtQuerySystemInformation(SystemCacheInformation
, &SysCacheInfo
, sizeof(SysCacheInfo
), NULL
);
121 if (status
!= NO_ERROR
)
124 /* Get processor time information */
125 SysProcessorTimeInfo
= (PSYSTEM_PROCESSORTIME_INFO
)malloc(sizeof(SYSTEM_PROCESSORTIME_INFO
) * SystemBasicInfo
.bKeNumberProcessors
);
126 status
= NtQuerySystemInformation(SystemProcessorTimeInformation
, SysProcessorTimeInfo
, sizeof(SYSTEM_PROCESSORTIME_INFO
) * SystemBasicInfo
.bKeNumberProcessors
, &ulSize
);
127 if (status
!= NO_ERROR
)
130 /* Get handle information
131 * We don't know how much data there is so just keep
132 * increasing the buffer size until the call succeeds
137 BufferSize
+= 0x10000;
138 SysHandleInfoData
= (LPBYTE
)malloc(BufferSize
);
140 status
= NtQuerySystemInformation(SystemHandleInformation
, SysHandleInfoData
, BufferSize
, &ulSize
);
142 if (status
== 0xC0000004 /*STATUS_INFO_LENGTH_MISMATCH*/) {
143 free(SysHandleInfoData
);
146 } while (status
== 0xC0000004 /*STATUS_INFO_LENGTH_MISMATCH*/);
148 /* Get process information
149 * We don't know how much data there is so just keep
150 * increasing the buffer size until the call succeeds
155 BufferSize
+= 0x10000;
156 pBuffer
= (LPBYTE
)malloc(BufferSize
);
158 status
= NtQuerySystemInformation(SystemProcessInformation
, pBuffer
, BufferSize
, &ulSize
);
160 if (status
== 0xC0000004 /*STATUS_INFO_LENGTH_MISMATCH*/) {
164 } while (status
== 0xC0000004 /*STATUS_INFO_LENGTH_MISMATCH*/);
166 EnterCriticalSection(&PerfDataCriticalSection
);
169 * Save system performance info
171 memcpy(&SystemPerfInfo
, &SysPerfInfo
, sizeof(SYSTEM_PERFORMANCE_INFORMATION
));
174 * Save system cache info
176 memcpy(&SystemCacheInfo
, &SysCacheInfo
, sizeof(SYSTEM_CACHE_INFORMATION
));
179 * Save system processor time info
181 if (SystemProcessorTimeInfo
) {
182 free(SystemProcessorTimeInfo
);
184 SystemProcessorTimeInfo
= SysProcessorTimeInfo
;
187 * Save system handle info
189 memcpy(&SystemHandleInfo
, SysHandleInfoData
, sizeof(SYSTEM_HANDLE_INFORMATION
));
190 free(SysHandleInfoData
);
192 for (CurrentKernelTime
=0, Idx
=0; Idx
<SystemBasicInfo
.bKeNumberProcessors
; Idx
++) {
193 CurrentKernelTime
+= Li2Double(SystemProcessorTimeInfo
[Idx
].KernelTime
);
194 CurrentKernelTime
+= Li2Double(SystemProcessorTimeInfo
[Idx
].DpcTime
);
195 CurrentKernelTime
+= Li2Double(SystemProcessorTimeInfo
[Idx
].InterruptTime
);
198 /* If it's a first call - skip idle time calcs */
199 if (liOldIdleTime
.QuadPart
!= 0) {
200 /* CurrentValue = NewValue - OldValue */
201 dbIdleTime
= Li2Double(SysPerfInfo
.liIdleTime
) - Li2Double(liOldIdleTime
);
202 dbKernelTime
= CurrentKernelTime
- OldKernelTime
;
203 dbSystemTime
= Li2Double(SysTimeInfo
.liKeSystemTime
) - Li2Double(liOldSystemTime
);
205 /* CurrentCpuIdle = IdleTime / SystemTime */
206 dbIdleTime
= dbIdleTime
/ dbSystemTime
;
207 dbKernelTime
= dbKernelTime
/ dbSystemTime
;
209 /* CurrentCpuUsage% = 100 - (CurrentCpuIdle * 100) / NumberOfProcessors */
210 dbIdleTime
= 100.0 - dbIdleTime
* 100.0 / (double)SystemBasicInfo
.bKeNumberProcessors
; /* + 0.5; */
211 dbKernelTime
= 100.0 - dbKernelTime
* 100.0 / (double)SystemBasicInfo
.bKeNumberProcessors
; /* + 0.5; */
214 /* Store new CPU's idle and system time */
215 liOldIdleTime
= SysPerfInfo
.liIdleTime
;
216 liOldSystemTime
= SysTimeInfo
.liKeSystemTime
;
217 OldKernelTime
= CurrentKernelTime
;
219 /* Determine the process count
220 * We loop through the data we got from NtQuerySystemInformation
221 * and count how many structures there are (until RelativeOffset is 0)
223 ProcessCountOld
= ProcessCount
;
225 pSPI
= (PSYSTEM_PROCESS_INFORMATION
)pBuffer
;
228 if (pSPI
->RelativeOffset
== 0)
230 pSPI
= (PSYSTEM_PROCESS_INFORMATION
)((LPBYTE
)pSPI
+ pSPI
->RelativeOffset
);
233 /* Now alloc a new PERFDATA array and fill in the data */
237 pPerfDataOld
= pPerfData
;
238 pPerfData
= (PPERFDATA
)malloc(sizeof(PERFDATA
) * ProcessCount
);
239 pSPI
= (PSYSTEM_PROCESS_INFORMATION
)pBuffer
;
240 for (Idx
=0; Idx
<ProcessCount
; Idx
++) {
241 /* Get the old perf data for this process (if any) */
242 /* so that we can establish delta values */
244 for (Idx2
=0; Idx2
<ProcessCountOld
; Idx2
++) {
245 if (pPerfDataOld
[Idx2
].ProcessId
== pSPI
->ProcessId
) {
246 pPDOld
= &pPerfDataOld
[Idx2
];
251 /* Clear out process perf data structure */
252 memset(&pPerfData
[Idx
], 0, sizeof(PERFDATA
));
254 if (pSPI
->Name
.Buffer
)
255 lstrcpyW(pPerfData
[Idx
].ImageName
, pSPI
->Name
.Buffer
);
258 static const WCHAR idleW
[] = {'S','y','s','t','e','m',' ','I','d','l','e',' ','P','r','o','c','e','s','s',0};
259 lstrcpyW(pPerfData
[Idx
].ImageName
, idleW
);
262 pPerfData
[Idx
].ProcessId
= pSPI
->ProcessId
;
265 double CurTime
= Li2Double(pSPI
->KernelTime
) + Li2Double(pSPI
->UserTime
);
266 double OldTime
= Li2Double(pPDOld
->KernelTime
) + Li2Double(pPDOld
->UserTime
);
267 double CpuTime
= (CurTime
- OldTime
) / dbSystemTime
;
268 CpuTime
= CpuTime
* 100.0 / (double)SystemBasicInfo
.bKeNumberProcessors
; /* + 0.5; */
269 pPerfData
[Idx
].CPUUsage
= (ULONG
)CpuTime
;
271 pPerfData
[Idx
].CPUTime
.QuadPart
= pSPI
->UserTime
.QuadPart
+ pSPI
->KernelTime
.QuadPart
;
272 pPerfData
[Idx
].WorkingSetSizeBytes
= pSPI
->TotalWorkingSetSizeBytes
;
273 pPerfData
[Idx
].PeakWorkingSetSizeBytes
= pSPI
->PeakWorkingSetSizeBytes
;
275 pPerfData
[Idx
].WorkingSetSizeDelta
= labs((LONG
)pSPI
->TotalWorkingSetSizeBytes
- (LONG
)pPDOld
->WorkingSetSizeBytes
);
277 pPerfData
[Idx
].WorkingSetSizeDelta
= 0;
278 pPerfData
[Idx
].PageFaultCount
= pSPI
->PageFaultCount
;
280 pPerfData
[Idx
].PageFaultCountDelta
= labs((LONG
)pSPI
->PageFaultCount
- (LONG
)pPDOld
->PageFaultCount
);
282 pPerfData
[Idx
].PageFaultCountDelta
= 0;
283 pPerfData
[Idx
].VirtualMemorySizeBytes
= pSPI
->TotalVirtualSizeBytes
;
284 pPerfData
[Idx
].PagedPoolUsagePages
= pSPI
->TotalPagedPoolUsagePages
;
285 pPerfData
[Idx
].NonPagedPoolUsagePages
= pSPI
->TotalNonPagedPoolUsagePages
;
286 pPerfData
[Idx
].BasePriority
= pSPI
->BasePriority
;
287 pPerfData
[Idx
].HandleCount
= pSPI
->HandleCount
;
288 pPerfData
[Idx
].ThreadCount
= pSPI
->ThreadCount
;
289 pPerfData
[Idx
].SessionId
= pSPI
->SessionId
;
291 hProcess
= OpenProcess(PROCESS_QUERY_INFORMATION
, FALSE
, pSPI
->ProcessId
);
293 if (OpenProcessToken(hProcess
, TOKEN_QUERY
|TOKEN_DUPLICATE
|TOKEN_IMPERSONATE
, &hProcessToken
)) {
294 ImpersonateLoggedOnUser(hProcessToken
);
295 memset(szTemp
, 0, sizeof(TCHAR
[MAX_PATH
]));
297 GetUserName(szTemp
, &dwSize
);
299 MultiByteToWideChar(CP_ACP
, MB_PRECOMPOSED
, szTemp
, -1, pPerfData
[Idx
].UserName
, MAX_PATH
);
301 int MultiByteToWideChar(
302 UINT CodePage, // code page
303 DWORD dwFlags, // character-type options
304 LPCSTR lpMultiByteStr, // string to map
305 int cbMultiByte, // number of bytes in string
306 LPWSTR lpWideCharStr, // wide-character buffer
307 int cchWideChar // size of buffer
312 CloseHandle(hProcessToken
);
314 if (pGetGuiResources
) {
315 pPerfData
[Idx
].USERObjectCount
= pGetGuiResources(hProcess
, GR_USEROBJECTS
);
316 pPerfData
[Idx
].GDIObjectCount
= pGetGuiResources(hProcess
, GR_GDIOBJECTS
);
318 if (pGetProcessIoCounters
)
319 pGetProcessIoCounters(hProcess
, &pPerfData
[Idx
].IOCounters
);
320 CloseHandle(hProcess
);
322 pPerfData
[Idx
].UserTime
.QuadPart
= pSPI
->UserTime
.QuadPart
;
323 pPerfData
[Idx
].KernelTime
.QuadPart
= pSPI
->KernelTime
.QuadPart
;
324 pSPI
= (PSYSTEM_PROCESS_INFORMATION
)((LPBYTE
)pSPI
+ pSPI
->RelativeOffset
);
327 LeaveCriticalSection(&PerfDataCriticalSection
);
330 ULONG
PerfDataGetProcessCount(void)
335 ULONG
PerfDataGetProcessorUsage(void)
337 return (ULONG
)dbIdleTime
;
340 ULONG
PerfDataGetProcessorSystemUsage(void)
342 return (ULONG
)dbKernelTime
;
345 BOOL
PerfDataGetImageName(ULONG Index
, LPTSTR lpImageName
, int nMaxCount
)
349 EnterCriticalSection(&PerfDataCriticalSection
);
351 if (Index
< ProcessCount
) {
353 wcsncpy(lpImageName
, pPerfData
[Index
].ImageName
, nMaxCount
);
355 WideCharToMultiByte(CP_ACP
, 0, pPerfData
[Index
].ImageName
, -1, lpImageName
, nMaxCount
, NULL
, NULL
);
362 LeaveCriticalSection(&PerfDataCriticalSection
);
366 ULONG
PerfDataGetProcessId(ULONG Index
)
370 EnterCriticalSection(&PerfDataCriticalSection
);
372 if (Index
< ProcessCount
)
373 ProcessId
= pPerfData
[Index
].ProcessId
;
377 LeaveCriticalSection(&PerfDataCriticalSection
);
382 BOOL
PerfDataGetUserName(ULONG Index
, LPTSTR lpUserName
, int nMaxCount
)
386 EnterCriticalSection(&PerfDataCriticalSection
);
388 if (Index
< ProcessCount
) {
390 wcsncpy(lpUserName
, pPerfData
[Index
].UserName
, nMaxCount
);
392 WideCharToMultiByte(CP_ACP
, 0, pPerfData
[Index
].UserName
, -1, lpUserName
, nMaxCount
, NULL
, NULL
);
400 LeaveCriticalSection(&PerfDataCriticalSection
);
405 ULONG
PerfDataGetSessionId(ULONG Index
)
409 EnterCriticalSection(&PerfDataCriticalSection
);
411 if (Index
< ProcessCount
)
412 SessionId
= pPerfData
[Index
].SessionId
;
416 LeaveCriticalSection(&PerfDataCriticalSection
);
421 ULONG
PerfDataGetCPUUsage(ULONG Index
)
425 EnterCriticalSection(&PerfDataCriticalSection
);
427 if (Index
< ProcessCount
)
428 CpuUsage
= pPerfData
[Index
].CPUUsage
;
432 LeaveCriticalSection(&PerfDataCriticalSection
);
437 TIME
PerfDataGetCPUTime(ULONG Index
)
439 TIME CpuTime
= {{0,0}};
441 EnterCriticalSection(&PerfDataCriticalSection
);
443 if (Index
< ProcessCount
)
444 CpuTime
= pPerfData
[Index
].CPUTime
;
446 LeaveCriticalSection(&PerfDataCriticalSection
);
451 ULONG
PerfDataGetWorkingSetSizeBytes(ULONG Index
)
453 ULONG WorkingSetSizeBytes
;
455 EnterCriticalSection(&PerfDataCriticalSection
);
457 if (Index
< ProcessCount
)
458 WorkingSetSizeBytes
= pPerfData
[Index
].WorkingSetSizeBytes
;
460 WorkingSetSizeBytes
= 0;
462 LeaveCriticalSection(&PerfDataCriticalSection
);
464 return WorkingSetSizeBytes
;
467 ULONG
PerfDataGetPeakWorkingSetSizeBytes(ULONG Index
)
469 ULONG PeakWorkingSetSizeBytes
;
471 EnterCriticalSection(&PerfDataCriticalSection
);
473 if (Index
< ProcessCount
)
474 PeakWorkingSetSizeBytes
= pPerfData
[Index
].PeakWorkingSetSizeBytes
;
476 PeakWorkingSetSizeBytes
= 0;
478 LeaveCriticalSection(&PerfDataCriticalSection
);
480 return PeakWorkingSetSizeBytes
;
483 ULONG
PerfDataGetWorkingSetSizeDelta(ULONG Index
)
485 ULONG WorkingSetSizeDelta
;
487 EnterCriticalSection(&PerfDataCriticalSection
);
489 if (Index
< ProcessCount
)
490 WorkingSetSizeDelta
= pPerfData
[Index
].WorkingSetSizeDelta
;
492 WorkingSetSizeDelta
= 0;
494 LeaveCriticalSection(&PerfDataCriticalSection
);
496 return WorkingSetSizeDelta
;
499 ULONG
PerfDataGetPageFaultCount(ULONG Index
)
501 ULONG PageFaultCount
;
503 EnterCriticalSection(&PerfDataCriticalSection
);
505 if (Index
< ProcessCount
)
506 PageFaultCount
= pPerfData
[Index
].PageFaultCount
;
510 LeaveCriticalSection(&PerfDataCriticalSection
);
512 return PageFaultCount
;
515 ULONG
PerfDataGetPageFaultCountDelta(ULONG Index
)
517 ULONG PageFaultCountDelta
;
519 EnterCriticalSection(&PerfDataCriticalSection
);
521 if (Index
< ProcessCount
)
522 PageFaultCountDelta
= pPerfData
[Index
].PageFaultCountDelta
;
524 PageFaultCountDelta
= 0;
526 LeaveCriticalSection(&PerfDataCriticalSection
);
528 return PageFaultCountDelta
;
531 ULONG
PerfDataGetVirtualMemorySizeBytes(ULONG Index
)
533 ULONG VirtualMemorySizeBytes
;
535 EnterCriticalSection(&PerfDataCriticalSection
);
537 if (Index
< ProcessCount
)
538 VirtualMemorySizeBytes
= pPerfData
[Index
].VirtualMemorySizeBytes
;
540 VirtualMemorySizeBytes
= 0;
542 LeaveCriticalSection(&PerfDataCriticalSection
);
544 return VirtualMemorySizeBytes
;
547 ULONG
PerfDataGetPagedPoolUsagePages(ULONG Index
)
549 ULONG PagedPoolUsagePages
;
551 EnterCriticalSection(&PerfDataCriticalSection
);
553 if (Index
< ProcessCount
)
554 PagedPoolUsagePages
= pPerfData
[Index
].PagedPoolUsagePages
;
556 PagedPoolUsagePages
= 0;
558 LeaveCriticalSection(&PerfDataCriticalSection
);
560 return PagedPoolUsagePages
;
563 ULONG
PerfDataGetNonPagedPoolUsagePages(ULONG Index
)
565 ULONG NonPagedPoolUsagePages
;
567 EnterCriticalSection(&PerfDataCriticalSection
);
569 if (Index
< ProcessCount
)
570 NonPagedPoolUsagePages
= pPerfData
[Index
].NonPagedPoolUsagePages
;
572 NonPagedPoolUsagePages
= 0;
574 LeaveCriticalSection(&PerfDataCriticalSection
);
576 return NonPagedPoolUsagePages
;
579 ULONG
PerfDataGetBasePriority(ULONG Index
)
583 EnterCriticalSection(&PerfDataCriticalSection
);
585 if (Index
< ProcessCount
)
586 BasePriority
= pPerfData
[Index
].BasePriority
;
590 LeaveCriticalSection(&PerfDataCriticalSection
);
595 ULONG
PerfDataGetHandleCount(ULONG Index
)
599 EnterCriticalSection(&PerfDataCriticalSection
);
601 if (Index
< ProcessCount
)
602 HandleCount
= pPerfData
[Index
].HandleCount
;
606 LeaveCriticalSection(&PerfDataCriticalSection
);
611 ULONG
PerfDataGetThreadCount(ULONG Index
)
615 EnterCriticalSection(&PerfDataCriticalSection
);
617 if (Index
< ProcessCount
)
618 ThreadCount
= pPerfData
[Index
].ThreadCount
;
622 LeaveCriticalSection(&PerfDataCriticalSection
);
627 ULONG
PerfDataGetUSERObjectCount(ULONG Index
)
629 ULONG USERObjectCount
;
631 EnterCriticalSection(&PerfDataCriticalSection
);
633 if (Index
< ProcessCount
)
634 USERObjectCount
= pPerfData
[Index
].USERObjectCount
;
638 LeaveCriticalSection(&PerfDataCriticalSection
);
640 return USERObjectCount
;
643 ULONG
PerfDataGetGDIObjectCount(ULONG Index
)
645 ULONG GDIObjectCount
;
647 EnterCriticalSection(&PerfDataCriticalSection
);
649 if (Index
< ProcessCount
)
650 GDIObjectCount
= pPerfData
[Index
].GDIObjectCount
;
654 LeaveCriticalSection(&PerfDataCriticalSection
);
656 return GDIObjectCount
;
659 BOOL
PerfDataGetIOCounters(ULONG Index
, PIO_COUNTERS pIoCounters
)
663 EnterCriticalSection(&PerfDataCriticalSection
);
665 if (Index
< ProcessCount
)
667 memcpy(pIoCounters
, &pPerfData
[Index
].IOCounters
, sizeof(IO_COUNTERS
));
673 LeaveCriticalSection(&PerfDataCriticalSection
);
678 ULONG
PerfDataGetCommitChargeTotalK(void)
683 EnterCriticalSection(&PerfDataCriticalSection
);
685 Total
= SystemPerfInfo
.MmTotalCommitedPages
;
686 PageSize
= SystemBasicInfo
.uPageSize
;
688 LeaveCriticalSection(&PerfDataCriticalSection
);
690 Total
= Total
* (PageSize
/ 1024);
695 ULONG
PerfDataGetCommitChargeLimitK(void)
700 EnterCriticalSection(&PerfDataCriticalSection
);
702 Limit
= SystemPerfInfo
.MmTotalCommitLimit
;
703 PageSize
= SystemBasicInfo
.uPageSize
;
705 LeaveCriticalSection(&PerfDataCriticalSection
);
707 Limit
= Limit
* (PageSize
/ 1024);
712 ULONG
PerfDataGetCommitChargePeakK(void)
717 EnterCriticalSection(&PerfDataCriticalSection
);
719 Peak
= SystemPerfInfo
.MmPeakLimit
;
720 PageSize
= SystemBasicInfo
.uPageSize
;
722 LeaveCriticalSection(&PerfDataCriticalSection
);
724 Peak
= Peak
* (PageSize
/ 1024);
729 ULONG
PerfDataGetKernelMemoryTotalK(void)
736 EnterCriticalSection(&PerfDataCriticalSection
);
738 Paged
= SystemPerfInfo
.PoolPagedBytes
;
739 NonPaged
= SystemPerfInfo
.PoolNonPagedBytes
;
740 PageSize
= SystemBasicInfo
.uPageSize
;
742 LeaveCriticalSection(&PerfDataCriticalSection
);
744 Paged
= Paged
* (PageSize
/ 1024);
745 NonPaged
= NonPaged
* (PageSize
/ 1024);
747 Total
= Paged
+ NonPaged
;
752 ULONG
PerfDataGetKernelMemoryPagedK(void)
757 EnterCriticalSection(&PerfDataCriticalSection
);
759 Paged
= SystemPerfInfo
.PoolPagedBytes
;
760 PageSize
= SystemBasicInfo
.uPageSize
;
762 LeaveCriticalSection(&PerfDataCriticalSection
);
764 Paged
= Paged
* (PageSize
/ 1024);
769 ULONG
PerfDataGetKernelMemoryNonPagedK(void)
774 EnterCriticalSection(&PerfDataCriticalSection
);
776 NonPaged
= SystemPerfInfo
.PoolNonPagedBytes
;
777 PageSize
= SystemBasicInfo
.uPageSize
;
779 LeaveCriticalSection(&PerfDataCriticalSection
);
781 NonPaged
= NonPaged
* (PageSize
/ 1024);
786 ULONG
PerfDataGetPhysicalMemoryTotalK(void)
791 EnterCriticalSection(&PerfDataCriticalSection
);
793 Total
= SystemBasicInfo
.uMmNumberOfPhysicalPages
;
794 PageSize
= SystemBasicInfo
.uPageSize
;
796 LeaveCriticalSection(&PerfDataCriticalSection
);
798 Total
= Total
* (PageSize
/ 1024);
803 ULONG
PerfDataGetPhysicalMemoryAvailableK(void)
808 EnterCriticalSection(&PerfDataCriticalSection
);
810 Available
= SystemPerfInfo
.MmAvailablePages
;
811 PageSize
= SystemBasicInfo
.uPageSize
;
813 LeaveCriticalSection(&PerfDataCriticalSection
);
815 Available
= Available
* (PageSize
/ 1024);
820 ULONG
PerfDataGetPhysicalMemorySystemCacheK(void)
825 EnterCriticalSection(&PerfDataCriticalSection
);
827 SystemCache
= SystemCacheInfo
.CurrentSize
;
828 PageSize
= SystemBasicInfo
.uPageSize
;
830 LeaveCriticalSection(&PerfDataCriticalSection
);
832 /* SystemCache = SystemCache * (PageSize / 1024); */
833 SystemCache
= SystemCache
/ 1024;
838 ULONG
PerfDataGetSystemHandleCount(void)
842 EnterCriticalSection(&PerfDataCriticalSection
);
844 HandleCount
= SystemHandleInfo
.Count
;
846 LeaveCriticalSection(&PerfDataCriticalSection
);
851 ULONG
PerfDataGetTotalThreadCount(void)
853 ULONG ThreadCount
= 0;
856 EnterCriticalSection(&PerfDataCriticalSection
);
858 for (i
=0; i
<ProcessCount
; i
++)
860 ThreadCount
+= pPerfData
[i
].ThreadCount
;
863 LeaveCriticalSection(&PerfDataCriticalSection
);