/*++ Copyright (c) 1996 Microsoft Corporation Module Name: perfmem.c Abstract: This file implements an Performance Object that presents System Memory Performance Object Created: Bob Watson 22-Oct-1996 Revision History --*/ // // Include Files // #include #include #include #include #include #include #include #include #include "perfos.h" #include "perfosmc.h" #include "datamem.h" static DWORD dwOpenCount = 0; // count of "Open" threads DWORD APIENTRY CollectMemoryObjectData ( IN OUT LPVOID *lppData, IN OUT LPDWORD lpcbTotalBytes, IN OUT LPDWORD lpNumObjectTypes ) /*++ Routine Description: This routine will return the data for the XXX object Arguments: 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 *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 writted to the DWORD pointed to by this argument IN OUT LPDWORD NumObjectTypes IN: the address of the DWORD to receive the number of objects added by this routine OUT: the number of objects added by this routine is writted to the DWORD pointed to by this argument Returns: 0 if successful, else Win 32 error code of failure --*/ { NTSTATUS Status; DWORD TotalLen; // Length of the total return block PMEMORY_DATA_DEFINITION pMemoryDataDefinition; SYSTEM_FILECACHE_INFORMATION FileCache; PMEMORY_COUNTER_DATA pMCD; DWORD LocalPageSize; pMemoryDataDefinition = (MEMORY_DATA_DEFINITION *) *lppData; // // Check for enough space for memory data block // TotalLen = sizeof(MEMORY_DATA_DEFINITION) + sizeof(MEMORY_COUNTER_DATA); TotalLen = QWORD_MULTIPLE (TotalLen); if ( *lpcbTotalBytes < TotalLen ) { *lpcbTotalBytes = (DWORD) 0; *lpNumObjectTypes = (DWORD) 0; return ERROR_MORE_DATA; } Status = NtQuerySystemInformation( SystemFileCacheInformation, &FileCache, sizeof(FileCache), NULL ); if (!NT_SUCCESS(Status)) { ReportEvent (hEventLog, EVENTLOG_WARNING_TYPE, 0, PERFOS_UNABLE_QUERY_FILE_CACHE_INFO, NULL, 0, sizeof(DWORD), NULL, (LPVOID)&Status); memset (&FileCache, 0, sizeof(FileCache)); } // // Define memory data block // memcpy (pMemoryDataDefinition, &MemoryDataDefinition, sizeof(MEMORY_DATA_DEFINITION)); // // Format and collect memory data // LocalPageSize = BasicInfo.PageSize; pMCD = (PMEMORY_COUNTER_DATA)&pMemoryDataDefinition[1]; pMCD->CounterBlock.ByteLength = sizeof (MEMORY_COUNTER_DATA); pMCD->AvailablePages = SysPerfInfo.AvailablePages; pMCD->AvailablePages *= LocalPageSize; // display as bytes pMCD->AvailableKBytes = pMCD->AvailablePages / 1024; pMCD->AvailableMBytes = pMCD->AvailableKBytes / 1024; pMCD->CommittedPages = SysPerfInfo.CommittedPages; pMCD->CommittedPages *= LocalPageSize; pMCD->CommitList = SysPerfInfo.CommitLimit; pMCD->CommitList *= LocalPageSize; pMCD->PageFaults = SysPerfInfo.PageFaultCount; pMCD->WriteCopies = SysPerfInfo.CopyOnWriteCount; pMCD->TransitionFaults = SysPerfInfo.TransitionCount; pMCD->CacheFaults = FileCache.PageFaultCount; pMCD->DemandZeroFaults = SysPerfInfo.DemandZeroCount; pMCD->Pages = SysPerfInfo.PageReadCount + SysPerfInfo.DirtyPagesWriteCount; pMCD->PagesInput = SysPerfInfo.PageReadCount; pMCD->PageReads = SysPerfInfo.PageReadIoCount; pMCD->DirtyPages = SysPerfInfo.DirtyPagesWriteCount; pMCD->DirtyWrites = SysPerfInfo.DirtyWriteIoCount; pMCD->PagedPool = SysPerfInfo.PagedPoolPages; pMCD->PagedPool *= LocalPageSize; pMCD->NonPagedPool = SysPerfInfo.NonPagedPoolPages; pMCD->NonPagedPool *= LocalPageSize; pMCD->PagedPoolAllocs = SysPerfInfo.PagedPoolAllocs - SysPerfInfo.PagedPoolFrees; pMCD->NonPagedPoolAllocs = SysPerfInfo.NonPagedPoolAllocs - SysPerfInfo.NonPagedPoolFrees; pMCD->FreeSystemPtes = SysPerfInfo.FreeSystemPtes; pMCD->CacheBytes = FileCache.CurrentSize; pMCD->PeakCacheBytes = FileCache.PeakSize; pMCD->ResidentPagedPoolBytes = SysPerfInfo.ResidentPagedPoolPage; pMCD->ResidentPagedPoolBytes *= LocalPageSize; pMCD->TotalSysCodeBytes = SysPerfInfo.TotalSystemCodePages; pMCD->TotalSysCodeBytes *= LocalPageSize; pMCD->ResidentSysCodeBytes = SysPerfInfo.ResidentSystemCodePage; pMCD->ResidentSysCodeBytes *= LocalPageSize; pMCD->TotalSysDriverBytes = SysPerfInfo.TotalSystemDriverPages; pMCD->TotalSysDriverBytes *= LocalPageSize; pMCD->ResidentSysDriverBytes = SysPerfInfo.ResidentSystemDriverPage; pMCD->ResidentSysDriverBytes *= LocalPageSize; pMCD->ResidentSysCacheBytes = SysPerfInfo.ResidentSystemCachePage; pMCD->ResidentSysCacheBytes *= LocalPageSize; // This is reported as a percentage of CommittedPages/CommitLimit. // these value return a value in "page" units. Since this is a // fraction, the page size (i.e. converting pages to bytes) will // cancel out and as such can be ignored, saving some CPU cycles // pMCD->CommitBytesInUse = SysPerfInfo.CommittedPages; pMCD->CommitBytesLimit = SysPerfInfo.CommitLimit; #if 0 // no longer supported // load the VLM counters - this should really be removed period. pMCD->SystemVlmCommitCharge = 0; pMCD->SystemVlmPeakCommitCharge = 0; pMCD->SystemVlmSharedCommitCharge = 0; #endif *lppData = (LPVOID)&pMCD[1]; // round up buffer to the nearest QUAD WORD *lppData = ALIGN_ON_QWORD (*lppData); *lpcbTotalBytes = pMemoryDataDefinition->MemoryObjectType.TotalByteLength = (DWORD)((LPBYTE)*lppData - (LPBYTE)pMemoryDataDefinition); *lpNumObjectTypes = 1; return ERROR_SUCCESS; }