Source code of Windows XP (NT5)
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236 lines
8.7 KiB

/*++
Copyright (c) 1996 Microsoft Corporation
Module Name:
perfexpr.c
Abstract:
This file implements an Performance Object that presents
Extended Process performance object data
Created:
Bob Watson 22-Oct-1996
Revision History
--*/
//
// Include Files
//
#include <nt.h>
#include <ntrtl.h>
#include <nturtl.h>
#include <windows.h>
#include <winperf.h>
#include <ntprfctr.h>
#include <perfutil.h>
#include "perfsprc.h"
#include "perfmsg.h"
#include "dataexpr.h"
DWORD APIENTRY
CollectExProcessObjectData (
IN OUT LPVOID *lppData,
IN OUT LPDWORD lpcbTotalBytes,
IN OUT LPDWORD lpNumObjectTypes
)
/*++
Routine Description:
This routine will return the data for the processor 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
--*/
{
DWORD TotalLen; // Length of the total return block
DWORD NumExProcessInstances;
PPROCESS_VA_INFO pThisProcess; // pointer to current process
PERF_INSTANCE_DEFINITION *pPerfInstanceDefinition;
EXPROCESS_DATA_DEFINITION *pExProcessDataDefinition;
PEXPROCESS_COUNTER_DATA pECD;
if (pProcessVaInfo) { // process only if a buffer is available
pExProcessDataDefinition = (EXPROCESS_DATA_DEFINITION *)*lppData;
// check for sufficient space in buffer for at least one entry
TotalLen = sizeof(EXPROCESS_DATA_DEFINITION) +
sizeof(PERF_INSTANCE_DEFINITION) +
(MAX_PROCESS_NAME_LENGTH + 1) * sizeof (WCHAR) +
sizeof(EXPROCESS_COUNTER_DATA);
if (*lpcbTotalBytes < TotalLen) {
*lpcbTotalBytes = 0;
*lpNumObjectTypes = 0;
return ERROR_MORE_DATA;
}
// copy process data block to buffer
memcpy (pExProcessDataDefinition,
&ExProcessDataDefinition,
sizeof(EXPROCESS_DATA_DEFINITION));
NumExProcessInstances = 0;
pThisProcess = pProcessVaInfo;
TotalLen = sizeof(EXPROCESS_DATA_DEFINITION);
pPerfInstanceDefinition = (PERF_INSTANCE_DEFINITION *)
&pExProcessDataDefinition[1];
while (pThisProcess) {
// see if this instance will fit
TotalLen += sizeof (PERF_INSTANCE_DEFINITION) +
(MAX_PROCESS_NAME_LENGTH + 1) * sizeof (WCHAR) +
sizeof (DWORD) +
sizeof (EXPROCESS_COUNTER_DATA);
if (*lpcbTotalBytes < TotalLen) {
*lpcbTotalBytes = 0;
*lpNumObjectTypes = 0;
return ERROR_MORE_DATA;
}
MonBuildInstanceDefinition (pPerfInstanceDefinition,
(PVOID *) &pECD,
0,
0,
(DWORD)-1,
pThisProcess->pProcessName->Buffer);
NumExProcessInstances++;
pECD->CounterBlock.ByteLength = sizeof (EXPROCESS_COUNTER_DATA);
// load counters from the process va data structure
pECD->ProcessId = pThisProcess->dwProcessId;
pECD->ImageReservedBytes = pThisProcess->ImageReservedBytes;
pECD->ImageFreeBytes = pThisProcess->ImageFreeBytes;
pECD->ReservedBytes = pThisProcess->ReservedBytes;
pECD->FreeBytes = pThisProcess->FreeBytes;
pECD->CommitNoAccess = pThisProcess->MappedCommit[NOACCESS];
pECD->CommitReadOnly = pThisProcess->MappedCommit[READONLY];
pECD->CommitReadWrite = pThisProcess->MappedCommit[READWRITE];
pECD->CommitWriteCopy = pThisProcess->MappedCommit[WRITECOPY];
pECD->CommitExecute = pThisProcess->MappedCommit[EXECUTE];
pECD->CommitExecuteRead = pThisProcess->MappedCommit[EXECUTEREAD];
pECD->CommitExecuteWrite = pThisProcess->MappedCommit[EXECUTEREADWRITE];
pECD->CommitExecuteWriteCopy = pThisProcess->MappedCommit[EXECUTEWRITECOPY];
pECD->ReservedNoAccess = pThisProcess->PrivateCommit[NOACCESS];
pECD->ReservedReadOnly = pThisProcess->PrivateCommit[READONLY];
pECD->ReservedReadWrite = pThisProcess->PrivateCommit[READWRITE];
pECD->ReservedWriteCopy = pThisProcess->PrivateCommit[WRITECOPY];
pECD->ReservedExecute = pThisProcess->PrivateCommit[EXECUTE];
pECD->ReservedExecuteRead = pThisProcess->PrivateCommit[EXECUTEREAD];
pECD->ReservedExecuteWrite = pThisProcess->PrivateCommit[EXECUTEREADWRITE];
pECD->ReservedExecuteWriteCopy = pThisProcess->PrivateCommit[EXECUTEWRITECOPY];
pECD->UnassignedNoAccess = pThisProcess->OrphanTotals.CommitVector[NOACCESS];
pECD->UnassignedReadOnly = pThisProcess->OrphanTotals.CommitVector[READONLY];
pECD->UnassignedReadWrite = pThisProcess->OrphanTotals.CommitVector[READWRITE];
pECD->UnassignedWriteCopy = pThisProcess->OrphanTotals.CommitVector[WRITECOPY];
pECD->UnassignedExecute = pThisProcess->OrphanTotals.CommitVector[EXECUTE];
pECD->UnassignedExecuteRead = pThisProcess->OrphanTotals.CommitVector[EXECUTEREAD];
pECD->UnassignedExecuteWrite = pThisProcess->OrphanTotals.CommitVector[EXECUTEREADWRITE];
pECD->UnassignedExecuteWriteCopy = pThisProcess->OrphanTotals.CommitVector[EXECUTEWRITECOPY];
pECD->ImageTotalNoAccess = pThisProcess->MemTotals.CommitVector[NOACCESS];
pECD->ImageTotalReadOnly = pThisProcess->MemTotals.CommitVector[READONLY];
pECD->ImageTotalReadWrite = pThisProcess->MemTotals.CommitVector[READWRITE];
pECD->ImageTotalWriteCopy = pThisProcess->MemTotals.CommitVector[WRITECOPY];
pECD->ImageTotalExecute = pThisProcess->MemTotals.CommitVector[EXECUTE];
pECD->ImageTotalExecuteRead = pThisProcess->MemTotals.CommitVector[EXECUTEREAD];
pECD->ImageTotalExecuteWrite = pThisProcess->MemTotals.CommitVector[EXECUTEREADWRITE];
pECD->ImageTotalExecuteWriteCopy = pThisProcess->MemTotals.CommitVector[EXECUTEWRITECOPY];
pPerfInstanceDefinition = (PERF_INSTANCE_DEFINITION *)&pECD[1];
pThisProcess = pThisProcess->pNextProcess; // point to next process
} // end while not at end of list
} // end if valid process info buffer
else {
// pProcessVaInfo is NULL. Initialize the DataDef and return
// with no data
pExProcessDataDefinition = (EXPROCESS_DATA_DEFINITION *)*lppData;
TotalLen = sizeof(EXPROCESS_DATA_DEFINITION) +
sizeof (PERF_INSTANCE_DEFINITION) +
(MAX_PROCESS_NAME_LENGTH + 1) * sizeof (WCHAR) +
sizeof (DWORD) +
sizeof (EXPROCESS_COUNTER_DATA);
if (*lpcbTotalBytes < TotalLen) {
*lpcbTotalBytes = 0;
*lpNumObjectTypes = 0;
return ERROR_MORE_DATA;
}
// copy process data block to buffer
memcpy (pExProcessDataDefinition,
&ExProcessDataDefinition,
sizeof(EXPROCESS_DATA_DEFINITION));
NumExProcessInstances = 0;
pPerfInstanceDefinition = (PERF_INSTANCE_DEFINITION *)
&pExProcessDataDefinition[1];
}
pExProcessDataDefinition->ExProcessObjectType.NumInstances =
NumExProcessInstances;
*lpcbTotalBytes =
pExProcessDataDefinition->ExProcessObjectType.TotalByteLength =
(DWORD)((PCHAR) pPerfInstanceDefinition -
(PCHAR) pExProcessDataDefinition);
*lppData = (LPVOID) pPerfInstanceDefinition;
*lpNumObjectTypes = 1;
return ERROR_SUCCESS;
}