win7下获取进程CPU,内存,IO等信息
首先感谢大神 luciferisnotsatan。让我知道了使用NtQuerySystemInformation这个方法获取相关的信息。网上大部分都是使用GetProcessMemoryInfo这个方法在获取,但是这个方法会受到win7权限影响。我测试了win7家庭版和旗舰版。家庭版中有一般所得进程是获取不到进程句柄的进而无法获取进程信息。旗舰版中360的相关进程无法获取。
后来又在网上专门搜索了下NtQuerySystemInformation,终于得到大神作品。http://www.cnblogs.com/einyboy/archive/2012/06/13/2548243.html。这段代码直接复制下来,在2010下面会有编译问题。所以整理了一下。得到如下代码
#include
#include
#define SYSTEM_PERF_INFO 0x02
#define SYSTEM_PROC_TIME 0x08
#define SYSTEM_PAGE_INFO 0x12
#define SYSTEM_CACHE_INFO 0x15
#define NT_PROCESSTHREAD_INFO 0x05
#define MAX_INFO_BUF_LEN 0x500000
#define STATUS_SUCCESS ((NTSTATUS)0x00000000L)
#define STATUS_INFO_LENGTH_MISMATCH ((NTSTATUS)0xC0000004L)
typedef LONG NTSTATUS;
typedef DWORD SYSTEM_INFORMATION_CLASS;
typedef struct _LSA_UNICODE_STRING
{
USHORT Length;
USHORT MaximumLength;
PWSTR Buffer;
}LSA_UNICODE_STRING,*PLSA_UNICODE_STRING;
typedef LSA_UNICODE_STRING UNICODE_STRING, *PUNICODE_STRING;
typedef struct _CLIENT_ID
{
HANDLE UniqueProcess;
HANDLE UniqueThread;
}CLIENT_ID;
typedef CLIENT_ID *PCLIENT_ID;
typedef LONG KPRIORITY;
typedef struct _VM_COUNTERS
{
ULONG PeakVirtualSize;
ULONG VirtualSize;
ULONG PageFaultCount;
ULONG PeakWorkingSetSize;
ULONG WorkingSetSize;
ULONG QuotaPeakPagedPoolUsage;
ULONG QuotaPagedPoolUsage;
ULONG QuotaPeakNonPagedPoolUsage;
ULONG QuotaNonPagedPoolUsage;
ULONG PagefileUsage;
ULONG PeakPagefileUsage;
}VM_COUNTERS,*PVM_COUNTERS;
typedef enum _THREAD_STATE
{
StateInitialized,
StateReady,
StateRunning,
StateStandby,
StateTerminated,
StateWait,
StateTransition,
StateUnknown
}THREAD_STATE;
typedef enum _KWAIT_REASON
{
Executive,
FreePage,
PageIn,
PoolAllocation,
DelayExecution,
Suspended,
UserRequest,
WrExecutive,
WrFreePage,
WrPageIn,
WrPoolAllocation,
WrDelayExecution,
WrSuspended,
WrUserRequest,
WrEventPair,
WrQueue,
WrLpcReceive,
WrLpcReply,
WrVertualMemory,
WrPageOut,
WrRendezvous,
Spare2,
Spare3,
Spare4,
Spare5,
Spare6,
WrKernel
}KWAIT_REASON;
typedef struct _SYSTEM_THREADS
{
LARGE_INTEGER KernelTime;
LARGE_INTEGER UserTime;
LARGE_INTEGER CreateTime;
ULONG WaitTime;
PVOID StartAddress;
CLIENT_ID ClientId;
KPRIORITY Priority;
KPRIORITY BasePriority;
ULONG ContextSwitchCount;
THREAD_STATE State;
KWAIT_REASON WaitReason;
}SYSTEM_THREADS,*PSYSTEM_THREADS;
typedef struct _SYSTEM_PROCESSES
{
ULONG NextEntryDelta;
ULONG ThreadCount;
ULONG Reserved1[6];
LARGE_INTEGER CreateTime;
LARGE_INTEGER UserTime;
LARGE_INTEGER KernelTime;
UNICODE_STRING ProcessName;
KPRIORITY BasePriority;
ULONG ProcessId;
ULONG InheritedFromProcessId;
ULONG HandleCount;
ULONG Reserved2[2];
VM_COUNTERS VmCounters;
IO_COUNTERS IoCounters;
SYSTEM_THREADS Threads[1];
}SYSTEM_PROCESSES,*PSYSTEM_PROCESSES;
typedef DWORD SYSTEM_INFORMATION_CLASS;
typedef NTSTATUS (__stdcall *NTQUERYSYSTEMINFORMATION)
(IN SYSTEM_INFORMATION_CLASS,
IN OUT PVOID,
IN ULONG,
OUT PULONG OPTIONAL);
NTQUERYSYSTEMINFORMATION NtQuerySystemInformation;
typedef struct _SYSTEM_PERFORMANCE_INFORMATION
{
LARGE_INTEGER IdleTime;
LARGE_INTEGER ReadTransferCount;
LARGE_INTEGER WriteTransferCount;
LARGE_INTEGER OtherTransferCount;
ULONG ReadOperationCount;
ULONG WriteOperationCount;
ULONG OtherOperationCount;
ULONG AvailablePages;
ULONG TotalCommittedPages;
ULONG TotalCommitLimit;
ULONG PeakCommitment;
ULONG PageFaults;
ULONG WriteCopyFaults;
ULONG TransitionFaults;
ULONG Reserved1;
ULONG DemandZeroFaults;
ULONG PagesRead;
ULONG PageReadIos;
ULONG Reserved2[2];
ULONG PagefilePagesWritten;
ULONG PagefilePageWriteIos;
ULONG MappedFilePagesWritten;
ULONG MappedFileWriteIos;
ULONG PagedPoolUsage;
ULONG NonPagedPoolUsage;
ULONG PagedPoolAllocs;
ULONG PagedPoolFrees;
ULONG NonPagedPoolAllocs;
ULONG NonPagedPoolFress;
ULONG TotalFreeSystemPtes;
ULONG SystemCodePage;
ULONG TotalSystemDriverPages;
ULONG TotalSystemCodePages;
ULONG SmallNonPagedLookasideListAllocateHits;
ULONG SmallPagedLookasideListAllocateHits;
ULONG Reserved3;
ULONG MmSystemCachePage;
ULONG PagedPoolPage;
ULONG SystemDriverPage;
ULONG FastReadNoWait;
ULONG FastReadWait;
ULONG FastReadResourceMiss;
ULONG FastReadNotPossible;
ULONG FastMdlReadNoWait;
ULONG FastMdlReadWait;
ULONG FastMdlReadResourceMiss;
ULONG FastMdlReadNotPossible;
ULONG MapDataNoWait;
ULONG MapDataWait;
ULONG MapDataNoWaitMiss;
ULONG MapDataWaitMiss;
ULONG PinMappedDataCount;
ULONG PinReadNoWait;
ULONG PinReadWait;
ULONG PinReadNoWaitMiss;
ULONG PinReadWaitMiss;
ULONG CopyReadNoWait;
ULONG CopyReadWait;
ULONG CopyReadNoWaitMiss;
ULONG CopyReadWaitMiss;
ULONG MdlReadNoWait;
ULONG MdlReadWait;
ULONG MdlReadNoWaitMiss;
ULONG MdlReadWaitMiss;
ULONG ReadAheadIos;
ULONG LazyWriteIos;
ULONG LazyWritePages;
ULONG DataFlushes;
ULONG DataPages;
ULONG ContextSwitches;
ULONG FirstLevelTbFills;
ULONG SecondLevelTbFills;
ULONG SystemCall;
}SYSTEM_PERFORMANCE_INFORMATION,*PSYSTEM_PERFORMANCE_INFORMATION;
typedef struct __SYSTEM_PROCESSOR_TIMES
{
LARGE_INTEGER IdleTime;
LARGE_INTEGER KernelTime;
LARGE_INTEGER UserTime;
LARGE_INTEGER DpcTime;
LARGE_INTEGER InterruptTime;
ULONG InterruptCount;
}SYSTEM_PROCESSOR_TIMES,*PSYSTEM_PROCESSOR_TIMES;
typedef struct _SYSTEM_PAGEFILE_INFORMATION
{
ULONG NetxEntryOffset;
ULONG CurrentSize;
ULONG TotalUsed;
ULONG PeakUsed;
UNICODE_STRING FileName;
}SYSTEM_PAGEFILE_INFORMATION,*PSYSTEM_PAGEFILE_INFORMATION;
typedef struct _SYSTEM_CACHE_INFORMATION
{
ULONG SystemCacheWsSize;
ULONG SystemCacheWsPeakSize;
ULONG SystemCacheWsFaults;
ULONG SystemCacheWsMinimum;
ULONG SystemCacheWsMaximum;
ULONG TransitionSharedPages;
ULONG TransitionSharedPagesPeak;
ULONG Reserved[2];
}SYSTEM_CACHE_INFORMATION,*PSYSTEM_CACHE_INFORMATION;
DWORD EnumProcess()
{
PSYSTEM_PROCESSES pSystemProc;
HMODULE hNtDll = NULL;
LPVOID lpSystemInfo = NULL;
DWORD dwNumberBytes = MAX_INFO_BUF_LEN;
DWORD dwTotalProcess = 0;
DWORD dwReturnLength;
NTSTATUS Status;
LONGLONG llTempTime;
__try
{
hNtDll = LoadLibrary("NtDll.dll");
if(hNtDll == NULL)
{
printf("LoadLibrary Error: %d\n",GetLastError());
__leave;
}
NtQuerySystemInformation = (NTQUERYSYSTEMINFORMATION)GetProcAddress(hNtDll,"NtQuerySystemInformation");
if(NtQuerySystemInformation == NULL)
{
printf("GetProcAddress for NtQuerySystemInformation Error: %d\n",GetLastError());
__leave;
}
lpSystemInfo = (LPVOID)malloc(dwNumberBytes);
Status = NtQuerySystemInformation(NT_PROCESSTHREAD_INFO, lpSystemInfo, dwNumberBytes, &dwReturnLength);
if(Status == STATUS_INFO_LENGTH_MISMATCH)
{
printf("STATUS_INFO_LENGTH_MISMATCH\n");
__leave;
}
else if(Status != STATUS_SUCCESS)
{
printf("NtQuerySystemInformation Error: %d\n",GetLastError());
__leave;
}
printf("%-20s%6s%7s%8s%6s%7s%7s%13s\n","ProcessName","PID","PPID","WsSize","Prio.","Thread","Handle","CPU Time");
printf("--------------------------------------------------------------------------\n");
pSystemProc = (PSYSTEM_PROCESSES)lpSystemInfo;
while(pSystemProc->NextEntryDelta != 0)
{
if(pSystemProc->ProcessId != 0)
{
wprintf(L"%-20s",pSystemProc->ProcessName.Buffer);
}
else
{
wprintf(L"%-20s",L"System Idle Process");
}
printf("%6d",pSystemProc->ProcessId);
printf("%7d",pSystemProc->InheritedFromProcessId);
printf("%7dK",pSystemProc->VmCounters.WorkingSetSize/1024);
printf("%6d",pSystemProc->BasePriority);
printf("%7d",pSystemProc->ThreadCount);
printf("%7d",pSystemProc->HandleCount);
llTempTime = pSystemProc->KernelTime.QuadPart + pSystemProc->UserTime.QuadPart;
llTempTime /= 10000;
printf("%3d:",llTempTime/(60*60*1000));
llTempTime %= 60*60*1000;
printf("%.2d:",llTempTime/(60*1000));
llTempTime %= 60*1000;
printf("%.2d.",llTempTime/1000);
llTempTime %= 1000;
printf("%.3d",llTempTime);
printf("\n");
dwTotalProcess ++;
pSystemProc = (PSYSTEM_PROCESSES)((char *)pSystemProc + pSystemProc->NextEntryDelta);
}
printf("--------------------------------------------------------------------------\n");
printf("\nTotal %d Process(es) !\n\n",dwTotalProcess);
printf("PID\t ==> Process Identification\n");
printf("PPID\t ==> Parent Process Identification\n");
printf("WsSize\t ==> Working Set Size\n");
printf("Prio.\t ==> Base Priority\n");
printf("Thread\t ==> Thread Count\n");
printf("Handle\t ==> Handle Count\n");
printf("CPU Time ==> Processor Time\n");
}
__finally
{
if(lpSystemInfo != NULL)
{
free(lpSystemInfo);
}
if(hNtDll != NULL)
{
FreeLibrary(hNtDll);
}
}
return 0;
}
DWORD SpeciProcess(DWORD dwPID)
{
PSYSTEM_PROCESSES pSystemProc = NULL;
PSYSTEM_THREADS pSystemThre = NULL;
HMODULE hNtDll = NULL;
LPVOID lpSystemInfo = NULL;
DWORD dwNumberBytes = MAX_INFO_BUF_LEN;
DWORD dwTotalProcess = 0;
DWORD dwReturnLength;
NTSTATUS Status;
LONGLONG llTempTime;
ULONG ulIndex;
__try
{
hNtDll = LoadLibrary("NtDll.dll");
if(hNtDll == NULL)
{
printf("LoadLibrary Error: %d\n",GetLastError());
__leave;
}
NtQuerySystemInformation = (NTQUERYSYSTEMINFORMATION)GetProcAddress(hNtDll,"NtQuerySystemInformation");
if(NtQuerySystemInformation == NULL)
{
printf("GetProcAddress for NtQuerySystemInformation Error: %d\n",GetLastError());
__leave;
}
lpSystemInfo = (LPVOID)malloc(dwNumberBytes);
Status = NtQuerySystemInformation(NT_PROCESSTHREAD_INFO, lpSystemInfo, dwNumberBytes, &dwReturnLength);
if(Status == STATUS_INFO_LENGTH_MISMATCH)
{
printf("STATUS_INFO_LENGTH_MISMATCH\n");
__leave;
}
else if(Status != STATUS_SUCCESS)
{
printf("NtQuerySystemInformation Error: %d\n",GetLastError());
__leave;
}
pSystemProc = (PSYSTEM_PROCESSES)lpSystemInfo;
while(pSystemProc->NextEntryDelta != 0)
{
if(pSystemProc->ProcessId == dwPID)
{
printf("ProcessName:\t\t ");
if(pSystemProc->ProcessId != 0)
{
wprintf(L"%-20s\n",pSystemProc->ProcessName.Buffer);
}
else
{
wprintf(L"%-20s\n",L"System Idle Process");
}
printf("ProcessID:\t\t %d\t\t",pSystemProc->ProcessId);
printf("ParentProcessID:\t%d\n",pSystemProc->InheritedFromProcessId);
printf("KernelTime:\t\t ");
llTempTime = pSystemProc->KernelTime.QuadPart;
llTempTime /= 10000;
printf("%d:",llTempTime/(60*60*1000));
llTempTime %= 60*60*1000;
printf("%.2d:",llTempTime/(60*1000));
llTempTime %= 60*1000;
printf("%.2d.",llTempTime/1000);
llTempTime %= 1000;
printf("%.3d\t",llTempTime);
printf("UserTime:\t\t");
llTempTime = pSystemProc->UserTime.QuadPart;
llTempTime /= 10000;
printf("%d:",llTempTime/(60*60*1000));
llTempTime %= 60*60*1000;
printf("%.2d:",llTempTime/(60*1000));
llTempTime %= 60*1000;
printf("%.2d.",llTempTime/1000);
llTempTime %= 1000;
printf("%.3d\n",llTempTime);
printf("Privilege:\t\t %d%%\t\t",(pSystemProc->KernelTime.QuadPart * 100)/(pSystemProc->KernelTime.QuadPart + pSystemProc->UserTime.QuadPart));
printf("User:\t\t\t%d%%\n",(pSystemProc->UserTime.QuadPart * 100)/(pSystemProc->KernelTime.QuadPart + pSystemProc->UserTime.QuadPart));
printf("ThreadCount:\t\t %d\t\t",pSystemProc->ThreadCount);
printf("HandleCount:\t\t%d\n",pSystemProc->HandleCount);
printf("BasePriority:\t\t %-2d\t\t",pSystemProc->BasePriority);
printf("PageFaultCount:\t\t%d\n\n",pSystemProc->VmCounters.PageFaultCount);
printf("PeakWorkingSetSize(K):\t %-8d\t",pSystemProc->VmCounters.PeakWorkingSetSize/1024);
printf("WorkingSetSize(K):\t%-8d\n",pSystemProc->VmCounters.WorkingSetSize/1024);
printf("PeakPagedPool(K):\t %-8d\t",pSystemProc->VmCounters.QuotaPeakPagedPoolUsage/1024);
printf("PagedPool(K):\t\t%-8d\n",pSystemProc->VmCounters.QuotaPagedPoolUsage/1024);
printf("PeakNonPagedPook(K):\t %-8d\t",pSystemProc->VmCounters.QuotaPeakNonPagedPoolUsage/1024);printf("NonePagedPook(K):\t%-8d\n",pSystemProc->VmCounters.QuotaNonPagedPoolUsage/1024);
printf("PeakPagefile(K):\t %-8d\t",pSystemProc->VmCounters.PeakPagefileUsage/1024);
printf("Pagefile(K):\t\t%-8d\n",pSystemProc->VmCounters.PagefileUsage/1024);
printf("PeakVirtualSize(K):\t %-8d\t",pSystemProc->VmCounters.PeakVirtualSize/1024);
printf("VirtualSize(K):\t\t%-8d\n\n",pSystemProc->VmCounters.VirtualSize/1024);
printf("ReadTransfer:\t\t %-8d\t",pSystemProc->IoCounters.ReadTransferCount);
printf("ReadOperationCount:\t%-8d\n",pSystemProc->IoCounters.ReadOperationCount);
printf("WriteTransfer:\t\t %-8d\t",pSystemProc->IoCounters.WriteTransferCount);
printf("WriteOperationCount:\t%-8d\n",pSystemProc->IoCounters.WriteOperationCount);
printf("OtherTransfer:\t\t %-8d\t",pSystemProc->IoCounters.OtherTransferCount);
printf("OtherOperationCount:\t%-8d\n\n",pSystemProc->IoCounters.OtherOperationCount);
printf("%-5s%3s%4s%5s%5s%11s%12s%12s%7s%6s%9s\n","TID","Pri","BPr","Priv","User","KernelTime","UserTime","StartAddr","CSwitC","State","WtReason");
printf("-------------------------------------------------------------------------------\n");
for(ulIndex = 0; ulIndex < pSystemProc->ThreadCount; ulIndex++)
{
pSystemThre = &pSystemProc->Threads[ulIndex];
printf("%-5d",pSystemProc->Threads[ulIndex].ClientId.UniqueThread);
printf("%3d",pSystemProc->Threads[ulIndex].Priority);
printf("%4d",pSystemProc->Threads[ulIndex].BasePriority);
printf("%4d%%",(pSystemProc->Threads[ulIndex].KernelTime.QuadPart * 100)/(pSystemProc->KernelTime.QuadPart + pSystemProc->UserTime.QuadPart));
printf("%4d%%",(pSystemProc->Threads[ulIndex].UserTime.QuadPart * 100)/(pSystemProc->KernelTime.QuadPart + pSystemProc->UserTime.QuadPart));
llTempTime = pSystemProc->Threads[ulIndex].KernelTime.QuadPart;
llTempTime /= 10000;
printf("%2d:",llTempTime/(60*60*1000));
llTempTime %= 60*60*1000;
printf("%.2d.",llTempTime/(60*1000));
llTempTime %= 60*1000;
printf("%.2d.",llTempTime/1000);
llTempTime %= 100;
printf("%.2d ",llTempTime);
llTempTime = pSystemProc->Threads[ulIndex].UserTime.QuadPart;
llTempTime /= 10000;
printf("%2d:",llTempTime/(60*60*1000));
llTempTime %= 60*60*1000;
printf("%.2d.",llTempTime/(60*1000));
llTempTime %= 60*1000;
printf("%.2d.",llTempTime/1000);
llTempTime %= 100;
printf("%.2d ",llTempTime);
printf(" 0x%.8X",pSystemProc->Threads[ulIndex].StartAddress);
printf("%7d",pSystemProc->Threads[ulIndex].ContextSwitchCount);
switch(pSystemProc->Threads[ulIndex].State)
{
case StateInitialized:
printf("%6s","Init.");
break;
case StateReady:
printf("%6s","Ready");
break;
case StateRunning:
printf("%6s","Run");
break;
case StateStandby:
printf("%6s","StBy.");
break;
case StateTerminated:
printf("%6s","Term.");
break;
case StateWait:
printf("%6s","Wait");
break;
case StateTransition:
printf("%6s","Tran.");
break;
case StateUnknown:
printf("%6s","Unkn.");
break;
default:
printf("%6s","Unkn.");
break;
}
switch(pSystemProc->Threads[ulIndex].WaitReason)
{
case Executive:
printf(" %-8s","Executi.");
break;
case FreePage:
printf(" %-8s","FreePag.");
break;
case PageIn:
printf(" %-8s","PageIn");
break;
case PoolAllocation:
printf(" %-8s","PoolAll.");
break;
case DelayExecution:
printf(" %-8s","DelayEx.");
break;
case Suspended:
printf(" %-8s","Suspend.");
break;
case UserRequest:
printf(" %-8s","UserReq.");
break;
case WrExecutive:
printf(" %-8s","WrExect.");
break;
case WrFreePage:
printf(" %-8s","WrFrePg.");
break;
case WrPageIn:
printf(" %-8s","WrPageIn");
break;
case WrPoolAllocation:
printf(" %-8s","WrPoolA.");
break;
case WrSuspended:
printf(" %-8s","WrSuspe.");
break;
case WrUserRequest:
printf(" %-8s","WrUsReq.");
break;
case WrEventPair:
printf(" %-8s","WrEvent.");
break;
case WrQueue:
printf(" %-8s","WrQueue");
break;
case WrLpcReceive:
printf(" %-8s","WrLpcRv.");
break;
case WrLpcReply:
printf(" %-8s","WrLpcRp.");
break;
case WrVertualMemory:
printf(" %-8s","WrVerMm.");
break;
case WrPageOut:
printf(" %-8s","WrPgOut.");
break;
case WrRendezvous:
printf(" %-8s","WrRende.");
break;
case WrKernel:
printf(" %-8s","WrKernel");
break;
default:
printf(" %-8s","Unknown");
break;
}
printf("\n");
}
printf("-------------------------------------------------------------------------------\n\n");
printf("Total %d Thread(s) !\n\n",ulIndex);
dwTotalProcess ++;
break;
}
pSystemProc = (PSYSTEM_PROCESSES)((char *)pSystemProc + pSystemProc->NextEntryDelta);
}
}
__finally
{
if(dwTotalProcess == 0)
{
printf("Could not found the %d Process !\n",dwPID);
}
else
{
printf("TID:\t\t====>\tThread Identification\n");
printf("Pri:\t\t====>\tPriority\n");
printf("BPr:\t\t====>\tBase Priority\n");
printf("Priv:\t\t====>\tPrivilege\n");
printf("StartAddr:\t====>\tThread Start Address\n");
printf("CSwitC:\t\t====>\tContext Switch Count\n");
printf("WtReason:\t====>\tWait Reason\n");
}
if(lpSystemInfo != NULL)
{
free(lpSystemInfo);
}
if(hNtDll != NULL)
{
FreeLibrary(hNtDll);
}
}
return 0;
}
VOID Start()
{
printf("T-PMList, by TOo2y\n");
printf("E-mail: [email protected]\n");
printf("HomePage: www.safechina.net\n");
printf("Date: 05-10-2003\n\n");
return ;
}
VOID Usage()
{
printf("Usage:\tT-PMList [-e] | [-s PID]\n");
printf(" -e\t Enumerate All Processes\n");
printf(" -s PID Show Special Process Information with PID\n\n");
return ;
}
DWORD PerfInfo()
{
SYSTEM_PERFORMANCE_INFORMATION SystemPerfInfo;
HMODULE hNtDll = NULL;
DWORD dwNumberBytes;
DWORD dwReturnLength;
NTSTATUS Status;
LONGLONG llTempTime;
__try
{
hNtDll = LoadLibrary("NtDll.dll");
if(hNtDll == NULL)
{
printf("LoadLibrary Error: %d\n",GetLastError());
__leave;
}
NtQuerySystemInformation = (NTQUERYSYSTEMINFORMATION)GetProcAddress(hNtDll,"NtQuerySystemInformation");
if(NtQuerySystemInformation == NULL)
{
printf("GetProcAddress for NtQuerySystemInformation Error: %d\n",GetLastError());
__leave;
}
dwNumberBytes = sizeof(SYSTEM_PERFORMANCE_INFORMATION);
Status = NtQuerySystemInformation(SYSTEM_PERF_INFO, &SystemPerfInfo, dwNumberBytes, &dwReturnLength);
if(Status != STATUS_SUCCESS)
{
printf("NtQuerySystemInformation for Performance Error: %d\n",GetLastError());
__leave;
}
printf("IdleTime:\t\t");
llTempTime = SystemPerfInfo.IdleTime.QuadPart;
llTempTime /= 10000;
printf("%d:",llTempTime/(60*60*1000));
llTempTime %= 60*60*1000;
printf("%.2d:",llTempTime/(60*1000));
llTempTime %= 60*1000;
printf("%.2d.",llTempTime/1000);
llTempTime %= 1000;
printf("%.3d\n",llTempTime);
printf("ReadOperationCount:\t%-10d\t",SystemPerfInfo.ReadOperationCount);
printf("ReadTransferCount:\t%d\n",SystemPerfInfo.ReadTransferCount);
printf("WriteOperationCount:\t%-10d\t",SystemPerfInfo.WriteOperationCount);
printf("WriteTransferCount:\t%d\n",SystemPerfInfo.WriteTransferCount);
printf("OtherOperationCount:\t%-10d\t",SystemPerfInfo.OtherOperationCount);
printf("OtherTransferCount:\t%d\n",SystemPerfInfo.OtherTransferCount);
printf("AvailablePages:\t\t%-10d\t",SystemPerfInfo.AvailablePages);
printf("TotalCommittedPage:\t%d\n",SystemPerfInfo.TotalCommittedPages);
printf("CommitLimit:\t\t%-10d\t",SystemPerfInfo.TotalCommitLimit);
printf("PeakCommitment:\t\t%d\n",SystemPerfInfo.PeakCommitment);
printf("PageFault:\t\t%-10d\t",SystemPerfInfo.PageFaults);
printf("WriteCopyFault:\t\t%d\n",SystemPerfInfo.WriteCopyFaults);
printf("TransitionFault:\t%-10d\t",SystemPerfInfo.TransitionFaults);
printf("DemandZeroFault:\t%d\n",SystemPerfInfo.DemandZeroFaults);
printf("PagesRead:\t\t%-10d\t",SystemPerfInfo.PagesRead);
printf("PageReadIos:\t\t%d\n",SystemPerfInfo.PageReadIos);
printf("PagesWritten:\t\t%-10d\t",SystemPerfInfo.PagefilePagesWritten);
printf("PageWriteIos:\t\t%d\n",SystemPerfInfo.PagefilePageWriteIos);
printf("MappedFilePagesWritten:\t%-10d\t",SystemPerfInfo.MappedFilePagesWritten);
printf("MappedFileWriteIos:\t%d\n",SystemPerfInfo.MappedFileWriteIos);
printf("PagedPoolUsage:\t\t%-10d\t",SystemPerfInfo.PagedPoolUsage);
printf("NonPagedPoolUsage:\t%d\n",SystemPerfInfo.NonPagedPoolUsage);
printf("PagedPoolAllocs:\t%-10d\t",SystemPerfInfo.PagedPoolAllocs);
printf("NonPagedPoolAllocs:\t%d\n",SystemPerfInfo.NonPagedPoolAllocs);
printf("PagedPoolFrees:\t\t%-10d\t",SystemPerfInfo.PagedPoolFrees);
printf("NonPagedPoolFrees:\t%d\n",SystemPerfInfo.NonPagedPoolFress);
printf("SystemCodePage:\t\t%-10d\t",SystemPerfInfo.SystemCodePage);
printf("TotalSystemCodePage:\t%d\n",SystemPerfInfo.TotalSystemCodePages);
printf("TotalFreeSysPTE:\t%-10d\t",SystemPerfInfo.TotalFreeSystemPtes);
printf("TotalSystemDriverPages:\t%d\n",SystemPerfInfo.TotalSystemDriverPages);
printf("PagedPoolPage:\t\t%-10d\t",SystemPerfInfo.PagedPoolPage);
printf("SystemDriverPage:\t%d\n",SystemPerfInfo.SystemDriverPage);
printf("FastReadWait:\t\t%-10d\t",SystemPerfInfo.FastReadWait);
printf("FastReadNoWait:\t\t%d\n",SystemPerfInfo.FastReadNoWait);
printf("FastReadNoPossible:\t%-10d\t",SystemPerfInfo.FastReadNotPossible);
printf("FastReadResourceMiss:\t%d\n",SystemPerfInfo.FastReadResourceMiss);
printf("FastMdlReadWait:\t%-10d\t",SystemPerfInfo.FastMdlReadWait);
printf("FastMdlReadNoWait:\t%d\n",SystemPerfInfo.FastMdlReadNoWait);
printf("FastMdlReadNotPossible:\t%-10d\t",SystemPerfInfo.FastMdlReadNotPossible);
printf("FastMdlReadResourceMiss:%d\n",SystemPerfInfo.FastMdlReadResourceMiss);
printf("MapDataWait:\t\t%-10d\t",SystemPerfInfo.MapDataWait);
printf("MapDataNoWait:\t\t%d\n",SystemPerfInfo.MapDataNoWait);
printf("MapDataWaitMiss:\t%-10d\t",SystemPerfInfo.MapDataWaitMiss);
printf("MapDataNoWaitMiss:\t%d\n",SystemPerfInfo.MapDataNoWaitMiss);
printf("ReadAheadIos:\t\t%-10d\t",SystemPerfInfo.ReadAheadIos);
printf("PinMappedDataCount:\t%d\n",SystemPerfInfo.PinMappedDataCount);
printf("PinReadWait:\t\t%-10d\t",SystemPerfInfo.PinReadWait);
printf("PinReadNoWait:\t\t%d\n",SystemPerfInfo.PinReadNoWait);
printf("PinReadWaitMiss:\t%-10d\t",SystemPerfInfo.PinReadWaitMiss);
printf("PinReadNoWaitMiss:\t%d\n",SystemPerfInfo.PinReadNoWaitMiss);
printf("CopyReadWait:\t\t%-10d\t",SystemPerfInfo.CopyReadWait);
printf("CopyReadNoWait:\t\t%d\n",SystemPerfInfo.CopyReadNoWait);
printf("CopyReadWaitMiss:\t%-10d\t",SystemPerfInfo.CopyReadWaitMiss);
printf("CopyReadNoWaitMiss:\t%-10d\n",SystemPerfInfo.CopyReadNoWaitMiss);
printf("MdlReadWait:\t\t%-10d\t",SystemPerfInfo.MdlReadWait);
printf("MdlReadNoWait:\t\t%d\n",SystemPerfInfo.MdlReadNoWait);
printf("MdlReadWaitMiss:\t%-10d\t",SystemPerfInfo.MdlReadWaitMiss);
printf("MdlReadNoWaitMiss:\t%d\n",SystemPerfInfo.MdlReadNoWaitMiss);
printf("LazyWriteIos:\t\t%-10d\t",SystemPerfInfo.LazyWriteIos);
printf("LazyWritePages:\t\t%d\n",SystemPerfInfo.LazyWritePages);
printf("DataPages:\t\t%-10d\t",SystemPerfInfo.DataPages);
printf("DataFlushes:\t\t%d\n",SystemPerfInfo.DataFlushes);
printf("FirstLevelTbFills:\t%-10d\t",SystemPerfInfo.FirstLevelTbFills);
printf("SecondLevelTbFills:\t%d\n",SystemPerfInfo.SecondLevelTbFills);
printf("ContextSwitches:\t%-10d\t",SystemPerfInfo.ContextSwitches);
printf("SytemCall:\t\t%d\n",SystemPerfInfo.SystemCall);
printf("MemorySystemCachePage:\t\t\t%d\n",SystemPerfInfo.MmSystemCachePage);
printf("SmallPagedLookasideListAllocateHits:\t%d\n",SystemPerfInfo.SmallPagedLookasideListAllocateHits);
printf("SmallNonPagedLookasideListAllocateHits:\t%d\n",SystemPerfInfo.SmallNonPagedLookasideListAllocateHits);
}
__finally
{
if(hNtDll != NULL)
{
FreeLibrary(hNtDll);
}
}
return 0;
}
DWORD ProcTime()
{
SYSTEM_PROCESSOR_TIMES SystemProcTime;
HMODULE hNtDll = NULL;
DWORD dwNumberBytes;
DWORD dwReturnLength;
NTSTATUS Status;
LONGLONG llTempTime;
__try
{
hNtDll = LoadLibrary("NtDll.dll");
if(hNtDll == NULL)
{
printf("LoadLibrary Error: %d\n",GetLastError());
__leave;
}
NtQuerySystemInformation = (NTQUERYSYSTEMINFORMATION)GetProcAddress(hNtDll,"NtQuerySystemInformation");
if(NtQuerySystemInformation == NULL)
{
printf("GetProcAddress for NtQuerySystemInformation Error: %d\n",GetLastError());
__leave;
}
dwNumberBytes = sizeof(SYSTEM_PROCESSOR_TIMES);
NtQuerySystemInformation = (NTQUERYSYSTEMINFORMATION)GetProcAddress(hNtDll,"NtQuerySystemInformation");
if(NtQuerySystemInformation == NULL)
{
printf("GetProcAddress Error: %d\n",GetLastError());
__leave;
}
Status = NtQuerySystemInformation(SYSTEM_PROC_TIME, &SystemProcTime, dwNumberBytes, &dwReturnLength);
if(Status != STATUS_SUCCESS)
{
printf("NtQuerySystemInformation for Processor Time Error: %d\n",GetLastError());
__leave;
}
printf("IdleTime:\t\t");
llTempTime = SystemProcTime.IdleTime.QuadPart;
llTempTime /= 10000;
printf("%d:",llTempTime/(60*60*1000));
llTempTime %= 60*60*1000;
printf("%.2d:",llTempTime/(60*1000));
llTempTime %= 60*1000;
printf("%.2d.",llTempTime/1000);
llTempTime %= 1000;
printf("%.3d\n",llTempTime);
printf("KernelTime:\t\t");
llTempTime = SystemProcTime.KernelTime.QuadPart;
llTempTime /= 10000;
printf("%d:",llTempTime/(60*60*1000));
llTempTime %= 60*60*1000;
printf("%.2d:",llTempTime/(60*1000));
llTempTime %= 60*1000;
printf("%.2d.",llTempTime/1000);
llTempTime %= 1000;
printf("%.3d\n",llTempTime);
printf("UserTime:\t\t");
llTempTime = SystemProcTime.UserTime.QuadPart;
llTempTime /= 10000;
printf("%d:",llTempTime/(60*60*1000));
llTempTime %= 60*60*1000;
printf("%.2d:",llTempTime/(60*1000));
llTempTime %= 60*1000;
printf("%.2d.",llTempTime/1000);
llTempTime %= 1000;
printf("%.3d\n",llTempTime);
printf("DpcTime:\t\t");
llTempTime = SystemProcTime.DpcTime.QuadPart;
llTempTime /= 10000;
printf("%d:",llTempTime/(60*60*1000));
llTempTime %= 60*60*1000;
printf("%.2d:",llTempTime/(60*1000));
llTempTime %= 60*1000;
printf("%.2d.",llTempTime/1000);
llTempTime %= 1000;
printf("%.3d\n",llTempTime);
printf("InterruptTime:\t\t");
llTempTime = SystemProcTime.InterruptTime.QuadPart;
llTempTime /= 10000;
printf("%d:",llTempTime/(60*60*1000));
llTempTime %= 60*60*1000;
printf("%.2d:",llTempTime/(60*1000));
llTempTime %= 60*1000;
printf("%.2d.",llTempTime/1000);
llTempTime %= 1000;
printf("%.3d\n",llTempTime);
printf("InterruptCount:\t\t%d\n",SystemProcTime.InterruptCount);
}
__finally
{
if(hNtDll != NULL)
{
FreeLibrary(hNtDll);
}
}
return 0;
}
DWORD PagefileInfo()
{
PSYSTEM_PAGEFILE_INFORMATION pSystemPagefileInfo;
PVOID pBuffer;
HMODULE hNtDll = NULL;
DWORD dwNumberBytes;
DWORD dwReturnLength;
NTSTATUS Status;
__try
{
hNtDll = LoadLibrary("NtDll.dll");
if(hNtDll == NULL)
{
printf("LoadLibrary Error: %d\n",GetLastError());
__leave;
}
NtQuerySystemInformation = (NTQUERYSYSTEMINFORMATION)GetProcAddress(hNtDll,"NtQuerySystemInformation");
if(NtQuerySystemInformation == NULL)
{
printf("GetProcAddress for NtQuerySystemInformation Error: %d\n",GetLastError());
__leave;
}
dwNumberBytes = MAX_INFO_BUF_LEN;
pBuffer = (LPVOID)malloc(dwNumberBytes);
Status = NtQuerySystemInformation(SYSTEM_PAGE_INFO, pBuffer, dwNumberBytes, &dwReturnLength);
if(Status != STATUS_SUCCESS)
{
printf("NtQuerySystemInformation for Pagefile Error: %d\n",GetLastError());
__leave;
}
pSystemPagefileInfo = (PSYSTEM_PAGEFILE_INFORMATION)pBuffer;
do
{
printf("CurrentPagefileSize:\t%d\n",pSystemPagefileInfo->CurrentSize);
printf("TotalPagefileUsed:\t%d\n",pSystemPagefileInfo->TotalUsed);
printf("PeakPagefileUsed:\t%d\n",pSystemPagefileInfo->PeakUsed);
wprintf(L"PagefileFileName:\t%s\n",pSystemPagefileInfo->FileName.Buffer);
pSystemPagefileInfo = (PSYSTEM_PAGEFILE_INFORMATION)((char *)pBuffer + pSystemPagefileInfo->NetxEntryOffset);
}while(pSystemPagefileInfo->NetxEntryOffset != 0);
}
__finally
{
if(pBuffer != NULL)
{
free(pBuffer);
}
if(hNtDll != NULL)
{
FreeLibrary(hNtDll);
}
}
return 0;
}
DWORD CacheInfo()
{
SYSTEM_CACHE_INFORMATION SystemCacheInfo;
HMODULE hNtDll = NULL;
DWORD dwNumberBytes;
DWORD dwReturnLength;
NTSTATUS Status;
__try
{
hNtDll = LoadLibrary("NtDll.dll");
if(hNtDll == NULL)
{
printf("LoadLibrary Error: %d\n",GetLastError());
__leave;
}
NtQuerySystemInformation = (NTQUERYSYSTEMINFORMATION)GetProcAddress(hNtDll,"NtQuerySystemInformation");
if(NtQuerySystemInformation == NULL)
{
printf("GetProcAddress for NtQuerySystemInformation Error: %d\n",GetLastError());
__leave;
}
dwNumberBytes = sizeof(SYSTEM_CACHE_INFORMATION);
Status = NtQuerySystemInformation(SYSTEM_CACHE_INFO, &SystemCacheInfo, dwNumberBytes, &dwReturnLength);
if(Status != STATUS_SUCCESS)
{
printf("NtQuerySystemInformation for Cache Error: %d\n",GetLastError());
__leave;
}
printf("CacheWorkingSetSize:\t\t%d(KB)\n",SystemCacheInfo.SystemCacheWsSize/1024);
printf("CacheWorkingSetPeakSize:\t%d(KB)\n",SystemCacheInfo.SystemCacheWsPeakSize/1024);
printf("CacheWorkingSetFaults:\t\t%d\n",SystemCacheInfo.SystemCacheWsFaults);
printf("CacheWorkingSetMinimum:\t\t%d\n",SystemCacheInfo.SystemCacheWsMinimum);
printf("CacheWorkingSetMaximum:\t\t%d\n",SystemCacheInfo.SystemCacheWsMaximum);
printf("TransitionSharedPages:\t\t%d\n",SystemCacheInfo.TransitionSharedPages);
printf("TransitionSharedPagesPeak:\t%d\n",SystemCacheInfo.TransitionSharedPagesPeak);
}__finally
{
if(hNtDll != NULL)
{
FreeLibrary(hNtDll);
}
}
return 0;
}
void main()
{
EnumProcess();
SpeciProcess(3416); //自己找个进程ID
PerfInfo();
ProcTime();
PagefileInfo();
CacheInfo();
}