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2006
01-20

枚举本地-远程NT系统进程

Windows2000中有个工具taskmgr.exe就可以比较详细的查看当前系统进程信息,但是那是Windows GUI程序,有时候是不是觉得命令行下的东西更方便呢?其实已经有不少命令行下的枚举系统进程的工具了,M$的Resource Kit中好象也有,但去了解他们是怎么实现的,自己动手做出来,是不是更有意思呢:)

  进程通常被定义为一个正在运行的程序的实例,它由两部分组成:

  <1>操作系统用来管理进程的内核对象。内核对象也是系统用来存放关于进程的统计信息的地方。

  <2>地址空间。它包含所有可执行模块或DLL模块的代码和数据。它还包含动态内存分配的空间,如线程的堆栈和堆分配空间。

  枚举系统进程的实现方法大概有四种,其中有一种可以用来枚举远程NT系统的进程,前提是有远程系统的管理员权限。



<<第一部分:调用PSAPI函数枚举系统进程>>

   M$的Windows NT开发小组开发了自己Process Status函数,包含在PSAPI.DLL文件中,这些函数只能在高于NT4.0以后的版本中使用。PSAPI一共有14个函数[实际PSAPI.DLL输出函数有19个,但其中有5个函数有两个版本,分别是ANSI和Unicode版本],通过调用这些函数,我们可以很方便的取得系统进程的所有信息,例如进程名、进程ID、父进程ID、进程优先级、映射到进程空间的模块列表等等。为了方便起见,以下的例子程序只获取进程的名字和ID。

   简单的程序如下:

/*********************************************************** **************

Module:ps.c

说明:调用PSAPI函数枚举系统进程名和ID,Only for NT/2000

************************************************************ *************/

#include

#include

#include “psapi.h”



#pragma comment(lib,”psapi.lib”)



void PrintProcessNameAndID( DWORD processID )

{

   char szProcessName[MAX_PATH] = “unknown”;

   //取得进程的句柄

   HANDLE hProcess = OpenProcess( PROCESS_QUERY_INFORMATION |

                  PROCESS_VM_READ,

                  FALSE, processID );

   //取得进程名称

   if ( hProcess )

   {

     HMODULE hMod;

     DWORD cbNeeded;

     if ( EnumProcessModules( hProcess, &hMod, sizeof(hMod), &cbNeeded) )

      GetModuleBaseName( hProcess, hMod, szProcessName,

sizeof(szProcessName) );

   }

   //回显进程名称和ID

   printf( “\n%-20s%-20d”, szProcessName, processID );

   CloseHandle( hProcess );

}



void main( )

{

   DWORD aProcesses[1024], cbNeeded, cProcesses;

   unsigned int i;

   //枚举系统进程ID列表

   if ( !EnumProcesses( aProcesses, sizeof(aProcesses), &cbNeeded ) )

     return;

   // Calculate how many process identifiers were returned.

   //计算进程数量

   cProcesses = cbNeeded / sizeof(DWORD);

   // 输出每个进程的名称和ID

   for ( i = 0; i < cProcesses; i++ )

    PrintProcessNameAndID( aProcesses );

   return;

}



<<第二部分:调用ToolHelp API枚举本地系统进程>>

  在第一部分提到的PSAPI函数只能枚举NT系统的进程,在Windows9x环境下我们可以通过调用ToolHelp API函数来达到枚举系统进程的目的。M$的Windows NT开发小组因为不喜欢ToolHelp函数,所以没有将这些函数添加给Windows NT,所以他们开发了自己的Process Status函数,就是第一部分提到的PSAPI了。但是后来M$已经将ToolHelp函数添加给了Windows 2000。ToolHelp共有12个函数,通过调用这些函数可以方面的取得本地系统进程的详细信息,以下这个简单的例子只调用了三个函数,获取我们所需要系统进程名字和进程ID。程序如下:

/*********************************************************** ***********

Module:ps.c

说明:调用ToolHelp函数枚举本地系统进程名和ID,Only for 9x/2000

************************************************************ **********/

#include

#include

#include





int main()

{

  HANDLE     hProcessSnap = NULL;

   PROCESSENTRY32 pe32   = {0};

   hProcessSnap = CreateToolhelp32Snapshot(TH32CS_SNAPPROCESS, 0);

   if (hProcessSnap == (HANDLE)-1)

   {

    printf(“\nCreateToolhelp32Snapshot() failed:%d”,GetLastError());

   return 1;

}

   pe32.dwSize = sizeof(PROCESSENTRY32);

  printf(“\nProcessName     ProcessID”);

   if (Process32First(hProcessSnap, &pe32))

   {

     do

     {

printf(“\n%-20s%d”,pe32.szExeFile,pe32.th32ProcessID);

     }while (Process32Next(hProcessSnap, &pe32));

   }

   else

   {

    printf(“\nProcess32Firstt() failed:%d”,GetLastError());

   }

   CloseHandle (hProcessSnap);

return 0;

}



<<第三部分:调用NTDLL.DLL中未公开API枚举本地系统进程>>





    第一部分和第二部分说的是调用MS公开的API来枚举系统进程,在NTDLL.DLL中其实有一个未公开API,也可以用来枚举系统进程。此方法是从别处看来的,我可没这本事自己发现哦,出处记不清楚了,好像是pwdump2 中的源代码中的一部分吧。

    OK!那个未公开API就是NtQuerySystemInformation,使用方法如下:

//////////////////////////////////////////////////////////// ////////////////////

#include

#include

#include



typedef unsigned long NTSTATUS;

typedef unsigned short USHORT;

typedef unsigned long ULONG;

typedef unsigned long DWORD;

typedef long LONG;

typedef __int64 LONGLONG;

typedef struct {

   USHORT Length;

   USHORT MaxLen;

   USHORT *Buffer;

} UNICODE_STRING;



struct process_info {

   ULONG NextEntryDelta;

   ULONG ThreadCount;

   ULONG Reserved1[6];

   LARGE_INTEGER CreateTime;

   LARGE_INTEGER UserTime;

   LARGE_INTEGER KernelTime;

   UNICODE_STRING ProcessName;

   ULONG BasePriority;

   ULONG ProcessId;

};



typedef NTSTATUS (__stdcall *NtQuerySystemInformation1)(

     IN ULONG SysInfoClass,

IN OUT PVOID SystemInformation,

     IN ULONG SystemInformationLength,

    OUT PULONG RetLen

        );



int main()

{

   HINSTANCE hNtDll;

   NtQuerySystemInformation1 NtQuerySystemInformation;

   NTSTATUS rc;

   ULONG ulNeed = 0;

   void *buf = NULL;

   size_t len = 0;

   struct process_info *p ;

   int done;



   hNtDll = LoadLibrary (“NTDLL”);

   if (!hNtDll)

     return 0;

   NtQuerySystemInformation = (NtQuerySystemInformation1)GetProcAddress (hNtDll,

“NtQuerySystemInformation”);

     if (!NtQuerySystemInformation)

      return 0;



   do {

     len += 0×1000;

     buf = realloc (buf, len);

     if (!buf)

       return 0;

     rc = NtQuerySystemInformation (5, buf, len, &ulNeed);

   } while (rc == 0xc0000004); // STATUS_INFO_LEN_MISMATCH



   if (rc <0) {

     free (buf);

     return 0;

   }



  printf(“\nProcessName     ProcessID”);

   p = (struct process_info *)buf;

   done = 0;



   while (!done) {

     if ((p->ProcessName.Buffer != 0))

     {

      printf(“\n%-20S%d”,p->ProcessName.Buffer,p->ProcessId) ;



     }

     done = p->NextEntryDelta == 0;

     p = (struct process_info *)(((char *)p) + p->NextEntryDelta);

   }

   free (buf);

   FreeLibrary (hNtDll);

   return 0;

}





<<第四部分:从PDH中取得本地/远程系统进程信息>>



  前面说的三种方法都只能枚举本地的系统进程,如何枚举远程系统的进程呢?目前我只知道从PDH中取得进程信息。

  OK!我先简单的说说PDH是什么东西,hoho~难的偶也不会。PDH是英文Performance Data Helper的缩写,Windows NT一直在更新这个称为Performance Data的数据库,这个数据库包含了大量的信息,例如CPU使用率,内存使用率,系统进程信息等等一大堆有用的信息,可以通过注册表函数来访问。注意哦,Windows 9x中并没有配置这个数据库。但是,这个数据库中的信息布局很复杂,很多人并不愿意使用它,包括我。而且刚开始的时候,它也没有自己特定的函数,只能通过现有的注册表函数来操作。后来,为了使该数据库的使用变得容易,MS开发了一组Performance Data Helper函数,包含在PDH.DLL文件中。

Windows 2000默认是允许远程注册表操作的,所以我们就可以通过连接远程系统的注册表,从它的PDH中取得我们所需要的系统进程信息了,当然这需要远程系统的Admin权限。

OK!我们下面所举的例子是直接利用注册表函数来从本地/远程系统的PDH数据库中取得我们所需要的数据的,我们并没有利用PDH API。



    程序代码如下:

/*********************************************************** ***************

Module:ps.c

Author:mikeblas@nwlink.com

Modify:ey4s

Http://www.ey4s.org

Date:2001/6/23

* ************************************************************ *************/

#include

#include

#include



#define INITIAL_SIZE    51200

#define EXTEND_SIZE     12800

#define REGKEY_PERF     “software\\microsoft\\windows nt\\currentversion\\perflib”

#define REGSUBKEY_COUNTERS ”Counters”

#define PROCESS_COUNTER   “process”

#define PROCESSID_COUNTER  “id process”

#define UNKNOWN_TASK    “unknown”

#define MaxProcessNum      52//最大进程数量



#pragma comment(lib,”mpr.lib”)



typedef struct ProcessInfo

{

char ProcessName[128];

DWORD dwProcessID;

}pi;



void banner();

int ConnIPC(char *,char *,char *);

DWORD GetProcessInfo(pi *,char *,char *,char *);



int main(int argc,char **argv)

{

int i,iRet;

pi TaskList[MaxProcessNum];

banner();

if(argc==1)

{

iRet=GetProcessInfo(TaskList,NULL,NULL,NULL);

   printf(“\nProcess Info for [LOCAL]:”);

}

else if(argc==4)

{

iRet=GetProcessInfo(TaskList,argv[1],argv[2],argv[3]);

printf(“\nProcess Info for [%s]:”,argv[1]);

}

else

{

printf(“\nUsage:%s “,argv[0]);

return 1;

}

if(iRet>0)   

for(i=0,printf(“\nProcessName     ProcessID”);

i

printf(“\n%-20s %d”,TaskList.ProcessName,TaskList.dwProcessID),i++); 

   return 0;

}



DWORD GetProcessInfo(pi *ProList,char *ip,char *user,char *pass)

{

   DWORD rc,dwType,dwSize,i,dwProcessIdTitle,dwProcessIdCounter,dwRet =-1;

  HKEY             hKeyNames;

  LPSTR            buf = NULL,p,p2;

  CHAR             szSubKey[1024],szProcessName[MAX_PATH];

  PPERF_DATA_BLOCK       pPerf;

  PPERF_OBJECT_TYPE      pObj;

   PPERF_INSTANCE_DEFINITION  pInst;

  PPERF_COUNTER_BLOCK     pCounter;

  PPERF_COUNTER_DEFINITION   pCounterDef;

   HKEY      ghPerfKey =NULL, // get perf data from this key

ghMachineKey = NULL; // get title index from this key

   BOOL bRemote=FALSE;



   // Look for the list of counters. Always use the neutral

   // English version, regardless of the local language. We

   // are looking for some particular keys, and we are always

   // going to do our looking in English. We are not going

   // to show the user the counter names, so there is no need

   // to go find the corresponding name in the local language.



    __try

    {

       if((ip)&&(user)&&(pass))

       {

           if(ConnIPC(ip,user,pass)!=0)

           {

              printf(“\nConnect to %s failed.”,ip);

              __leave;

           }

           else

              bRemote=TRUE;

      }

       //连接本地or远程注册表

       if(RegConnectRegistry(ip,HKEY_PERFORMANCE_DATA,

           &ghPerfKey)!=ERROR_SUCCESS)

       {

           printf(“\nRegConnectRegistry() 1 failed:%d”,GetLastError());

           __leave;

       }

`   if(RegConnectRegistry(ip,HKEY_LOCAL_MACHINE,&ghMachineKe y)!=ERROR_SUCCESS)

       {

           printf(“\nRegConnectRegistry() 2 failed:%d”,GetLastError());

           __leave;

       }



sprintf( szSubKey, “%s\\%03x”, REGKEY_PERF,MAKELANGID( LANG_ENGLISH, SUBLANG_NEUTRAL));



if(RegOpenKeyEx(ghMachineKey,szSubKey,0,KEY_READ,&hKeyNa mes)!=ERROR_SUCCESS)

           __leave;



       // 从counter names取得需要的缓冲区大小

if(RegQueryValueEx(hKeyNames,REGSUBKEY_COUNTERS,NULL,&dw Type,NULL,&dwSize)!= ERROR_SUCCESS)

   __leave;

       //分配内存

       buf = (LPSTR) malloc( dwSize );

       if (buf == NULL)

           __leave;

       memset( buf, 0, dwSize );

       // read the counter names from the registry

if(RegQueryValueEx(ghPerfKey,REGSUBKEY_COUNTERS,NULL,&dw Type,(LPBYTE) buf,&dwSize)!= ERROR_SUCCESS)

           __leave;

       // now loop thru the counter names looking for the following counters:

       //   1. “Process”     process name

       //   2. ”ID Process”    process id



       // the buffer contains multiple null terminated strings and then

       // finally null terminated at the end. the strings are in pairs of

       // counter number and counter name.



       p = buf;

       while (*p)

       {

           if (p>buf)

              for( p2=p-2; isdigit(*p2); p2–) ;

           if (stricmp(p, PROCESS_COUNTER) == 0)

           {

              // look backwards for the counter number

              for( p2=p-2; isdigit(*p2); p2–) ;

              strcpy( szSubKey, p2+1 );

           }

           else if (stricmp(p, PROCESSID_COUNTER) == 0)

           {

              // look backwards for the counter number

              for( p2=p-2; isdigit(*p2); p2–) ;

              dwProcessIdTitle = atol( p2+1 );

           }

           // next string

           p += (strlen(p) + 1);

       }

       // free the counter names buffer

       free( buf );

       // allocate the initial buffer for the performance data

       dwSize = INITIAL_SIZE;

       buf = (LPSTR) malloc( dwSize );



       while (TRUE)

       {

           if (buf == NULL)

              __leave;

           memset( buf, 0, dwSize );

           rc=RegQueryValueEx(ghPerfKey,szSubKey,NULL,&dwType,(LPBY TE) buf,&dwSize);

           pPerf = (PPERF_DATA_BLOCK) buf;

           // check for success and valid perf data block signature

           if ((rc == ERROR_SUCCESS) &&

                 (dwSize > 0) &&

                 (pPerf)->Signature[0] == (WCHAR)’P’ &&

                 (pPerf)->Signature[1] == (WCHAR)’E’ &&

                 (pPerf)->Signature[2] == (WCHAR)’R’ &&

                 (pPerf)->Signature[3] == (WCHAR)’F’ )

              break;

           // if buffer is not big enough, reallocate and try again

           if (rc == ERROR_MORE_DATA)

           {

              dwSize += EXTEND_SIZE;

              buf = (LPSTR) realloc( buf, dwSize );

           }

           else __leave;

       }

       // set the perf_object_type pointer

       pObj = (PPERF_OBJECT_TYPE) ((DWORD)pPerf + pPerf->HeaderLength);

       //loop thru the performance counter definition records looking

       //for the process id counter and then save its offset



   pCounterDef = (PPERF_COUNTER_DEFINITION) ((DWORD)pObj + pObj->HeaderLength);



    for (i=0; i<(DWORD)pObj->NumCounters; i++)

       {

           if (pCounterDef->CounterNameTitleIndex == dwProcessIdTitle)

           {

              dwProcessIdCounter = pCounterDef->CounterOffset;

              break;

           }

           pCounterDef++;

       }



    pInst = (PPERF_INSTANCE_DEFINITION) ((DWORD)pObj + pObj->DefinitionLength);



       // loop thru the performance instance data extracting each process name

       // and process id



       for (i=0; i < (DWORD)pObj->NumInstances-1 && i

       {

           // pointer to the process name

           p = (LPSTR) ((DWORD)pInst + pInst->NameOffset);

           // convert it to ascii

           rc = WideCharToMultiByte( CP_ACP,0,(LPCWSTR)p,-1,szProcessName,sizeof(szProcessName),N ULL,NULL);



           // if we cant convert the string then use a default value

           if (!rc) strcpy( ProList.ProcessName, UNKNOWN_TASK );

           else strncpy(ProList.ProcessName, szProcessName,sizeof(ProList.ProcessName)-1);



           // get the process id

       pCounter = (PPERF_COUNTER_BLOCK) ((DWORD)pInst + pInst->ByteLength);

   ProList.dwProcessID = *((LPDWORD) ((DWORD)pCounter + dwProcessIdCounter));



           // next process

   pInst = (PPERF_INSTANCE_DEFINITION) ((DWORD)pCounter + pCounter->ByteLength);

       }

       dwRet=i;

    }//end of try

    __finally

    {

       if (buf) free( buf );

       RegCloseKey( hKeyNames );

       RegCloseKey( HKEY_PERFORMANCE_DATA );

       if(bRemote)

       {

           char tmp[52],tmp2[96];

           strncpy(tmp,ip,sizeof(tmp)-1);

           wsprintf(tmp2,”\\\\%s\\ipc$”,tmp);

           WNetCancelConnection2(tmp2,CONNECT_UPDATE_PROFILE,TRUE);

       }

    }

    return dwRet;

}



//////////////////////////////////////////////////////////// ////////////////////



int ConnIPC(char *RemoteName,char *User,char *Pass)

{

    NETRESOURCE nr;

    char RN[50]=”\\\\”;



    strncat(RN,RemoteName,sizeof(RN)-11);

    strcat(RN,”\\ipc$”);



    nr.dwType=RESOURCETYPE_ANY;

    nr.lpLocalName=NULL;

    nr.lpRemoteName=RN;

    nr.lpProvider=NULL;



    if(WNetAddConnection2(&nr,Pass,User,FALSE)==NO_ERROR)

       return 0;

    else

       return 1;

}



//////////////////////////////////////////////////////////// ////////////////////

void banner()

{

    printf(“\nPsList ==>Local and Remote process list”

           “\nPower by ey4s”

           “\nhttp://www.ey4s.org”

           “\n2001/6/22\n”);

}



//////////////////////////////////////////////////////////// ////////////////////



    程序在Windows2000、VC++6.0环境下编译,运行良好。注意哦,远程机器要允许IPC连接和远程操作注册表才可以哦,并且需要Admin权限.


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