#region Process class

	/// <summary>

	/// Summary description for Process.

	/// </summary>

	public class Process

	{

		private string processName;

		private IntPtr handle;

		private int threadCount;

		private int baseAddress;

		//default constructor

		public Process()

		{

		}

		private Process(IntPtr id, string procname, int threadcount, int baseaddress)

		{

			handle = id;

			processName = procname;

			threadCount = threadcount;

			baseAddress = baseaddress;

		}

		//ToString implementation for ListBox binding

		public override string ToString()

		{

			return processName;

		}

		public int BaseAddress

		{

			get

			{

				return baseAddress;

			}

		}

		public int ThreadCount

		{

			get

			{

				return threadCount;

			}

		}

		public IntPtr Handle

		{

			get

			{

				return handle;

			}

		}

		public string ProcessName

		{

			get

			{

				return processName;

			}

		}

		public int BaseAddess

		{

			get

			{

				return baseAddress;

			}

		}

		public void Kill()

		{

			IntPtr hProcess;

			hProcess = OpenProcess(PROCESS_TERMINATE, false, (int) handle);

			if(hProcess != (IntPtr) INVALID_HANDLE_VALUE)

			{

				bool bRet;

				bRet = TerminateProcess(hProcess, 0);

				CloseHandle(hProcess);

			}

		}

        public static Process[] GetProcesses()

        {

            ArrayList procList = new ArrayList();

            IntPtr handle = CreateToolhelp32Snapshot(TH32CS_SNAPPROCESS, 0);

            if ((int)handle > 0)

            {

                try

                {

                    PROCESSENTRY32 peCurrent;

                    PROCESSENTRY32 pe32 = new PROCESSENTRY32();

                    //Get byte array to pass to the API calls

                    byte[] peBytes = pe32.ToByteArray();

                    //Get the first process

                    int retval = Process32First(handle, peBytes);

                    while (retval == 1)

                    {

                        //Convert bytes to the class

                        peCurrent = new PROCESSENTRY32(peBytes);

                        //New instance

                        Process proc = new Process(new IntPtr((int)peCurrent.PID), peCurrent.Name, (int)peCurrent.ThreadCount, (int)peCurrent.BaseAddress);

                        procList.Add(proc);

                        retval = Process32Next(handle, peBytes);

                    }

                }

                catch (Exception ex)

                {

                    throw new Exception("Exception: " + ex.Message);

                }

                //Close handle

                CloseToolhelp32Snapshot(handle);

                return (Process[])procList.ToArray(typeof(Process));

            }

            else

            {

                throw new Exception("Unable to create snapshot");

            }

        }

		#region PROCESSENTRY32 implementation

//		typedef struct tagPROCESSENTRY32

//		{

//			DWORD dwSize;

//			DWORD cntUsage;

//			DWORD th32ProcessID;

//			DWORD th32DefaultHeapID;

//			DWORD th32ModuleID;

//			DWORD cntThreads;

//			DWORD th32ParentProcessID;

//			LONG pcPriClassBase;

//			DWORD dwFlags;

//			TCHAR szExeFile[MAX_PATH];

//			DWORD th32MemoryBase;

//			DWORD th32AccessKey;

//		} PROCESSENTRY32;

		private class PROCESSENTRY32

		{

			// constants for structure definition

			private const int SizeOffset = 0;

			private const int UsageOffset = 4;

			private const int ProcessIDOffset=8;

			private const int DefaultHeapIDOffset = 12;

			private const int ModuleIDOffset = 16;

			private const int ThreadsOffset = 20;

			private const int ParentProcessIDOffset = 24;

			private const int PriClassBaseOffset = 28;

			private const int dwFlagsOffset = 32;

			private const int ExeFileOffset = 36;

			private const int MemoryBaseOffset = 556;

			private const int AccessKeyOffset = 560;

			private const int Size = 564;

			private const int MAX_PATH = 260;

			// data members

			public uint dwSize;

			public uint cntUsage;

			public uint th32ProcessID;

			public uint th32DefaultHeapID;

			public uint th32ModuleID;

			public uint cntThreads;

			public uint th32ParentProcessID;

			public long pcPriClassBase;

			public uint dwFlags;

			public string szExeFile;

			public uint th32MemoryBase;

			public uint th32AccessKey;

			//Default constructor

			public PROCESSENTRY32()

			{

			}

			// create a PROCESSENTRY instance based on a byte array

			public PROCESSENTRY32(byte[] aData)

			{

				dwSize = GetUInt(aData, SizeOffset);

				cntUsage = GetUInt(aData, UsageOffset);

				th32ProcessID = GetUInt(aData, ProcessIDOffset);

				th32DefaultHeapID = GetUInt(aData, DefaultHeapIDOffset);

				th32ModuleID = GetUInt(aData, ModuleIDOffset);

				cntThreads = GetUInt(aData, ThreadsOffset);

				th32ParentProcessID = GetUInt(aData, ParentProcessIDOffset);

				pcPriClassBase = (long) GetUInt(aData, PriClassBaseOffset);

				dwFlags = GetUInt(aData, dwFlagsOffset);

				szExeFile = GetString(aData, ExeFileOffset, MAX_PATH);

				th32MemoryBase = GetUInt(aData, MemoryBaseOffset);

				th32AccessKey = GetUInt(aData, AccessKeyOffset);

			}

			#region Helper conversion functions

			// utility:  get a uint from the byte array

			private static uint GetUInt(byte[] aData, int Offset)

			{

				return BitConverter.ToUInt32(aData, Offset);

			}

			// utility:  set a uint int the byte array

			private static void SetUInt(byte[] aData, int Offset, int Value)

			{

				byte[] buint = BitConverter.GetBytes(Value);

				Buffer.BlockCopy(buint, 0, aData, Offset, buint.Length);

			}

			// utility:  get a ushort from the byte array

			private static ushort GetUShort(byte[] aData, int Offset)

			{

				return BitConverter.ToUInt16(aData, Offset);

			}

			// utility:  set a ushort int the byte array

			private static void SetUShort(byte[] aData, int Offset, int Value)

			{

				byte[] bushort = BitConverter.GetBytes((short)Value);

				Buffer.BlockCopy(bushort, 0, aData, Offset, bushort.Length);

			}

			// utility:  get a unicode string from the byte array

			private static string GetString(byte[] aData, int Offset, int Length)

			{

				String sReturn =  Encoding.Unicode.GetString(aData, Offset, Length);

				return sReturn;

			}

			// utility:  set a unicode string in the byte array

			private static void SetString(byte[] aData, int Offset, string Value)

			{

				byte[] arr = Encoding.ASCII.GetBytes(Value);

				Buffer.BlockCopy(arr, 0, aData, Offset, arr.Length);

			}

			#endregion

			// create an initialized data array

			public byte[] ToByteArray()

			{

				byte[] aData;

				aData = new byte[Size];

				//set the Size member

				SetUInt(aData, SizeOffset, Size);

				return aData;

			}

			public string Name

			{

				get

				{

					return szExeFile.Substring(0, szExeFile.IndexOf('\0'));

				}

			}

			public ulong PID

			{

				get

				{

					return th32ProcessID;

				}

			}

			public ulong BaseAddress

			{

				get

				{

					return th32MemoryBase;

				}

			}

			public ulong ThreadCount

			{

				get

				{

					return cntThreads;

				}

			}

		}

		#endregion

		#region PInvoke declarations

		private const int TH32CS_SNAPPROCESS = 0x00000002;

		[DllImport("toolhelp.dll")]

		public static extern IntPtr CreateToolhelp32Snapshot(uint flags, uint processid);

		[DllImport("toolhelp.dll")]

		public static extern int CloseToolhelp32Snapshot(IntPtr handle);

		[DllImport("toolhelp.dll")]

		public static extern int Process32First(IntPtr handle, byte[] pe);

		[DllImport("toolhelp.dll")]

		public static extern int Process32Next(IntPtr handle, byte[] pe);

		[DllImport("coredll.dll")]

		private static extern IntPtr OpenProcess(int flags, bool fInherit, int PID);

		private const int PROCESS_TERMINATE = 1;

		[DllImport("coredll.dll")]

		private static extern bool TerminateProcess(IntPtr hProcess, uint ExitCode);

		[DllImport("coredll.dll")]

		private static extern bool CloseHandle(IntPtr handle);

		private const int INVALID_HANDLE_VALUE = -1;

		#endregion

    }

    #endregion