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ETWNetMonV3Agent.cs
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ETWNetMonV3Agent.cs
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using System;
using System.Collections.Generic;
using System.Data;
using System.Diagnostics;
using System.Linq;
using System.Management;
using System.Runtime.InteropServices;
using System.Text;
using System.IO;
using System.Threading;
using System.Threading.Tasks;
using Microsoft.Diagnostics.Tracing;
using Microsoft.Diagnostics.Tracing.Parsers;
using Microsoft.Diagnostics.Tracing.Parsers.Kernel;
using Microsoft.Diagnostics.Tracing.Session;
namespace ETWNetMonV3Agent
{
class Program
{
// static string Meterpreter_Signature = @"jIubno+WoIyGjKCPjZCcmoyMoJiai4+Wmw==";
// static byte[] _Meterpreter__Bytes_signature = Convert.FromBase64String(Meterpreter_Signature);
[DllImport("kernel32.dll")]
static extern IntPtr OpenThread(uint dwDesiredAccess, bool bInheritHandle, uint dwThreadId);
[DllImport("kernel32.dll")]
static extern bool TerminateThread(IntPtr hThread, uint dwExitCode);
[DllImport("kernel32.dll")]
[return: MarshalAs(UnmanagedType.Bool)]
private static extern bool SetProcessWorkingSetSize(IntPtr process, UIntPtr minimumWorkingSetSize, UIntPtr maximumWorkingSetSize);
[DllImport("ntdll.dll", SetLastError = true)]
static extern int NtQueryInformationThread(IntPtr threadHandle, ThreadInfoClass threadInformationClass, IntPtr threadInformation, int threadInformationLength, IntPtr returnLengthPtr);
[DllImport("kernel32.dll", SetLastError = true)]
static extern IntPtr OpenThread(ThreadAccess dwDesiredAccess, bool bInheritHandle, int dwThreadId);
[DllImport("kernel32.dll", SetLastError = true)]
static extern bool CloseHandle(IntPtr hObject);
static string _Return_Threads_StartAddress(int tid)
{
return (string.Format("{0:X16}", (ulong)GetThreadStartAddress(tid)));
}
static IntPtr GetThreadStartAddress(int threadId)
{
var hThread = OpenThread(ThreadAccess.QueryInformation, false, threadId);
var buf = Marshal.AllocHGlobal(IntPtr.Size);
try
{
var result = NtQueryInformationThread(hThread, ThreadInfoClass.ThreadQuerySetWin32StartAddress, buf, IntPtr.Size, IntPtr.Zero);
return Marshal.ReadIntPtr(buf);
}
finally
{
CloseHandle(hThread);
Marshal.FreeHGlobal(buf);
GC.Collect(GC.MaxGeneration);
GC.WaitForPendingFinalizers();
SetProcessWorkingSetSize(Process.GetCurrentProcess().Handle, (UIntPtr)0xFFFFFFFF, (UIntPtr)0xFFFFFFFF);
}
}
public static bool Kill_Thread(int Process_ID, int TID)
{
bool kill = false;
try
{
ProcessThreadCollection _ProcessThreads_Collection = Process.GetProcessById(Process_ID).Threads;
foreach (ProcessThread item in _ProcessThreads_Collection)
{
if (item.Id == TID)
{
if (item.ThreadState == System.Diagnostics.ThreadState.Wait)
{
if (item.StartAddress.ToString() == "0" && item.WaitReason.ToString().Contains("Exe"))
{
IntPtr Target_Thread_for_kill = OpenThread(1, false, (uint)item.Id);
TerminateThread(Target_Thread_for_kill, 1);
kill = true;
}
else if (item.StartAddress.ToString() != "0" && item.WaitReason.ToString().Contains("Exe"))
{
IntPtr Target_Thread_for_kill = OpenThread(1, false, (uint)item.Id);
TerminateThread(Target_Thread_for_kill, 1);
// return true;
kill = true;
}
}
else
{
if (item.StartAddress.ToString() == "0" && item.ThreadState.ToString().Contains("Run"))
{
IntPtr Target_Thread_for_kill = OpenThread(1, false, (uint)item.Id);
TerminateThread(Target_Thread_for_kill, 1);
kill = true;
}
}
}
}
}
catch (Exception e)
{
Console.WriteLine("[X] Damn it , can't kill this thread or can't find Threads by zero address or status: Wait:Exe/Run ! : " + e.Message);
}
if (kill)
{
return true;
}
else
{
return false;
}
}
public static DataTable Temp_Thread_InfoDebugMode;
public static void DebugMode_ThreadsDetailShow(int Process_ID, int TID)
{
try
{
Process _Prcss = null;
Temp_Thread_InfoDebugMode.Rows.Clear();
if (!Process.GetProcessById(Process_ID).HasExited)
{
_Prcss = Process.GetProcessById(Process_ID);
DateTime _xA, _xB;
for (int i = 0; i < _Prcss.Threads.Count; i++)
{
if (_Prcss.Threads[i].Id == TID)
{
_xA = _Prcss.StartTime; /// process start time
_xB = _Prcss.Threads[i].StartTime; /// threads start time
if (_Prcss.Threads[i].ThreadState == System.Diagnostics.ThreadState.Wait)
{
object[] Oo = {
_Prcss.Threads[i].Id,
(_xB - _xA),
_Prcss.Threads[i].ThreadState.ToString() + ":" + _Prcss.Threads[i].WaitReason.ToString()
, _Return_Threads_StartAddress(_Prcss.Threads[i].Id)
, _xB,
_Prcss.ProcessName,
_Prcss.Id
, "no"
, _Prcss.Threads[i].StartAddress.ToString()
};
Temp_Thread_InfoDebugMode.Rows.Add(Oo);
}
else
{
object[] Oo = {
_Prcss.Threads[i].Id,
(_xB - _xA),
_Prcss.Threads[i].ThreadState.ToString() + ":" + _Prcss.Threads[i].ThreadState.ToString()
, _Return_Threads_StartAddress(_Prcss.Threads[i].Id)
, _xB,
_Prcss.ProcessName,
_Prcss.Id
, "no"
, _Prcss.Threads[i].StartAddress.ToString()
};
Temp_Thread_InfoDebugMode.Rows.Add(Oo);
}
}
}
Temp_Thread_InfoDebugMode.DefaultView.ToTable();
DataRow[] Rows_to_Delete = Temp_Thread_InfoDebugMode.Select("status LIKE '%Exe%' or status LIKE '%Run%' or tid_StartAddress = '0'");
foreach (DataRow item in Rows_to_Delete)
{
Console.ForegroundColor = ConsoleColor.DarkYellow;
Console.Write("\t\t [1] Tid:" + item.ItemArray[0].ToString());
Console.WriteLine("\t Startaddress_x64: " + item.ItemArray[3].ToString());
if (item.ItemArray[2].ToString().Contains("Exe") || item.ItemArray[2].ToString().Contains("Run"))
{
Console.ForegroundColor = ConsoleColor.Red;
Console.Write(" ==>");
Console.WriteLine("[2] Tid " + item.ItemArray[0].ToString() + " Status: " + item.ItemArray[2].ToString());
}
else
{
Console.ForegroundColor = ConsoleColor.DarkYellow;
Console.Write(" ");
Console.WriteLine("[2] Tid " + item.ItemArray[0].ToString() + " Status: " + item.ItemArray[2].ToString());
}
Console.ForegroundColor = ConsoleColor.DarkYellow;
Console.WriteLine("\t\t [3] Injected or Started Time:" + item.ItemArray[4].ToString());
Console.WriteLine("\t\t [4] Started Time After Parent Process:" + item.ItemArray[1].ToString());
Console.WriteLine("\t\t [5] Startaddress: " + item.ItemArray[8].ToString());
}
}
}
catch (Exception)
{
}
}
public delegate string AsyncMethodCaller(ConsoleColor color, string input_srt_Data, string input_srt_Data2, int callDuration);
public static string _Async_WriStr_Console(ConsoleColor color, string input_srt_Data, string input_srt_Data2, int callDuration)
{
try
{
while (true)
{
if (input_srt_Data2 == null)
{
Console.ForegroundColor = color;
Thread.Sleep(callDuration);
Console.WriteLine("[mem] {0}", input_srt_Data);
return String.Format("time was {0}.", callDuration.ToString());
}
else
{
Console.ForegroundColor = color;
Thread.Sleep(callDuration);
Console.WriteLine("[mem] {0} {1}", input_srt_Data, input_srt_Data2);
return String.Format("time was {0}.", callDuration.ToString());
}
break;
}
}
catch (Exception)
{
Console.ForegroundColor = color;
return String.Format("time was {0}.", callDuration.ToString());
//throw;
}
}
public static string _Get_Arguments(Process Prcs)
{
string Prcs_args = "";
try
{
using (ManagementObjectSearcher s = new ManagementObjectSearcher("SELECT CommandLine FROM Win32_Process WHERE ProcessId = " + Prcs.Id))
{
foreach (ManagementObject obj in s.Get())
{
Prcs_args += obj["CommandLine"];
}
}
return Prcs_args;
}
catch (Exception) { return ""; }
}
public static unsafe long IndexOf(byte[] Haystack, byte[] Needle)
{
fixed (byte* H = Haystack) fixed (byte* N = Needle)
{
long i = 0;
for (byte* hNext = H, hEnd = H + Haystack.LongLength; hNext < hEnd; i++, hNext++)
{
bool Found = true;
for (byte* hInc = hNext, nInc = N, nEnd = N + Needle.LongLength; Found && nInc < nEnd; Found = *nInc == *hInc, nInc++, hInc++) ;
if (Found) return i;
}
return -1;
}
}
static AsyncMethodCaller Call = new AsyncMethodCaller(_Async_WriStr_Console);
static IAsyncResult result_Async;
[Flags]
public enum ThreadAccess : int
{
Terminate = 0x0001,
SuspendResume = 0x0002,
GetContext = 0x0008,
SetContext = 0x0010,
SetInformation = 0x0020,
QueryInformation = 0x0040,
SetThreadToken = 0x0080,
Impersonate = 0x0100,
DirectImpersonation = 0x0200
}
public enum ThreadInfoClass : int
{
ThreadQuerySetWin32StartAddress = 9
}
private const int PAGE_READWRITE = 0x04;
private const int PAGE_WRITECOPY = 0x08;
private const int PAGE_EXECUTE_READWRITE = 0x40;
private const int PAGE_EXECUTE_WRITECOPY = 0x80;
private const int PAGE_GUARD = 0x100;
private const int WRITABLE = PAGE_READWRITE | PAGE_WRITECOPY | PAGE_EXECUTE_READWRITE | PAGE_EXECUTE_WRITECOPY | PAGE_GUARD;
private const int MEM_COMMIT = 0x1000;
[DllImport("kernel32.dll", SetLastError = true)]
static extern bool ReadProcessMemory(IntPtr hProcess, IntPtr lpBaseAddress, [Out] byte[] lpBuffer, int dwSize, IntPtr lpNumberOfBytesRead);
[DllImport("kernel32.dll")]
internal static extern Int32 VirtualQueryEx(IntPtr hProcess, IntPtr lpAddress, out MEMORY_BASIC_INFORMATION lpBuffer, uint dwLength);
[DllImport("kernel32.dll")]
protected static extern int VirtualQueryEx(IntPtr hProcess, IntPtr lpAddress, out MEMORY_BASIC_INFORMATION lpBuffer, int dwLength);
[StructLayout(LayoutKind.Sequential)]
public struct MEMORY_BASIC_INFORMATION
{
public IntPtr BaseAddress;
public IntPtr AllocationBase;
public uint AllocationProtect;
public IntPtr RegionSize;
public uint State;
public uint Protect;
public uint Type;
}
public static bool IPS_IDS = false;
public static bool Is_IPS_Mode = true;
public static bool Is_DebugMode = true;
public static async Task logfilewrite(string filename, string text)
{
using (StreamWriter _file = new StreamWriter(filename, true))
{
await _file.WriteLineAsync(text);
};
}
public static string PRCOCESSFileName = "";
public static string PRCOCESSFileName2 = "";
static void Main(string[] args)
{
Console.WriteLine();
Console.ForegroundColor = ConsoleColor.DarkGray;
Console.WriteLine("ETWNetMonv3Agent Tool , Published by Damon Mohammadbagher , May 2021");
Console.ForegroundColor = ConsoleColor.Gray;
Console.WriteLine("ETWNetMonv3Agent tool is simple ETW Network Monitor tool for TCP Connections (only)");
Console.WriteLine();
string Netmon = "ETWMonNet1_Ops";
string Target_PID = "";
List<MEMORY_BASIC_INFORMATION> MemReg = new List<MEMORY_BASIC_INFORMATION>();
byte[] buff;
bool Kill_TID = false;
string Meterpreter_Signature = "jIubno+WoIyGjKCPjZCcmoyMoJiai4+Wmw==";
byte[] _Meterpreter__Bytes_signature = Convert.FromBase64String(Meterpreter_Signature);
string TPID = "";
string logfile = "EtwNetMonv3logs.txt";
using (var ETWs = new TraceEventSession(Netmon, null))
{
ETWs.StopOnDispose = true;
int i = 0;
Task t_asyn2;
using (var source = new ETWTraceEventSource(Netmon, TraceEventSourceType.Session))
{
GC.GetTotalMemory(true);
RegisteredTraceEventParser EvtNetMon1 = new RegisteredTraceEventParser(source);
EvtNetMon1.All += delegate (TraceEvent data)
{
PRCOCESSFileName2 = "";
PRCOCESSFileName = "";
GC.GetTotalMemory(true);
// Task t_asyn = logfilewrite(logfile, "test");
Kill_TID = false;
string ETWMsg = data.FormattedMessage;
Target_PID = "";
if (ETWMsg.Contains("(local=") || ETWMsg.Contains("PID"))
{
try
{
if (!Process.GetProcessById(data.ProcessID).HasExited)
PRCOCESSFileName = Process.GetProcessById(data.ProcessID).MainModule.FileName;
}
catch (Exception)
{
}
if (ETWMsg.Contains("exists. State ="))
{
Target_PID = ETWMsg.Split('=')[4];
try
{
if (!Process.GetProcessById(Convert.ToInt32(Target_PID)).HasExited)
PRCOCESSFileName2 = Process.GetProcessById(Convert.ToInt32(Target_PID)).MainModule.FileName;
}
catch (Exception)
{
}
t_asyn2 = logfilewrite(logfile, "[" + DateTime.Now.ToString() + "]::" + ETWMsg.Split('(')[1].ToString() + "[PID:" + Target_PID + "]");
Console.ForegroundColor = ConsoleColor.DarkGreen; Console.WriteLine("[" + DateTime.Now.ToString() + "]::" + ETWMsg.Split('(')[1].ToString() + "[PID:" + Target_PID + "]" + " " + "ProcessPath: " + PRCOCESSFileName2);
Target_PID = "";
}
if ((ETWMsg.Contains("PID")) && (!ETWMsg.Contains("exists. State =")))
{
try
{
if (!Process.GetProcessById(data.ProcessID).HasExited && data.ProcessID != 0)
{
PRCOCESSFileName = Process.GetProcessById(data.ProcessID).ProcessName;
}
else
{
PRCOCESSFileName = "null";
}
}
catch (Exception)
{
}
if (data.ProcessID == 0)
{
Console.ForegroundColor = ConsoleColor.DarkGreen; Console.WriteLine("[" + DateTime.Now.ToString() + "]::" + ETWMsg.Split('(')[1].ToString());
}
else if (data.ProcessID != 0)
{
if (ETWMsg.Contains("connect completed. PID ="))
{
/// something like error or bug (sometmes) or ... , data.processid is not same with ETW events_text
Console.ForegroundColor = ConsoleColor.DarkRed; Console.WriteLine("[" + DateTime.Now.ToString() + "]::" + ETWMsg.Split('(')[1].ToString());
}
else if (!ETWMsg.Contains("connect completed. PID ="))
{
Console.ForegroundColor = ConsoleColor.DarkGreen; Console.WriteLine("[" + DateTime.Now.ToString() + "]::" + ETWMsg.Split('(')[1].ToString() + "PID: " + data.ProcessID + " " + "ProcessPath: " + PRCOCESSFileName);
}
}
/// switch to show some details about ETW Records (by default off)
///
if (args.Length >= 1 && args[0].ToUpper() == "DBG")
{
foreach (var item in data.PayloadNames)
{
Console.ForegroundColor = ConsoleColor.DarkGray;
if (i == 2) Console.Write('\n' + "[etw]");
if (i == 0) Console.Write("[etw] [" + item + ": " + data.PayloadValue(i).ToString() + "]");
if (i > 0) Console.Write(" [" + item + ": " + data.PayloadValue(i).ToString() + "]");
i++;
}
Console.Write("\n");
i = 0;
}
}
/// this section of code, used for Memory SCAN....
///
if (ETWMsg.Contains("connect completed. PID ="))
{
TPID = ETWMsg.Split('=')[3].ToString().Split('.')[0];
if (TPID.Contains(','))
{
Target_PID = TPID.Split(',')[0] + TPID.Split(',')[1];
try
{
PRCOCESSFileName = "";
try
{
if (!Process.GetProcessById(Convert.ToInt32(Target_PID)).HasExited)
PRCOCESSFileName = Process.GetProcessById(Convert.ToInt32(Target_PID)).ProcessName;
}
catch (Exception)
{
}
t_asyn2 = logfilewrite(logfile, "[>] [" + DateTime.Now.ToString() + "]::" + ETWMsg.Split('(')[1].ToString() + "[PID:" + Target_PID.ToString() + "]" + " " + "ProcessPath: " + PRCOCESSFileName);
/// dont use this switch if you want only woRk with ETW Log files , this switch "SCAN" is only for Meterpreter Payload Detection (Tested & worked on KALI 2018 with MSF4 ver 4.x & client WIN7X64SP1)
/// note: this Meterpreter Signature was not work on new version of Metasploit MSF6 (ver 6).
/// SCAN => switch to scan memory for each process which has network connection (ESTABLISHED state) to find Meterpreter Signature (by default off)
if (args.Length >= 1 && args[0].ToUpper() == "SCAN")
{
Task.Factory.StartNew(() =>
{
if (!Process.GetProcessById(Convert.ToInt32(Target_PID)).HasExited)
{
Process Prcs = Process.GetProcessById(Convert.ToInt32(Target_PID));
try
{
if (Prcs.HasExited)
{
buff = null;
}
try
{
try
{
Console.Title = "Scanning Memory: ";
IntPtr Addy = new IntPtr();
MemReg.Clear();
while (true)
{
if (!Prcs.HasExited)
{
MEMORY_BASIC_INFORMATION MemInfo = new MEMORY_BASIC_INFORMATION();
int MemDump = VirtualQueryEx(Prcs.Handle, Addy, out MemInfo, Marshal.SizeOf(MemInfo));
if (MemDump == 0) break;
if (0 != (MemInfo.State & MEM_COMMIT) && 0 != (MemInfo.Protect & WRITABLE) && 0 == (MemInfo.Protect & PAGE_GUARD))
{
MemReg.Add(MemInfo);
}
Addy = new IntPtr(MemInfo.BaseAddress.ToInt64() + MemInfo.RegionSize.ToInt64());
}
if (Prcs.HasExited)
{
GC.Collect(GC.MaxGeneration);
GC.WaitForPendingFinalizers();
SetProcessWorkingSetSize(Process.GetCurrentProcess().Handle, (UIntPtr)0xFFFFFFFF, (UIntPtr)0xFFFFFFFF);
break;
}
}
}
catch (Exception e)
{
}
for (int _i = 0; _i < MemReg.Count; _i++)
{
if (Kill_TID) break;
if (Prcs.HasExited) { break; }
Console.Title = "Scanning Memory: " + Prcs.ProcessName.ToString() + " (" + Prcs.Id.ToString() + ") :: Memory.Count[" + (MemReg.Count - _i).ToString() + "]";
if (!Prcs.HasExited)
{
buff = new byte[MemReg[_i].RegionSize.ToInt64()];
ReadProcessMemory(Prcs.Handle, MemReg[_i].BaseAddress, buff, MemReg[_i].RegionSize.ToInt32(), IntPtr.Zero);
GC.Collect(GC.MaxGeneration);
GC.WaitForPendingFinalizers();
SetProcessWorkingSetSize(Process.GetCurrentProcess().Handle, (UIntPtr)0xFFFFFFFF, (UIntPtr)0xFFFFFFFF);
for (int j = 0; j < buff.Length; j++)
{
buff[j] = (byte)(buff[j] ^ 0xFF);
}
long Result = IndexOf(buff, _Meterpreter__Bytes_signature);
/// result > 0 when FOUND Infected Process ;)
if (Result > 0)
{
Console.ForegroundColor = ConsoleColor.Red;
for (int f = 0; f < Prcs.Threads.Count; f++)
{
Console.ForegroundColor = ConsoleColor.Red;
var Sub_Threads = Prcs.Threads[f].StartAddress.ToInt64();
/// do this code if only ONCE in loop f == 0
if (f <= 0)
{
try
{
Console.ForegroundColor = ConsoleColor.Red;
t_asyn2 = logfilewrite(logfile, "[X] [" + DateTime.Now.ToString() + "]::" + "[Meterpreter Process Found in-Memory]" + "[PID:" + Prcs.Id.ToString() + "] [PName:" + Prcs.ProcessName + "]");
string _source = BitConverter.ToString(buff);
string pattern = BitConverter.ToString(_Meterpreter__Bytes_signature);
int _index = _source.IndexOf(pattern);
Console.WriteLine("\t Network Connection for Meterpreter Process Found in-Memory");
Console.WriteLine("\t Network Connection via PID:{0}", Prcs.Id.ToString());
Console.WriteLine("\t Infected Memory bytes :");
int chunkSize_debug = 60;
string temp_debug = BitConverter.ToString(buff);
int stringLength_debug = temp_debug.Length;
int counter_debug = 0;
for (int d = _index; d < stringLength_debug; d += chunkSize_debug)
{
Console.ForegroundColor = ConsoleColor.Red;
if (d + chunkSize_debug > stringLength_debug) chunkSize_debug = stringLength_debug - d;
Console.WriteLine("\t {0}", temp_debug.Substring(d, chunkSize_debug));
if (counter_debug >= 4) break;
counter_debug++;
}
Console.ForegroundColor = ConsoleColor.Red;
Console.WriteLine(" ");
Console.WriteLine("\t Process Arguments :");
string temp = _Get_Arguments(Prcs);
/// fixing Arguments show method done ;)
/// show 300 char arguments only
//string temp = "Notfound!";
int chunkSize = 59;
int stringLength = temp.Length;
for (int b = 0; b < stringLength; b += chunkSize)
{
Console.ForegroundColor = ConsoleColor.Red;
if (b + chunkSize > stringLength) chunkSize = stringLength - b;
Console.WriteLine("\t {0}", temp.Substring(b, chunkSize));
if (b >= 300) break;
}
}
catch (Exception _eee)
{
result_Async = Call.BeginInvoke(ConsoleColor.Green, System.DateTime.Now.ToString() + " [X]: " + _eee.Message, null, 2, null, null);
}
/// do something for view sub threads
for (int counter_threads = 0; counter_threads < Prcs.Threads.Count; counter_threads++)
{
/// if Thread_startadrees was 0 maybe that thread is METERPRETER backdoor thread ;-/
/// so i will show Thread_startadress 0 by Yellow color but this is not 100% correct always ;)
if (Prcs.Threads[counter_threads].ThreadState == System.Diagnostics.ThreadState.Wait)
{
// Console.WriteLine("bingo8, {0}", Target_PID);
if (Prcs.Threads[counter_threads].StartAddress.ToString() == "0" || Prcs.Threads[counter_threads].WaitReason.ToString().Contains("Exe"))
{
Console.ForegroundColor = ConsoleColor.DarkYellow;
try
{
Kill_TID = Kill_Thread(Prcs.Id, Prcs.Threads[counter_threads].Id);
if (Kill_TID)
{
Console.ForegroundColor = ConsoleColor.Yellow;
t_asyn2 = logfilewrite(logfile, "[X] [" + DateTime.Now.ToString() + "]::" + "[Thread Killed => TID:" + Prcs.Threads[counter_threads].Id + " with StartAddress:" + _Return_Threads_StartAddress(Prcs.Threads[counter_threads].Id) + "] [PID:" + Prcs.Id.ToString() + "] [PName:" + Prcs.ProcessName + "]");
Console.WriteLine("\t Process Thread ID: {0} with StartAddress: {1} Killed", Prcs.Threads[counter_threads].Id, _Return_Threads_StartAddress(Prcs.Threads[counter_threads].Id));
break;
}
else
{
Console.ForegroundColor = ConsoleColor.Red;
Console.WriteLine("\t Process Thread ID: {0} with StartAddress: {1} not Killed", Prcs.Threads[counter_threads].Id, _Return_Threads_StartAddress(Prcs.Threads[counter_threads].Id));
}
}
catch (Exception error)
{
Console.ForegroundColor = ConsoleColor.Green;
Console.WriteLine(System.DateTime.Now.ToString() + " Maybe Thread can't kill: " + error.Message);
}
}
else
{
/// debug
// Console.ForegroundColor = ConsoleColor.DarkRed;
// Console.WriteLine("----------Tid StartAddress: {0}", _Return_Threads_StartAddress(Prcs.Threads[counter_threads].Id));
}
}
else
{
if (Prcs.Threads[counter_threads].StartAddress.ToString() == "0" || Prcs.Threads[counter_threads].ThreadState.ToString().Contains("Run"))
{
// Console.WriteLine("bingo9, {0}", Target_PID);
Console.ForegroundColor = ConsoleColor.DarkYellow;
try
{
/// warning this code is Dangerous maybe you killing wrong process with StartAdress "0"
Kill_TID = Kill_Thread(Prcs.Id, Prcs.Threads[counter_threads].Id);
if (Kill_TID)
{
Console.ForegroundColor = ConsoleColor.Yellow;
Console.WriteLine("\t Process Thread ID: {0} with StartAddress: {1} Killed", Prcs.Threads[counter_threads].Id, _Return_Threads_StartAddress(Prcs.Threads[counter_threads].Id));
break;
}
else
{
Console.ForegroundColor = ConsoleColor.Red;
Console.WriteLine("\t Process Thread ID: {0} with StartAddress: {1} not Killed", Prcs.Threads[counter_threads].Id, _Return_Threads_StartAddress(Prcs.Threads[counter_threads].Id));
}
}
catch (Exception error)
{
Console.ForegroundColor = ConsoleColor.Green;
Console.WriteLine(System.DateTime.Now.ToString() + " Maybe Thread not killed: " + error.Message);
}
}
else
{
/// debug
// Console.ForegroundColor = ConsoleColor.DarkRed;
// Console.WriteLine("----------Tid StartAddress: {0}", _Return_Threads_StartAddress(Prcs.Threads[counter_threads].Id));
}
/// if startadrees was 0 maybe that thread is METERPRETER backdoor thread ;-/
/// so i will show startadress 0 by Yellow color but this is not 100% correct always ;)
}
}
}
}
buff = null;
}
buff = null;
GC.Collect(GC.MaxGeneration);
GC.WaitForPendingFinalizers();
SetProcessWorkingSetSize(Process.GetCurrentProcess().Handle, (UIntPtr)0xFFFFFFFF, (UIntPtr)0xFFFFFFFF);
}
if (Prcs.HasExited) { break; }
if (Kill_TID) break;
}
}
catch (Exception ee)
{
//Console.WriteLine(ee.Message);
}
}
catch (Exception)
{
// return false;
}
buff = null;
// return false;
}
});
}
}
catch (Exception)
{
}
}
}
System.Threading.Thread.Sleep(5);
if (ETWMsg.Contains(" requested to connect"))
{
t_asyn2 = logfilewrite(logfile, "[" + DateTime.Now.ToString() + "]::" + ETWMsg.Split('(')[1].ToString() + "[PID:" + data.ProcessID.ToString() + "]" + " ProcessPath: " + PRCOCESSFileName);
Console.ForegroundColor = ConsoleColor.Green; Console.WriteLine("[" + DateTime.Now.ToString() + "]::" + ETWMsg.Split('(')[1].ToString() + "by PID:" + data.ProcessID.ToString() + " ProcessPath: " + PRCOCESSFileName);
}
System.Threading.Thread.Sleep(5);
if (ETWMsg.Contains("connect proceeding"))
{
t_asyn2 = logfilewrite(logfile, "[" + DateTime.Now.ToString() + "]::" + ETWMsg.Split('(')[1].ToString() + "[PID:" + data.ProcessID.ToString() + "]");
Console.ForegroundColor = ConsoleColor.DarkGreen; Console.WriteLine("[" + DateTime.Now.ToString() + "]::" + ETWMsg.Split('(')[1].ToString());
}
System.Threading.Thread.Sleep(5);
if (ETWMsg.Contains(" close issued") || ETWMsg.Contains(" close"))
{
t_asyn2 = logfilewrite(logfile, "[" + DateTime.Now.ToString() + "]::" + ETWMsg.Split('(')[1].ToString() + "[PID:" + data.ProcessID.ToString() + "]");
Console.ForegroundColor = ConsoleColor.DarkGreen; Console.WriteLine("[" + DateTime.Now.ToString() + "]::" + ETWMsg.Split('(')[1].ToString());
}
System.Threading.Thread.Sleep(5);
if (ETWMsg.Contains("shutdown initiated"))
{
t_asyn2 = logfilewrite(logfile, "[" + DateTime.Now.ToString() + "]::" + ETWMsg.Split('(')[1].ToString() + "[PID:" + data.ProcessID.ToString() + "]");
Console.ForegroundColor = ConsoleColor.DarkYellow; Console.WriteLine("[" + DateTime.Now.ToString() + "]::" + ETWMsg.Split('(')[1].ToString());
}
}
};
Guid provider = new Guid("2F07E2EE-15DB-40F1-90EF-9D7BA282188A");
ETWs.EnableProvider(provider, TraceEventLevel.Verbose);
source.Process();
Console.CancelKeyPress += (object s, ConsoleCancelEventArgs e) => ETWs.Stop();
ETWs.Dispose();
};
}
}
}
}