using System; using System.Collections.Generic; using System.Text; using System.Threading; using System.Text.RegularExpressions; using System.Runtime.InteropServices; using System.IO; namespace IW4MAdmin { class Utilities { //Get string with specified number of spaces -- really only for visual output public static String getSpaces(int Num) { String SpaceString = String.Empty; while (Num > 0) { SpaceString += ' '; Num--; } return SpaceString; } //Sleep for x amount of seconds public static void Wait(double time) { Thread.Sleep((int)Math.Ceiling(time*1000)); } //Remove words from a space delimited string public static String removeWords(String str, int num) { String newStr = String.Empty; String[] tmp = str.Split(' '); for (int i = 0; i < tmp.Length; i++) { if (i >= num) newStr += tmp[i] + ' '; } return newStr; } public static Player.Permission matchPermission(String str) { String lookingFor = str.ToLower(); for (Player.Permission Perm = Player.Permission.User; Perm < Player.Permission.Owner; Perm++) { if (lookingFor.Contains(Perm.ToString().ToLower())) return Perm; } return Player.Permission.Banned; } public static String removeNastyChars(String str) { if (str != null) return str.Replace("`", "").Replace("\\", "").Replace("\"", "").Replace(""", "''").Replace("&", "&").Replace("\"", "''"); else return String.Empty; } public static int GetLineNumber(Exception ex) { var lineNumber = 0; const string lineSearch = ":line "; var index = ex.StackTrace.LastIndexOf(lineSearch); if (index != -1) { var lineNumberText = ex.StackTrace.Substring(index + lineSearch.Length); if (int.TryParse(lineNumberText, out lineNumber)) { } } return lineNumber; } public static String cleanChars(String S) { StringBuilder Cleaned = new StringBuilder(); foreach (char c in S) if (c < 127 && c > 31 && c != 37 && c != 34 && c != 92) Cleaned.Append(c); return Cleaned.ToString(); } public static String stripColors(String str) { return Regex.Replace(str, @"\^[0-9]", ""); } public static String levelToColor(Player.Permission level) { switch (level) { case Player.Permission.Banned: return "^1" + Player.Permission.Banned; case Player.Permission.Flagged: return "^0" + Player.Permission.Flagged; case Player.Permission.Owner: return "^5" + Player.Permission.Owner; case Player.Permission.User: return "^2" + Player.Permission.User; default: return "^3" + level; } } public static String processMacro(Dictionary Dict, String str) { MatchCollection Found = Regex.Matches(str, @"\{\{[A-Z]+\}\}", RegexOptions.IgnoreCase); foreach (Match M in Found) { String Match = M.Value; String Identifier = M.Value.Substring(2, M.Length - 4); String Replacement = Dict[Identifier].ToString(); str = str.Replace(Match, Replacement); } return str; } public static Dictionary IPFromStatus(String[] players) { Dictionary Dict = new Dictionary(); if (players == null) return null; foreach (String S in players) { String S2 = S.Trim(); if (S.Length < 50) continue; if (Regex.Matches(S2, @"\d+$", RegexOptions.IgnoreCase).Count > 0) { String[] eachPlayer = S2.Split(new char[] { ' ' }, StringSplitOptions.RemoveEmptyEntries); for (int i = 3; i < eachPlayer.Length; i++ ) { if (eachPlayer[i].Split(':').Length > 1) { Dict.Add(eachPlayer[3], eachPlayer[i].Split(':')[0]); break; } } } } return Dict; } public static String nameHTMLFormatted(Player P) { switch (P.getLevel()) { case Player.Permission.User: return "" + P.getName() + ""; case Player.Permission.Moderator: return "" + P.getName() + ""; case Player.Permission.Administrator: return "" + P.getName() + ""; case Player.Permission.SeniorAdmin: return "" + P.getName() + ""; case Player.Permission.Owner: return "" + P.getName() + ""; case Player.Permission.Creator: return "" + P.getName() + ""; case Player.Permission.Banned: return "" + P.getName() + ""; case Player.Permission.Flagged: return "" + P.getName() + ""; default: return "" + P.getName() + ""; } } public static String nameHTMLFormatted(Player.Permission Level) { switch (Level) { case Player.Permission.User: return "" + Level + ""; case Player.Permission.Moderator: return "" + Level + ""; case Player.Permission.Administrator: return "" + Level + ""; case Player.Permission.SeniorAdmin: return "" + Level + ""; case Player.Permission.Owner: return "" + Level + ""; case Player.Permission.Creator: return "" + Level + ""; case Player.Permission.Banned: return "" + Level + ""; case Player.Permission.Flagged: return "" + Level + ""; default: return "" + Level + ""; } } public static String gametypeLocalized(String input) { switch (input) { case "dm": return "Deathmatch"; case "war": return "Team Deathmatch"; case "koth": return "Headquarters"; case "ctf": return "Capture The Flag"; case "dd": return "Demolition"; case "dom": return "Domination"; case "sab": return "Sabotage"; case "sd": return "Search & Destroy"; case "vip": return "Very Important Person"; case "gtnw": return "Global Thermonuclear War"; case "oitc": return "One In The Chamber"; case "arena": return "Arena"; case "dzone": return "Drop Zone"; case "gg": return "Gun Game"; case "snipe": return "Sniping"; case "ss": return "Sharp Shooter"; case "m40a3": return "M40A3"; case "fo": return "Face Off"; case "dmc": return "Deathmatch Classic"; case "killcon": return "Kill Confirmed"; case "oneflag": return "One Flag CTF"; default: return "Unknown"; } } public static Dictionary playersFromStatus(String[] Status) { Dictionary playerDictionary = new Dictionary(); if (Status == null) // looks like we didn't get a proper response return null; foreach (String S in Status) { String responseLine = S.Trim(); if (Regex.Matches(responseLine, @"\d+$", RegexOptions.IgnoreCase).Count > 0 && responseLine.Length > 92) // its a client line! { String[] playerInfo = responseLine.Split(new char[] { ' ' }, StringSplitOptions.RemoveEmptyEntries); int cID = -1; String cName = stripColors(responseLine.Substring(46, 18)).Trim(); String npID = responseLine.Substring(29, 17).Trim(); // DONT TOUCH PLZ int.TryParse(playerInfo[0], out cID); String cIP = responseLine.Substring(72,20).Trim().Split(':')[0]; Player P = new Player(cName, npID, cID, cIP); try { playerDictionary.Add(npID, P); } catch(Exception E) { /// need to handle eventually Console.WriteLine("Error handling player add -- " + E.Message); continue; } } } return playerDictionary; } public static String DateTimeSQLite(DateTime datetime) { string dateTimeFormat = "{0}-{1}-{2} {3}:{4}:{5}.{6}"; return string.Format(dateTimeFormat, datetime.Year, datetime.Month, datetime.Day, datetime.Hour, datetime.Minute, datetime.Second, datetime.Millisecond); } public static String timePassed(DateTime start) { TimeSpan Elapsed = DateTime.Now - start; if (Elapsed.TotalMinutes < 120) return Math.Round(Elapsed.TotalMinutes, 0) + " minutes"; if (Elapsed.TotalHours <= 24) return Math.Round(Elapsed.TotalHours, 0) + " hours"; if (Elapsed.TotalDays <= 365) return Math.Round(Elapsed.TotalDays, 0) + " days"; else return "a very long time"; } [Flags] public enum ProcessAccessFlags : uint { Terminate = 0x00000001, CreateThread = 0x00000002, VMOperation = 0x00000008, VMRead = 0x00000010, VMWrite = 0x00000020, DupHandle = 0x00000040, SetInformation = 0x00000200, QueryInformation = 0x00000400, Synchronize = 0x00100000, All = 0x001F0FFF } [Flags] public enum AllocationType { Commit = 0x00001000, Reserve = 0x00002000, Decommit = 0x00004000, Release = 0x00008000, Reset = 0x00080000, TopDown = 0x00100000, WriteWatch = 0x00200000, Physical = 0x00400000, LargePages = 0x20000000 } [Flags] public enum MemoryProtection { NoAccess = 0x0001, ReadOnly = 0x0002, ReadWrite = 0x0004, WriteCopy = 0x0008, Execute = 0x0010, ExecuteRead = 0x0020, ExecuteReadWrite = 0x0040, ExecuteWriteCopy = 0x0080, GuardModifierflag = 0x0100, NoCacheModifierflag = 0x0200, WriteCombineModifierflag = 0x0400 } [DllImport("kernel32.dll")] public static extern IntPtr OpenProcess(ProcessAccessFlags dwDesiredAccess, bool bInheritHandle, int dwProcessId); [DllImport("kernel32.dll")] public static extern bool ReadProcessMemory(int hProcess, int lpBaseAddress, byte[] lpBuffer, int dwSize, ref int lpNumberOfBytesRead); [DllImport("kernel32.dll")] public static extern bool WriteProcessMemory(IntPtr hProcess, IntPtr lpBaseAddress, byte[] lpBuffer, uint nSize, out UIntPtr lpNumberOfBytesWritten); [DllImport("kernel32.dll")] static extern bool TerminateThread(IntPtr hThread, uint dwExitCode); [DllImport("kernel32.dll")] public static extern IntPtr VirtualAllocEx(IntPtr hProcess, IntPtr lpAddress, uint dwSize, AllocationType flAllocationType, MemoryProtection flProtect); [DllImport("kernel32.dll")] public static extern IntPtr CreateRemoteThread(IntPtr hProcess, IntPtr lpThreadAttributes, uint dwStackSize, IntPtr lpStartAddress, IntPtr lpParameter, uint dwCreationFlags, out uint lpThreadId); [DllImport("kernel32.dll", SetLastError = true, ExactSpelling = true)] static extern bool VirtualFreeEx(IntPtr hProcess, IntPtr lpAddress, uint dwSize, AllocationType dwFreeType); [DllImport("kernel32.dll", SetLastError = true)] static extern UInt32 WaitForSingleObject(IntPtr hHandle, UInt32 dwMilliseconds); [DllImport("kernel32.dll", SetLastError = true)] static extern IntPtr GetProcAddress(IntPtr hModule, string lpProcName); [DllImport("kernel32.dll", SetLastError = true)] static extern IntPtr GetModuleHandle(string lpModuleName); [DllImport("kernel32.dll", SetLastError = true)] static extern int CloseHandle(IntPtr hObject); public static dvar getDvar(int Location, IntPtr Handle) { int numberRead = 0; Byte[] Buff = new Byte[72]; ReadProcessMemory((int)Handle, Location, Buff, Buff.Length, ref numberRead); // read dvar memory dvar_t dvar_raw = Helpers.ReadStruct(Buff); // get the dvar struct dvar dvar_actual = new dvar(); // gotta convert to something readable dvar_actual.name = getStringFromPointer((int)dvar_raw.name, (int)Handle); dvar_actual.description = getStringFromPointer((int)dvar_raw.description, (int)Handle); if ((int)dvar_raw._default > short.MaxValue) dvar_actual._default = getStringFromPointer((int)dvar_raw._default, (int)Handle); else dvar_actual._default = dvar_raw._default.ToString(); if ((int)dvar_raw.current > short.MaxValue) dvar_actual.current = getStringFromPointer((int)dvar_raw.current, (int)Handle); else if ((int)dvar_raw.current <= 1025) dvar_actual.current = ((int)dvar_raw.current % 1024).ToString(); else dvar_actual.current = dvar_raw.current.ToString(); if ((int)dvar_raw.latched > short.MaxValue) dvar_actual.latched = getStringFromPointer((int)dvar_raw.latched, (int)Handle); else dvar_actual.latched = dvar_raw.latched.ToString(); dvar_actual.type = dvar_raw.type; dvar_actual.flags = getIntFromPointer((int)dvar_raw.flags, (int)Handle); dvar_actual.max = getIntFromPointer((int)dvar_raw.max, (int)Handle); dvar_actual.min = getIntFromPointer((int)dvar_raw.min, (int)Handle); // done! return dvar_actual; } public static dvar getDvarOld(int Location, int Handle) { int loc = getIntFromPointer(Location, Handle); return getDvar(loc, (IntPtr)Handle); } public static int getDvarCurrentAddress(int Location, int Handle) { int numberRead = 0; Byte[] Buff = new Byte[72]; Byte[] Ptr = new Byte[4]; ReadProcessMemory(Handle, Location, Ptr, Ptr.Length, ref numberRead); // get location of dvar ReadProcessMemory(Handle, (int)BitConverter.ToUInt32(Ptr, 0), Buff, Buff.Length, ref numberRead); // read dvar memory dvar_t dvar_raw = Helpers.ReadStruct(Buff); // get the dvar struct int current = (int)dvar_raw.current; return current; } public static void setDvar(int Location, int Handle, String Value) { UIntPtr bytesWritten = UIntPtr.Zero; WriteProcessMemory((IntPtr)Handle, (IntPtr)Location, Encoding.ASCII.GetBytes(Value), (uint)Value.Length, out bytesWritten); } public static String getStringFromPointer(int Location, int Handle) { int numberRead = 0; Byte[] Buff = new Byte[256]; ReadProcessMemory(Handle, Location, Buff, Buff.Length, ref numberRead); StringBuilder str = new StringBuilder(); for ( int i = 0; i < Buff.Length; i++) { if (Buff[i] == 0) break; str.Append((char)Buff[i]); } return str.ToString(); } public static int getIntFromPointer(int Location, int Handle) { int numberRead = 0; Byte[] Buff = new Byte[4]; ReadProcessMemory(Handle, Location, Buff, Buff.Length, ref numberRead); return BitConverter.ToInt32(Buff, 0); } public static Boolean getBoolFromPointer(int Location, int Handle) { int numberRead = 0; Byte[] Buff = new Byte[1]; ReadProcessMemory(Handle, Location, Buff, Buff.Length, ref numberRead); return BitConverter.ToBoolean(Buff, 0); } public static void executeCommand(int pID, String Command) { /*IntPtr ProcessHandle = OpenProcess(ProcessAccessFlags.All, false, pID); IntPtr memoryForCMDName = allocateAndWrite(Encoding.ASCII.GetBytes(Command + "\0"), ProcessHandle); uint threadID; if (memoryForCMDName == IntPtr.Zero) return; // set the dvar's current value pointer to our desired command setDvarCurrentPtr((IntPtr)0x2098D9C, memoryForCMDName, ProcessHandle); // assembly instruction to execute the command we want stored in `surogate` dvar byte[] executeCMD = { 0x55, 0x8B, 0xEC, 0x51, 0xC7, 0x45, 0xFC, // --------------------------------------------- 0x9C, 0x8D, 0x09, 0x02, 0x8B, 0x45, 0xFC, // dvar_t** dvarWithCMD = (dvar_t**)(0x2098D9C); 0x8B, 0x08, 0x8B, 0x51, 0x10, 0x52, 0x6A, 0x00, 0x6A, 0x00, 0xFF, 0x15, 0x1C, 0x53, // Cmd_ExecuteSingleCommand(0, 0, (*dvarWithCMD)->current.string ); 0x11, 0x10, 0x83, 0xC4, 0x0C, 0x8B, 0xE5, // --------------------------------------------- 0x5D, 0xC3 }; // allocate the memory for the assembly command and write it IntPtr codeAllocation = allocateAndWrite(executeCMD, ProcessHandle); if (codeAllocation == IntPtr.Zero) return; // create our thread that executes command :) IntPtr ThreadHandle = CreateRemoteThread(ProcessHandle, IntPtr.Zero, 0, codeAllocation, IntPtr.Zero, 0, out threadID); if (ThreadHandle == null || ThreadHandle == IntPtr.Zero) return; WaitForSingleObject(ThreadHandle, Int32.MaxValue); // gg if it doesn't finishe // cleanup if (!VirtualFreeEx(ProcessHandle, codeAllocation, 0, AllocationType.Release)) Console.WriteLine(Marshal.GetLastWin32Error()); if (!VirtualFreeEx(ProcessHandle, memoryForCMDName, 0, AllocationType.Release)) Console.WriteLine(Marshal.GetLastWin32Error());*/ IntPtr ProcessHandle = OpenProcess(ProcessAccessFlags.All, false, pID); IntPtr memoryForDvarName = allocateAndWrite(Encoding.ASCII.GetBytes(Command + "\0"), ProcessHandle); if (memoryForDvarName == IntPtr.Zero) { Console.WriteLine("UNABLE TO ALLOCATE MEMORY FOR DVAR NAME"); return; } setDvarCurrentPtr(0x2098D9C, memoryForDvarName, ProcessHandle); // if (!VirtualFreeEx(ProcessHandle, memoryForDvarName, 0, AllocationType.Release)) // Console.WriteLine("Virtual Free Failed -- Error #" + Marshal.GetLastWin32Error()); CloseHandle(ProcessHandle); } public static IntPtr allocateAndWrite(Byte[] Data, IntPtr ProcessHandle) { UIntPtr bytesWritten; IntPtr AllocatedMemory = VirtualAllocEx(ProcessHandle, IntPtr.Zero, (uint)Data.Length, AllocationType.Commit, MemoryProtection.ExecuteReadWrite); if (!WriteProcessMemory(ProcessHandle, AllocatedMemory, Data, (uint)Data.Length, out bytesWritten)) { Console.WriteLine("UNABLE TO WRITE PROCESS MEMORY!"); return IntPtr.Zero; } if ((int)bytesWritten != Data.Length) return IntPtr.Zero; else return AllocatedMemory; } public static bool setDvarCurrentPtr(int DvarAddress, IntPtr ValueAddress, IntPtr ProcessHandle) { int locationOfCurrentPtr = getIntFromPointer(DvarAddress, (int)ProcessHandle) + 0x10; Byte[] newTextPtr = BitConverter.GetBytes((int)ValueAddress); UIntPtr bytesWritten; if (!WriteProcessMemory(ProcessHandle, (IntPtr)locationOfCurrentPtr, newTextPtr, (uint)newTextPtr.Length, out bytesWritten)) return false; if (newTextPtr.Length != (int)bytesWritten) return false; return true; } public static bool initalizeInterface(int pID) { String Path = AppDomain.CurrentDomain.BaseDirectory + "lib\\AdminInterface.dll"; if (!File.Exists(Path)) return false; UIntPtr bytesWritten; uint threadID; IntPtr ProcessHandle = OpenProcess(ProcessAccessFlags.All, false, pID); if (ProcessHandle == IntPtr.Zero) return false; IntPtr lpLLAddress = GetProcAddress(GetModuleHandle("kernel32.dll"), "LoadLibraryA"); if (lpLLAddress == IntPtr.Zero) return false; IntPtr pathAllocation = VirtualAllocEx(ProcessHandle, IntPtr.Zero, (uint)Path.Length + 1, AllocationType.Commit, MemoryProtection.ExecuteReadWrite); if (pathAllocation == IntPtr.Zero) return false; byte[] pathBytes = Encoding.ASCII.GetBytes(Path); if (!WriteProcessMemory(ProcessHandle, pathAllocation, pathBytes, (uint)pathBytes.Length, out bytesWritten)) return false; if (CreateRemoteThread(ProcessHandle, IntPtr.Zero, 0, lpLLAddress, pathAllocation, 0, out threadID) == IntPtr.Zero) return false; CloseHandle(ProcessHandle); return true; } public static void setDvar(int pID, String Name, String Value) { /* IntPtr ProcessHandle = OpenProcess(ProcessAccessFlags.All, false, pID); IntPtr memoryForDvarName = allocateAndWrite(Encoding.ASCII.GetBytes(Name + " " + Value + "\0"), ProcessHandle); if (memoryForDvarName == IntPtr.Zero) { Console.WriteLine("UNABLE TO ALLOCATE MEMORY FOR DVAR NAME"); return; } setDvarCurrentPtr(0x2098D9C, memoryForDvarName, ProcessHandle); if (!VirtualFreeEx(ProcessHandle, memoryForDvarName, 0, AllocationType.Release)) Console.WriteLine("Virtual Free Failed -- Error #" + Marshal.GetLastWin32Error()); CloseHandle(ProcessHandle);*/ } public static dvar getDvar(int pID, String DVAR) { dvar requestedDvar = new dvar(); IntPtr ProcessHandle = OpenProcess(ProcessAccessFlags.All, false, pID); IntPtr memoryForDvarName = allocateAndWrite(Encoding.ASCII.GetBytes(DVAR + "\0"), ProcessHandle); if (memoryForDvarName == IntPtr.Zero) { Console.WriteLine("UNABLE TO ALLOCATE MEMORY FOR DVAR NAME"); return requestedDvar; } setDvarCurrentPtr(0x2089E04, memoryForDvarName, ProcessHandle); // sv_debugRate #if ASD /* byte[] copyDvarValue = { 0x55, 0x8B, 0xEC, 0x83, 0xEC, 0x08, // ----------------------------------------------- 0xC7, 0x45, 0xFC, 0x9C, 0x8D, 0x09, // dvar_t** surogateDvar = (dvar_t**)(0x2098D9C); 0x02, 0x8B, 0x45, 0xFC, 0x8B, 0x08, // 0x8B, 0x51, 0x10, 0x52, 0xFF, 0x15, // dvar_t *newDvar = Dvar_FindVar((*surogateDvar)->current.string); 0x6C, 0x53, 0x11, 0x10, 0x83, 0xC4, // 0x04, 0x89, 0x45, 0xF8, 0x83, 0x7D, // if (newDvar) 0xF8, 0x00, 0x74, 0x0B, 0x8B, 0x45, // 0xFC, 0x8B, 0x08, 0x8B, 0x55, 0xF8, // (*surogateDvar)->current.integer = (int)newDvar; 0x89, 0x51, 0x10, 0x8B, 0xE5, 0x5D, // ----------------------------------------------- 0xC3 }; IntPtr codeAllocation = allocateAndWrite(copyDvarValue, ProcessHandle); if (codeAllocation == IntPtr.Zero) Console.WriteLine("UNABLE TO ALLOCATE MEMORY FOR CODE"); IntPtr ThreadHandle = CreateRemoteThread(ProcessHandle, IntPtr.Zero, 0, codeAllocation, IntPtr.Zero, 0, out threadID); if (ThreadHandle == null || ThreadHandle == IntPtr.Zero) return requestedDvar; WaitForSingleObject(ThreadHandle, Int32.MaxValue); // gg if thread doesn't finish if (!VirtualFreeEx(ProcessHandle, codeAllocation, 0, AllocationType.Release)) Console.WriteLine(Marshal.GetLastWin32Error()); if (!VirtualFreeEx(ProcessHandle, memoryForDvarName, 0, AllocationType.Release)) Console.WriteLine(Marshal.GetLastWin32Error());*/ #endif Utilities.Wait(.3); int dvarLoc = getIntFromPointer(0x2089E04, (int)ProcessHandle); // this is where the dvar is stored if (dvarLoc == 0) return requestedDvar; dvarLoc = getIntFromPointer(dvarLoc + 0x10, (int)ProcessHandle); requestedDvar = getDvar(dvarLoc, ProcessHandle); CloseHandle(ProcessHandle); return requestedDvar; } public static String timesConnected(int connection) { String Prefix = String.Empty; if (connection % 10 > 3 || connection % 10 == 0 || (connection % 100 > 9 && connection % 100 < 19)) Prefix = "th"; else { switch (connection % 10) { case 1: Prefix = "st"; break; case 2: Prefix = "nd"; break; case 3: Prefix = "rd"; break; } } switch (connection) { case 0: case 1: return "first"; case 2: return "second"; case 3: return "third"; case 4: return "fourth"; case 5: return "fifth"; case 100: return "One-Hundreth (amazing!)"; default: return connection.ToString() + Prefix; } } } }