/// <summary> /// /// </summary> /// <param name="libraryName">mono.dll</param> /// <returns></returns> internal IntPtr method_18(string libraryName) { IntPtr procAddress = externalProcessMemory_0.GetProcAddress("kernel32.dll", "GetModuleHandleW"); IntPtr result; var length = libraryName.Length * 2 + 2; using (AllocatedMemory allocatedMemory = externalProcessMemory_0.CreateAllocatedMemory(length)) { allocatedMemory.WriteString(0, libraryName, Encoding.Unicode); result = externalProcessMemory_0.CallInjected <IntPtr>(procAddress, CallingConvention.StdCall, allocatedMemory.Address); } return(result); }
internal static void smethod_3() { State = StateEnum.None; foreach (string path in string_0) { try { File.Delete(path); } catch { } } ExternalProcessMemory externalProcessMemory_ = ExternalProcessMemory_0; intptr_1 = externalProcessMemory_.GetProcAddress("user32.dll", "GetActiveWindow"); if (intptr_1 == IntPtr.Zero) { throw new Exception("The function 'GetActiveWindow' was not found."); } intptr_0 = externalProcessMemory_.GetProcAddress("user32.dll", "GetForegroundWindow"); if (intptr_0 == IntPtr.Zero) { throw new Exception("The function 'GetForegroundWindow' was not found."); } intptr_2 = externalProcessMemory_.GetProcAddress("user32.dll", "GetKeyState"); if (intptr_2 == IntPtr.Zero) { throw new Exception("The function 'GetKeyState' was not found."); } intptr_3 = externalProcessMemory_.GetProcAddress("user32.dll", "GetCursorPos"); if (intptr_3 == IntPtr.Zero) { throw new Exception("The function 'GetCursorPos' was not found."); } intptr_4 = externalProcessMemory_.GetProcAddress("user32.dll", "ScreenToClient"); if (intptr_4 == IntPtr.Zero) { throw new Exception("The function 'ScreenToClient' was not found."); } allocatedMemory_0 = externalProcessMemory_.CreateAllocatedMemory(4096); List <byte[]> list = ProcessHookManager.smethod_1(); if (list != null) { using (TritonHs.AcquireFrame()) { ExternalProcessMemory_0.WriteBytes(intptr_0, list[0]); ExternalProcessMemory_0.WriteBytes(intptr_1, list[1]); ExternalProcessMemory_0.WriteBytes(intptr_2, list[2]); ExternalProcessMemory_0.WriteBytes(intptr_3, list[3]); ExternalProcessMemory_0.WriteBytes(intptr_4, list[4]); } } bool flag = false; try { IntPtr intPtr_ = ProcessHookManager.IntPtr_0; ManagedFasm asm = externalProcessMemory_.Asm; asm.Clear(); asm.smethod_3("mov eax, " + intPtr_); asm.smethod_3("retn"); byte[] array2 = asm.Assemble(); asm.Clear(); allocatedMemory_0.WriteBytes(0, array2); int value = (allocatedMemory_0.Address + 0).ToInt32() - intptr_0.ToInt32() - 5; int value2 = (allocatedMemory_0.Address + 0).ToInt32() - intptr_1.ToInt32() - 5; int num = 0 + array2.Length; ProcessHookManager.byte_0 = new byte[5]; ProcessHookManager.byte_0[0] = 233; byte[] bytes = BitConverter.GetBytes(value); for (int j = 0; j < bytes.Length; j++) { ProcessHookManager.byte_0[j + 1] = bytes[j]; } ProcessHookManager.byte_1 = new byte[5]; ProcessHookManager.byte_1[0] = 233; byte[] bytes2 = BitConverter.GetBytes(value2); for (int k = 0; k < bytes2.Length; k++) { ProcessHookManager.byte_1[k + 1] = bytes2[k]; } externalProcessMemory_.Patches.Create(intptr_0, ProcessHookManager.byte_0, "ProcessHookManager_GetForegroundWindow"); externalProcessMemory_.Patches.Create(intptr_1, ProcessHookManager.byte_1, "ProcessHookManager_GetActiveWindow"); byte[] bytes3 = new byte[1024]; allocatedMemory_0.WriteBytes(num, bytes3); IntPtr intPtr = allocatedMemory_0.Address + num; ProcessHookManager.int_0 = num; num += 1024; byte[] bytes4 = new byte[8]; allocatedMemory_0.WriteBytes(num, bytes4); IntPtr intPtr2 = allocatedMemory_0.Address + num; num += 4; IntPtr intPtr3 = allocatedMemory_0.Address + num; num += 4; ManagedFasm asm2 = externalProcessMemory_.Asm; asm2.Clear(); asm2.smethod_3("pop eax"); asm2.smethod_4("mov [{0}], eax", new object[] { intPtr2 }); asm2.smethod_3("pop eax"); asm2.smethod_4("mov [{0}], eax", new object[] { intPtr3 }); asm2.smethod_3("imul eax, 4"); asm2.smethod_4("add eax, {0}", new object[] { intPtr }); asm2.smethod_3("mov eax, [eax]"); asm2.smethod_4("pushd [{0}]", new object[] { intPtr2 }); asm2.smethod_3("retn"); byte[] array3 = asm2.Assemble(); asm2.Clear(); allocatedMemory_0.WriteBytes(num, array3); int value3 = (allocatedMemory_0.Address + num).ToInt32() - intptr_2.ToInt32() - 5; num += array3.Length; ProcessHookManager.byte_2 = new byte[5]; ProcessHookManager.byte_2[0] = 233; byte[] bytes5 = BitConverter.GetBytes(value3); for (int l = 0; l < bytes5.Length; l++) { ProcessHookManager.byte_2[l + 1] = bytes5[l]; } externalProcessMemory_.Patches.Create(intptr_2, ProcessHookManager.byte_2, "ProcessHookManager_GetKeyState"); byte[] array4 = new byte[12]; array4[8] = 1; allocatedMemory_0.WriteBytes(num, array4); IntPtr intPtr4 = allocatedMemory_0.Address + num; ProcessHookManager.int_1 = num; num += 4; ProcessHookManager.int_2 = num; num += 4; ProcessHookManager.int_3 = num; num += 4; byte[] bytes6 = new byte[8]; allocatedMemory_0.WriteBytes(num, bytes6); IntPtr intPtr5 = allocatedMemory_0.Address + num; num += 4; IntPtr intPtr6 = allocatedMemory_0.Address + num; num += 4; ManagedFasm asm3 = externalProcessMemory_.Asm; asm3.Clear(); asm3.smethod_3("pop eax"); asm3.smethod_4("mov [{0}], eax", new object[] { intPtr5 }); asm3.smethod_3("pop eax"); asm3.smethod_4("mov [{0}], eax", new object[] { intPtr6 }); asm3.smethod_3("push ecx"); asm3.smethod_4("mov ecx, {0}", new object[] { intPtr4 }); asm3.smethod_3("mov ecx, [ecx]"); asm3.smethod_3("mov [eax], ecx"); asm3.smethod_3("add eax, 4"); asm3.smethod_4("mov ecx, {0}", new object[] { intPtr4 }); asm3.smethod_3("add ecx, 4"); asm3.smethod_3("mov ecx, [ecx]"); asm3.smethod_3("mov [eax], ecx"); asm3.smethod_4("mov ecx, {0}", new object[] { intPtr4 }); asm3.smethod_3("add ecx, 8"); asm3.smethod_3("mov eax, [ecx]"); asm3.smethod_3("pop ecx"); asm3.smethod_4("pushd [{0}]", new object[] { intPtr5 }); asm3.smethod_3("retn"); byte[] array5 = asm3.Assemble(); asm3.Clear(); allocatedMemory_0.WriteBytes(num, array5); int value4 = (allocatedMemory_0.Address + num).ToInt32() - intptr_3.ToInt32() - 5; num += array5.Length; ProcessHookManager.byte_3 = new byte[5]; ProcessHookManager.byte_3[0] = 233; byte[] bytes7 = BitConverter.GetBytes(value4); for (int m = 0; m < bytes7.Length; m++) { ProcessHookManager.byte_3[m + 1] = bytes7[m]; } externalProcessMemory_.Patches.Create(intptr_3, ProcessHookManager.byte_3, "ProcessHookManager_GetCursorPos"); byte[] array6 = new byte[12]; array6[8] = 1; allocatedMemory_0.WriteBytes(num, array6); IntPtr intPtr7 = allocatedMemory_0.Address + num; ProcessHookManager.int_4 = num; num += 4; ProcessHookManager.int_5 = num; num += 4; ProcessHookManager.int_6 = num; num += 4; byte[] bytes8 = new byte[12]; allocatedMemory_0.WriteBytes(num, bytes8); IntPtr intPtr8 = allocatedMemory_0.Address + num; num += 4; IntPtr intPtr9 = allocatedMemory_0.Address + num; num += 4; IntPtr intPtr10 = allocatedMemory_0.Address + num; num += 4; ManagedFasm asm4 = externalProcessMemory_.Asm; asm4.Clear(); asm4.smethod_3("pop eax"); asm4.smethod_4("mov [{0}], eax", new object[] { intPtr8 }); asm4.smethod_3("pop eax"); asm4.smethod_4("mov [{0}], eax", new object[] { intPtr9 }); asm4.smethod_3("pop eax"); asm4.smethod_4("mov [{0}], eax", new object[] { intPtr10 }); asm4.smethod_3("push ecx"); asm4.smethod_4("mov ecx, {0}", new object[] { intPtr7 }); asm4.smethod_3("mov ecx, [ecx]"); asm4.smethod_3("mov [eax], ecx"); asm4.smethod_3("add eax, 4"); asm4.smethod_4("mov ecx, {0}", new object[] { intPtr7 }); asm4.smethod_3("add ecx, 4"); asm4.smethod_3("mov ecx, [ecx]"); asm4.smethod_3("mov [eax], ecx"); asm4.smethod_4("mov ecx, {0}", new object[] { intPtr7 }); asm4.smethod_3("add ecx, 8"); asm4.smethod_3("mov eax, [ecx]"); asm4.smethod_3("pop ecx"); asm4.smethod_4("pushd [{0}]", new object[] { intPtr8 }); asm4.smethod_3("retn"); byte[] array7 = asm4.Assemble(); asm4.Clear(); allocatedMemory_0.WriteBytes(num, array7); int value5 = (allocatedMemory_0.Address + num).ToInt32() - intptr_4.ToInt32() - 5; num += array7.Length; ProcessHookManager.byte_4 = new byte[5]; ProcessHookManager.byte_4[0] = 233; byte[] bytes9 = BitConverter.GetBytes(value5); for (int n = 0; n < bytes9.Length; n++) { ProcessHookManager.byte_4[n + 1] = bytes9[n]; } externalProcessMemory_.Patches.Create(intptr_4, ProcessHookManager.byte_4, "ProcessHookManager_ScreenToClient"); ProcessHookManager.smethod_2(); } catch (Exception) { flag = true; throw; } finally { if (flag && allocatedMemory_0 != null) { allocatedMemory_0.Dispose(); allocatedMemory_0 = null; } } }
internal static void smethod_3() { State = StateEnum.None; string[] strArray = string_0; int index = 0; while (true) { if (index >= strArray.Length) { break; } string path = strArray[index]; try { File.Delete(path); } catch { } index++; } ExternalProcessMemory memory = ExternalProcessMemory_0; intptr_1 = memory.GetProcAddress("user32.dll", "GetActiveWindow"); if (intptr_1 == IntPtr.Zero) { throw new Exception("The function 'GetActiveWindow' was not found."); } intptr_0 = memory.GetProcAddress("user32.dll", "GetForegroundWindow"); if (intptr_0 == IntPtr.Zero) { throw new Exception("The function 'GetForegroundWindow' was not found."); } intptr_2 = memory.GetProcAddress("user32.dll", "GetKeyState"); if (intptr_2 == IntPtr.Zero) { throw new Exception("The function 'GetKeyState' was not found."); } intptr_3 = memory.GetProcAddress("user32.dll", "GetCursorPos"); if (intptr_3 == IntPtr.Zero) { throw new Exception("The function 'GetCursorPos' was not found."); } intptr_4 = memory.GetProcAddress("user32.dll", "ScreenToClient"); if (intptr_4 == IntPtr.Zero) { throw new Exception("The function 'ScreenToClient' was not found."); } allocatedMemory_0 = memory.CreateAllocatedMemory(0x1000); List <byte[]> list = smethod_1(); if (list != null) { using (TritonHs.AcquireFrame()) { ExternalProcessMemory_0.WriteBytes(intptr_0, list[0]); ExternalProcessMemory_0.WriteBytes(intptr_1, list[1]); ExternalProcessMemory_0.WriteBytes(intptr_2, list[2]); ExternalProcessMemory_0.WriteBytes(intptr_3, list[3]); ExternalProcessMemory_0.WriteBytes(intptr_4, list[4]); } } bool flag = false; try { int offsetInBytes = 0; IntPtr ptr = IntPtr_0; ManagedFasm asm = memory.Asm; asm.Clear(); asm.AddLine("mov eax, " + ptr.ToString()); asm.AddLine("retn"); byte[] bytes = asm.Assemble(); asm.Clear(); allocatedMemory_0.WriteBytes(0, bytes); IntPtr ptr2 = allocatedMemory_0.Address + IntPtr.Zero; ptr2 = allocatedMemory_0.Address + IntPtr.Zero; int num3 = (ptr2.ToInt32() - intptr_1.ToInt32()) - 5; offsetInBytes = 0 + bytes.Length; byte_0 = new byte[5]; byte_0[0] = 0xe9; byte[] buffer2 = BitConverter.GetBytes((int)((ptr2.ToInt32() - intptr_0.ToInt32()) - 5)); for (int i = 0; i < buffer2.Length; i++) { byte_0[i + 1] = buffer2[i]; } byte_1 = new byte[5]; byte_1[0] = 0xe9; byte[] buffer3 = BitConverter.GetBytes(num3); for (int j = 0; j < buffer3.Length; j++) { byte_1[j + 1] = buffer3[j]; } memory.Patches.Create(intptr_0, byte_0, "ProcessHookManager_GetForegroundWindow"); memory.Patches.Create(intptr_1, byte_1, "ProcessHookManager_GetActiveWindow"); byte[] buffer4 = new byte[0x400]; allocatedMemory_0.WriteBytes(offsetInBytes, buffer4); IntPtr ptr3 = allocatedMemory_0.Address + offsetInBytes; int_0 = offsetInBytes; offsetInBytes += 0x400; byte[] buffer5 = new byte[8]; allocatedMemory_0.WriteBytes(offsetInBytes, buffer5); IntPtr ptr4 = allocatedMemory_0.Address + offsetInBytes; offsetInBytes += 4; IntPtr ptr5 = allocatedMemory_0.Address + offsetInBytes; offsetInBytes += 4; ManagedFasm fasm = memory.Asm; fasm.Clear(); fasm.AddLine("pop eax"); object[] args = new object[] { ptr4 }; fasm.AddLine("mov [{0}], eax", args); fasm.AddLine("pop eax"); object[] objArray2 = new object[] { ptr5 }; fasm.AddLine("mov [{0}], eax", objArray2); fasm.AddLine("imul eax, 4"); object[] objArray3 = new object[] { ptr3 }; fasm.AddLine("add eax, {0}", objArray3); fasm.AddLine("mov eax, [eax]"); object[] objArray4 = new object[] { ptr4 }; fasm.AddLine("pushd [{0}]", objArray4); fasm.AddLine("retn"); byte[] buffer6 = fasm.Assemble(); fasm.Clear(); allocatedMemory_0.WriteBytes(offsetInBytes, buffer6); ptr2 = allocatedMemory_0.Address + offsetInBytes; offsetInBytes += buffer6.Length; byte_2 = new byte[5]; byte_2[0] = 0xe9; byte[] buffer7 = BitConverter.GetBytes((int)((ptr2.ToInt32() - intptr_2.ToInt32()) - 5)); for (int k = 0; k < buffer7.Length; k++) { byte_2[k + 1] = buffer7[k]; } memory.Patches.Create(intptr_2, byte_2, "ProcessHookManager_GetKeyState"); byte[] buffer8 = new byte[12]; buffer8[8] = 1; allocatedMemory_0.WriteBytes(offsetInBytes, buffer8); IntPtr ptr6 = allocatedMemory_0.Address + offsetInBytes; int_1 = offsetInBytes; offsetInBytes += 4; int_2 = offsetInBytes; offsetInBytes += 4; int_3 = offsetInBytes; offsetInBytes += 4; byte[] buffer9 = new byte[8]; allocatedMemory_0.WriteBytes(offsetInBytes, buffer9); IntPtr ptr7 = allocatedMemory_0.Address + offsetInBytes; offsetInBytes += 4; IntPtr ptr8 = allocatedMemory_0.Address + offsetInBytes; offsetInBytes += 4; ManagedFasm fasm2 = memory.Asm; fasm2.Clear(); fasm2.AddLine("pop eax"); object[] objArray5 = new object[] { ptr7 }; fasm2.AddLine("mov [{0}], eax", objArray5); fasm2.AddLine("pop eax"); object[] objArray6 = new object[] { ptr8 }; fasm2.AddLine("mov [{0}], eax", objArray6); fasm2.AddLine("push ecx"); object[] objArray7 = new object[] { ptr6 }; fasm2.AddLine("mov ecx, {0}", objArray7); fasm2.AddLine("mov ecx, [ecx]"); fasm2.AddLine("mov [eax], ecx"); fasm2.AddLine("add eax, 4"); object[] objArray8 = new object[] { ptr6 }; fasm2.AddLine("mov ecx, {0}", objArray8); fasm2.AddLine("add ecx, 4"); fasm2.AddLine("mov ecx, [ecx]"); fasm2.AddLine("mov [eax], ecx"); object[] objArray9 = new object[] { ptr6 }; fasm2.AddLine("mov ecx, {0}", objArray9); fasm2.AddLine("add ecx, 8"); fasm2.AddLine("mov eax, [ecx]"); fasm2.AddLine("pop ecx"); object[] objArray10 = new object[] { ptr7 }; fasm2.AddLine("pushd [{0}]", objArray10); fasm2.AddLine("retn"); byte[] buffer10 = fasm2.Assemble(); fasm2.Clear(); allocatedMemory_0.WriteBytes(offsetInBytes, buffer10); ptr2 = allocatedMemory_0.Address + offsetInBytes; offsetInBytes += buffer10.Length; byte_3 = new byte[5]; byte_3[0] = 0xe9; byte[] buffer11 = BitConverter.GetBytes((int)((ptr2.ToInt32() - intptr_3.ToInt32()) - 5)); for (int m = 0; m < buffer11.Length; m++) { byte_3[m + 1] = buffer11[m]; } memory.Patches.Create(intptr_3, byte_3, "ProcessHookManager_GetCursorPos"); byte[] buffer12 = new byte[12]; buffer12[8] = 1; allocatedMemory_0.WriteBytes(offsetInBytes, buffer12); IntPtr ptr9 = allocatedMemory_0.Address + offsetInBytes; int_4 = offsetInBytes; offsetInBytes += 4; int_5 = offsetInBytes; offsetInBytes += 4; int_6 = offsetInBytes; offsetInBytes += 4; byte[] buffer13 = new byte[12]; allocatedMemory_0.WriteBytes(offsetInBytes, buffer13); IntPtr ptr10 = allocatedMemory_0.Address + offsetInBytes; offsetInBytes += 4; IntPtr ptr11 = allocatedMemory_0.Address + offsetInBytes; offsetInBytes += 4; IntPtr ptr12 = allocatedMemory_0.Address + offsetInBytes; offsetInBytes += 4; ManagedFasm fasm3 = memory.Asm; fasm3.Clear(); fasm3.AddLine("pop eax"); object[] objArray11 = new object[] { ptr10 }; fasm3.AddLine("mov [{0}], eax", objArray11); fasm3.AddLine("pop eax"); object[] objArray12 = new object[] { ptr11 }; fasm3.AddLine("mov [{0}], eax", objArray12); fasm3.AddLine("pop eax"); object[] objArray13 = new object[] { ptr12 }; fasm3.AddLine("mov [{0}], eax", objArray13); fasm3.AddLine("push ecx"); object[] objArray14 = new object[] { ptr9 }; fasm3.AddLine("mov ecx, {0}", objArray14); fasm3.AddLine("mov ecx, [ecx]"); fasm3.AddLine("mov [eax], ecx"); fasm3.AddLine("add eax, 4"); object[] objArray15 = new object[] { ptr9 }; fasm3.AddLine("mov ecx, {0}", objArray15); fasm3.AddLine("add ecx, 4"); fasm3.AddLine("mov ecx, [ecx]"); fasm3.AddLine("mov [eax], ecx"); object[] objArray16 = new object[] { ptr9 }; fasm3.AddLine("mov ecx, {0}", objArray16); fasm3.AddLine("add ecx, 8"); fasm3.AddLine("mov eax, [ecx]"); fasm3.AddLine("pop ecx"); object[] objArray17 = new object[] { ptr10 }; fasm3.AddLine("pushd [{0}]", objArray17); fasm3.AddLine("retn"); byte[] buffer14 = fasm3.Assemble(); fasm3.Clear(); allocatedMemory_0.WriteBytes(offsetInBytes, buffer14); ptr2 = allocatedMemory_0.Address + offsetInBytes; offsetInBytes += buffer14.Length; byte_4 = new byte[5]; byte_4[0] = 0xe9; byte[] buffer15 = BitConverter.GetBytes((int)((ptr2.ToInt32() - intptr_4.ToInt32()) - 5)); for (int n = 0; n < buffer15.Length; n++) { byte_4[n + 1] = buffer15[n]; } memory.Patches.Create(intptr_4, byte_4, "ProcessHookManager_ScreenToClient"); smethod_2(); } catch (Exception) { flag = true; throw; } finally { if (flag && (allocatedMemory_0 != null)) { allocatedMemory_0.Dispose(); allocatedMemory_0 = null; } } }