VeraCrypt
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path: root/src/Common/BootEncryption.cpp
blob: b18d1ce125461c366491290d21e0fa2b8ddb68b2 (plain)
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/*
 Derived from source code of TrueCrypt 7.1a, which is
 Copyright (c) 2008-2012 TrueCrypt Developers Association and which is governed
 by the TrueCrypt License 3.0.

 Modifications and additions to the original source code (contained in this file)
 and all other portions of this file are Copyright (c) 2013-2016 IDRIX
 and are governed by the Apache License 2.0 the full text of which is
 contained in the file License.txt included in VeraCrypt binary and source
 code distribution packages.
*/

#include "Tcdefs.h"
#include "Platform/Finally.h"
#include "Platform/ForEach.h"
#include <devguid.h>
#include <io.h>
#include <shlobj.h>
#include <atlbase.h>
#include "BootEncryption.h"
#include "Boot/Windows/BootCommon.h"
#include "Common/Resource.h"
#include "Crc.h"
#include "Crypto.h"
#include "Dlgcode.h"
#include "Endian.h"
#include "Language.h"
#include "Random.h"
#include "Registry.h"
#include "Volumes.h"

#ifdef VOLFORMAT
#include "Format/FormatCom.h"
#elif defined (TCMOUNT)
#include "Mount/MainCom.h"
#endif

#include <Strsafe.h>

namespace VeraCrypt
{
#if !defined (SETUP)

	class Elevator
	{
	public:

		static void AddReference ()
		{
			++ReferenceCount;
		}


		static void CallDriver (DWORD ioctl, void *input, DWORD inputSize, void *output, DWORD outputSize)
		{
			Elevate();

			CComBSTR inputBstr;
			if (input && inputBstr.AppendBytes ((const char *) input, inputSize) != S_OK)
				throw ParameterIncorrect (SRC_POS);

			CComBSTR outputBstr;
			if (output && outputBstr.AppendBytes ((const char *) output, outputSize) != S_OK)
				throw ParameterIncorrect (SRC_POS);

			DWORD result = ElevatedComInstance->CallDriver (ioctl, inputBstr, &outputBstr);

			if (output)
				memcpy (output, *(void **) &outputBstr, outputSize);

			if (result != ERROR_SUCCESS)
			{
				SetLastError (result);
				throw SystemException(SRC_POS);
			}
		}

		static void CopyFile (const wstring &sourceFile, const wstring &destinationFile)
		{
			Elevate();
			DWORD result;
			CComBSTR sourceFileBstr, destinationFileBstr;
			BSTR bstr = W2BSTR(sourceFile.c_str());
			if (bstr)
			{
				sourceFileBstr.Attach (bstr);

				bstr = W2BSTR(destinationFile.c_str());
				if (bstr)
				{
					destinationFileBstr.Attach (bstr);
					result = ElevatedComInstance->CopyFile (sourceFileBstr, destinationFileBstr);
				}
				else
				{
					result = ERROR_OUTOFMEMORY;
				}
			}
			else
			{
				result = ERROR_OUTOFMEMORY;
			}

			if (result != ERROR_SUCCESS)
			{
				SetLastError (result);
				throw SystemException(SRC_POS);
			}
		}

		static void DeleteFile (const wstring &file)
		{
			Elevate();
			CComBSTR fileBstr;
			DWORD result;
			BSTR bstr = W2BSTR(file.c_str());
			if (bstr)
			{
				fileBstr.Attach (bstr);
				result = ElevatedComInstance->DeleteFile (fileBstr);
			}
			else
			{
				result = ERROR_OUTOFMEMORY;
			}

			if (result != ERROR_SUCCESS)
			{
				SetLastError (result);
				throw SystemException(SRC_POS);
			}
		}

		static void ReadWriteFile (BOOL write, BOOL device, const wstring &filePath, byte *buffer, uint64 offset, uint32 size, DWORD *sizeDone)
		{
			Elevate();

			DWORD result;
			CComBSTR bufferBstr, fileBstr;
			if (bufferBstr.AppendBytes ((const char *) buffer, size) != S_OK)
				throw ParameterIncorrect (SRC_POS);
			BSTR bstr = W2BSTR(filePath.c_str());
			if (bstr)
			{
				fileBstr.Attach (bstr);
				result = ElevatedComInstance->ReadWriteFile (write, device, fileBstr, &bufferBstr, offset, size, sizeDone);
			}
			else
			{
				result = ERROR_OUTOFMEMORY;
			}

			if (result != ERROR_SUCCESS)
			{
				SetLastError (result);
				throw SystemException(SRC_POS);
			}

			if (!write)
				memcpy (buffer, (BYTE *) bufferBstr.m_str, size);
		}

		static BOOL IsPagingFileActive (BOOL checkNonWindowsPartitionsOnly)
		{
			Elevate();

			return ElevatedComInstance->IsPagingFileActive (checkNonWindowsPartitionsOnly);
		}

		static void WriteLocalMachineRegistryDwordValue (wchar_t *keyPath, wchar_t *valueName, DWORD value)
		{
			Elevate();
			DWORD result;
			CComBSTR keyPathBstr, valueNameBstr;
			BSTR bstr = W2BSTR(keyPath);
			if (bstr)
			{
				keyPathBstr.Attach (bstr);

				bstr = W2BSTR(valueName);
				if (bstr)
				{
					valueNameBstr.Attach (bstr);

					result = ElevatedComInstance->WriteLocalMachineRegistryDwordValue (keyPathBstr, valueNameBstr, value);
				}
				else
				{
					result = ERROR_OUTOFMEMORY;
				}
			}
			else
			{
				result = ERROR_OUTOFMEMORY;
			}

			if (result != ERROR_SUCCESS)
			{
				SetLastError (result);
				throw SystemException(SRC_POS);
			}
		}

		static void RegisterFilterDriver (bool registerDriver, BootEncryption::FilterType filterType)
		{
			Elevate();

			DWORD result = ElevatedComInstance->RegisterFilterDriver (registerDriver ? TRUE : FALSE, filterType);
			if (result != ERROR_SUCCESS)
			{
				SetLastError (result);
				throw SystemException(SRC_POS);
			}
		}

		static void RegisterSystemFavoritesService (BOOL registerService)
		{
			Elevate();

			DWORD result = ElevatedComInstance->RegisterSystemFavoritesService (registerService);
			if (result != ERROR_SUCCESS)
			{
				SetLastError (result);
				throw SystemException(SRC_POS);
			}
		}

		static void Release ()
		{
			if (--ReferenceCount == 0 && ElevatedComInstance)
			{
				ElevatedComInstance->Release();
				ElevatedComInstance = nullptr;
				CoUninitialize ();
			}
		}

		static void SetDriverServiceStartType (DWORD startType)
		{
			Elevate();

			DWORD result = ElevatedComInstance->SetDriverServiceStartType (startType);
			if (result != ERROR_SUCCESS)
			{
				SetLastError (result);
				throw SystemException(SRC_POS);
			}
		}

	protected:
		static void Elevate ()
		{
			if (IsAdmin())
			{
				SetLastError (ERROR_ACCESS_DENIED);
				throw SystemException(SRC_POS);
			}

			if (!ElevatedComInstance || ElevatedComInstanceThreadId != GetCurrentThreadId())
			{
				CoInitialize (NULL);
				ElevatedComInstance = GetElevatedInstance (GetActiveWindow() ? GetActiveWindow() : MainDlg);
				ElevatedComInstanceThreadId = GetCurrentThreadId();
			}
		}

#if defined (TCMOUNT)
		static ITrueCryptMainCom *ElevatedComInstance;
#elif defined (VOLFORMAT)
		static ITrueCryptFormatCom *ElevatedComInstance;
#endif
		static DWORD ElevatedComInstanceThreadId;
		static int ReferenceCount;
	};

#if defined (TCMOUNT)
	ITrueCryptMainCom *Elevator::ElevatedComInstance;
#elif defined (VOLFORMAT)
	ITrueCryptFormatCom *Elevator::ElevatedComInstance;
#endif
	DWORD Elevator::ElevatedComInstanceThreadId;
	int Elevator::ReferenceCount = 0;

#else // SETUP

	class Elevator
	{
	public:
		static void AddReference () { }
		static void CallDriver (DWORD ioctl, void *input, DWORD inputSize, void *output, DWORD outputSize) { throw ParameterIncorrect (SRC_POS); }
		static void ReadWriteFile (BOOL write, BOOL device, const wstring &filePath, byte *buffer, uint64 offset, uint32 size, DWORD *sizeDone) { throw ParameterIncorrect (SRC_POS); }
		static void RegisterFilterDriver (bool registerDriver, BootEncryption::FilterType filterType) { throw ParameterIncorrect (SRC_POS); }
		static void Release () { }
		static void SetDriverServiceStartType (DWORD startType) { throw ParameterIncorrect (SRC_POS); }
	};

#endif // SETUP


	File::File (wstring path, bool readOnly, bool create) : Elevated (false), FileOpen (false), LastError(0)
	{
		Handle = CreateFile (path.c_str(),
			readOnly ? GENERIC_READ : GENERIC_READ | GENERIC_WRITE,
			FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, create ? CREATE_ALWAYS : OPEN_EXISTING,
			FILE_FLAG_RANDOM_ACCESS | FILE_FLAG_WRITE_THROUGH, NULL);

		if (Handle != INVALID_HANDLE_VALUE)
		{
			FileOpen = true;
		}
		else
		{
			LastError = GetLastError();
			if (LastError == ERROR_ACCESS_DENIED && IsUacSupported())
			{
				Elevated = true;
				FileOpen = true;
			}
		}

		FilePointerPosition = 0;
		IsDevice = false;
		Path = path;
	}

	void File::Close ()
	{
		if (Handle != INVALID_HANDLE_VALUE)
		{
			CloseHandle (Handle);
			Handle = INVALID_HANDLE_VALUE;
		}

		FileOpen = false;
	}

	DWORD File::Read (byte *buffer, DWORD size)
	{
		DWORD bytesRead;

		if (!FileOpen)
		{
			SetLastError (LastError);
			throw SystemException (SRC_POS);
		}

		if (Elevated)
		{
			DWORD bytesRead;

			Elevator::ReadWriteFile (false, IsDevice, Path, buffer, FilePointerPosition, size, &bytesRead);
			FilePointerPosition += bytesRead;
			return bytesRead;
		}

		throw_sys_if (!ReadFile (Handle, buffer, size, &bytesRead, NULL));
		return bytesRead;
	}

	void File::SeekAt (int64 position)
	{
		if (!FileOpen)
		{
			SetLastError (LastError);
			throw SystemException (SRC_POS);
		}

		FilePointerPosition = position;

		if (!Elevated)
		{
			LARGE_INTEGER pos;
			pos.QuadPart = position;
			throw_sys_if (!SetFilePointerEx (Handle, pos, NULL, FILE_BEGIN));
		}
	}

	void File::Write (byte *buffer, DWORD size)
	{
		DWORD bytesWritten;

		if (!FileOpen)
		{
			SetLastError (LastError);
			throw SystemException (SRC_POS);
		}

		try
		{
			if (Elevated)
			{
				Elevator::ReadWriteFile (true, IsDevice, Path, buffer, FilePointerPosition, size, &bytesWritten);
				FilePointerPosition += bytesWritten;
				throw_sys_if (bytesWritten != size);
			}
			else
			{
				throw_sys_if (!WriteFile (Handle, buffer, size, &bytesWritten, NULL) || bytesWritten != size);
			}
		}
		catch (SystemException &e)
		{
			if (!IsDevice || e.ErrorCode != ERROR_WRITE_PROTECT)
				throw;

			BootEncryption bootEnc (NULL);

			while (size >= TC_SECTOR_SIZE_BIOS)
			{
				bootEnc.WriteBootDriveSector (FilePointerPosition, buffer);

				FilePointerPosition += TC_SECTOR_SIZE_BIOS;
				buffer += TC_SECTOR_SIZE_BIOS;
				size -= TC_SECTOR_SIZE_BIOS;
			}
		}
	}

	void Show (HWND parent, const wstring &str)
	{
		MessageBox (parent, str.c_str(), NULL, 0);
	}


	Device::Device (wstring path, bool readOnly)
	{
		 FileOpen = false;
		 Elevated = false;

		Handle = CreateFile ((wstring (L"\\\\.\\") + path).c_str(),
			readOnly ? GENERIC_READ : GENERIC_READ | GENERIC_WRITE,
			FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_EXISTING,
			FILE_FLAG_RANDOM_ACCESS | FILE_FLAG_WRITE_THROUGH, NULL);

		if (Handle != INVALID_HANDLE_VALUE)
		{
			FileOpen = true;
		}
		else
		{
			LastError = GetLastError ();
			if (LastError == ERROR_ACCESS_DENIED && IsUacSupported())
			{
				Elevated = true;
				FileOpen = true;
			}
		}

		FilePointerPosition = 0;
		IsDevice = true;
		Path = path;
	}


	BootEncryption::BootEncryption (HWND parent)
		: DriveConfigValid (false),
		ParentWindow (parent),
		RealSystemDriveSizeValid (false),
		RescueIsoImage (nullptr),
		RescueVolumeHeaderValid (false),
		SelectedEncryptionAlgorithmId (0),
		SelectedPrfAlgorithmId (0),
		VolumeHeaderValid (false)
	{
      HiddenOSCandidatePartition.IsGPT = FALSE;
      HiddenOSCandidatePartition.Number = (size_t) -1;
      DriveConfig.DriveNumber = -1;
      DriveConfig.ExtraBootPartitionPresent = false;
      DriveConfig.SystemLoaderPresent = false;
      DriveConfig.InitialUnallocatedSpace = 0;
      DriveConfig.TotalUnallocatedSpace = 0;
		Elevator::AddReference();
	}


	BootEncryption::~BootEncryption ()
	{
		if (RescueIsoImage)
			delete[] RescueIsoImage;

		Elevator::Release();
	}


	void BootEncryption::CallDriver (DWORD ioctl, void *input, DWORD inputSize, void *output, DWORD outputSize)
	{
		try
		{
			DWORD bytesReturned;
			throw_sys_if (!DeviceIoControl (hDriver, ioctl, input, inputSize, output, outputSize, &bytesReturned, NULL));
		}
		catch (SystemException &)
		{
			if (GetLastError() == ERROR_ACCESS_DENIED && IsUacSupported())
				Elevator::CallDriver (ioctl, input, inputSize, output, outputSize);
			else
				throw;
		}
	}


	// Finds the first partition physically located behind the active one and returns its properties
	Partition BootEncryption::GetPartitionForHiddenOS ()
	{
		Partition candidatePartition;

		memset (&candidatePartition, 0, sizeof(candidatePartition));

		// The user may have modified/added/deleted partitions since the time the partition table was last scanned
		InvalidateCachedSysDriveProperties();

		SystemDriveConfiguration config = GetSystemDriveConfiguration ();
		bool activePartitionFound = false;
		bool candidateForHiddenOSFound = false;

		if (config.SystemPartition.IsGPT)
			throw ParameterIncorrect (SRC_POS);	// It is assumed that CheckRequirements() had been called

		// Find the first active partition on the system drive
		foreach (const Partition &partition, config.Partitions)
		{
			if (partition.Info.BootIndicator)
			{
				if (partition.Info.PartitionNumber != config.SystemPartition.Number)
				{
					// If there is an extra boot partition, the system partition must be located right behind it
					if (IsOSAtLeast (WIN_7) && config.ExtraBootPartitionPresent)
					{
						int64 minOffsetFound = config.DrivePartition.Info.PartitionLength.QuadPart;
						Partition bootPartition = partition;
						Partition partitionBehindBoot;

						foreach (const Partition &partition, config.Partitions)
						{
							if (partition.Info.StartingOffset.QuadPart > bootPartition.Info.StartingOffset.QuadPart
								&& partition.Info.StartingOffset.QuadPart < minOffsetFound)
							{
								minOffsetFound = partition.Info.StartingOffset.QuadPart;
								partitionBehindBoot = partition;
							}
						}

						if (minOffsetFound != config.DrivePartition.Info.PartitionLength.QuadPart
							&& partitionBehindBoot.Number == config.SystemPartition.Number)
						{
							activePartitionFound = true;
							break;
						}
					}

					throw ErrorException (wstring (GetString ("SYSTEM_PARTITION_NOT_ACTIVE"))
						+ GetRemarksOnHiddenOS(), SRC_POS);
				}

				activePartitionFound = true;
				break;
			}
		}

		/* WARNING: Note that the partition number at the end of a device path (\Device\HarddiskY\PartitionX) must
		NOT be used to find the first partition physically located behind the active one. The reason is that the
		user may have deleted and created partitions during this session and e.g. the second partition could have
		a higer number than the third one. */


		// Find the first partition physically located behind the active partition
		if (activePartitionFound)
		{
			int64 minOffsetFound = config.DrivePartition.Info.PartitionLength.QuadPart;

			foreach (const Partition &partition, config.Partitions)
			{
				if (partition.Info.StartingOffset.QuadPart > config.SystemPartition.Info.StartingOffset.QuadPart
					&& partition.Info.StartingOffset.QuadPart < minOffsetFound)
				{
					minOffsetFound = partition.Info.StartingOffset.QuadPart;

					candidatePartition = partition;

					candidateForHiddenOSFound = true;
				}
			}

			if (!candidateForHiddenOSFound)
			{
				throw ErrorException (wstring (GetString ("NO_PARTITION_FOLLOWS_BOOT_PARTITION"))
					+ GetRemarksOnHiddenOS(), SRC_POS);
			}

			if (config.SystemPartition.Info.PartitionLength.QuadPart > TC_MAX_FAT_SECTOR_COUNT * TC_SECTOR_SIZE_BIOS)
			{
				if ((double) candidatePartition.Info.PartitionLength.QuadPart / config.SystemPartition.Info.PartitionLength.QuadPart < MIN_HIDDENOS_DECOY_PARTITION_SIZE_RATIO_NTFS)
				{
					throw ErrorException (wstring (GetString ("PARTITION_TOO_SMALL_FOR_HIDDEN_OS_NTFS"))
						+ GetRemarksOnHiddenOS(), SRC_POS);
				}
			}
			else if ((double) candidatePartition.Info.PartitionLength.QuadPart / config.SystemPartition.Info.PartitionLength.QuadPart < MIN_HIDDENOS_DECOY_PARTITION_SIZE_RATIO_FAT)
			{
				throw ErrorException (wstring (GetString ("PARTITION_TOO_SMALL_FOR_HIDDEN_OS"))
					+ GetRemarksOnHiddenOS(), SRC_POS);
			}
		}
		else
		{
			// No active partition on the system drive
			throw ErrorException ("SYSTEM_PARTITION_NOT_ACTIVE", SRC_POS);
		}

		HiddenOSCandidatePartition = candidatePartition;
		return candidatePartition;
	}


	DWORD BootEncryption::GetDriverServiceStartType ()
	{
		DWORD startType;
		throw_sys_if (!ReadLocalMachineRegistryDword (L"SYSTEM\\CurrentControlSet\\Services\\veracrypt", L"Start", &startType));
		return startType;
	}


	wstring BootEncryption::GetRemarksOnHiddenOS ()
	{
		return (wstring (L"\n\n")
				+ GetString ("TWO_SYSTEMS_IN_ONE_PARTITION_REMARK")
				+ L"\n\n"
				+ GetString ("FOR_MORE_INFO_ON_PARTITIONS"));
	}


	void BootEncryption::SetDriverServiceStartType (DWORD startType)
	{
		if (!IsAdmin() && IsUacSupported())
		{
			Elevator::SetDriverServiceStartType (startType);
			return;
		}

		BOOL startOnBoot = (startType == SERVICE_BOOT_START);

		SC_HANDLE serviceManager = OpenSCManager (NULL, NULL, SC_MANAGER_ALL_ACCESS);
		throw_sys_if (!serviceManager);

		finally_do_arg (SC_HANDLE, serviceManager, { CloseServiceHandle (finally_arg); });

		SC_HANDLE service = OpenService (serviceManager, L"veracrypt", SERVICE_CHANGE_CONFIG);
		throw_sys_if (!service);

		finally_do_arg (SC_HANDLE, service, { CloseServiceHandle (finally_arg); });

		// Windows versions preceding Vista can be installed on FAT filesystem which does not
		// support long filenames during boot. Convert the driver path to short form if required.
		wstring driverPath;
		if (startOnBoot && !IsOSAtLeast (WIN_VISTA))
		{
			wchar_t pathBuf[MAX_PATH];
			wchar_t filesystem[128];

			wstring path (GetWindowsDirectory());
			path += L"\\drivers\\veracrypt.sys";

			if (GetVolumePathName (path.c_str(), pathBuf, ARRAYSIZE (pathBuf))
				&& GetVolumeInformation (pathBuf, NULL, 0, NULL, NULL, NULL, filesystem, ARRAYSIZE(filesystem))
				&& wmemcmp (filesystem, L"FAT", 3) == 0)
			{
				throw_sys_if (GetShortPathName (path.c_str(), pathBuf, ARRAYSIZE (pathBuf)) == 0);

				// Convert absolute path to relative to the Windows directory
				driverPath = pathBuf;
				driverPath = driverPath.substr (driverPath.rfind (L"\\", driverPath.rfind (L"\\", driverPath.rfind (L"\\") - 1) - 1) + 1);
			}
		}

		throw_sys_if (!ChangeServiceConfig (service, SERVICE_NO_CHANGE, SERVICE_NO_CHANGE,
			startOnBoot ? SERVICE_ERROR_SEVERE : SERVICE_ERROR_NORMAL,
			driverPath.empty() ? NULL : driverPath.c_str(),
			startOnBoot ? L"Filter" : NULL,
			NULL, NULL, NULL, NULL, NULL));

		// ChangeServiceConfig() rejects SERVICE_BOOT_START with ERROR_INVALID_PARAMETER
		throw_sys_if (!WriteLocalMachineRegistryDword (L"SYSTEM\\CurrentControlSet\\Services\\veracrypt", L"Start", startType));
	}


	void BootEncryption::ProbeRealSystemDriveSize ()
	{
		if (RealSystemDriveSizeValid)
			return;

		GetSystemDriveConfiguration();

		ProbeRealDriveSizeRequest request;
		StringCchCopyW (request.DeviceName, ARRAYSIZE (request.DeviceName), DriveConfig.DrivePartition.DevicePath.c_str());

		CallDriver (TC_IOCTL_PROBE_REAL_DRIVE_SIZE, &request, sizeof (request), &request, sizeof (request));
		DriveConfig.DrivePartition.Info.PartitionLength = request.RealDriveSize;

		RealSystemDriveSizeValid = true;

		if (request.TimeOut)
			throw TimeOut (SRC_POS);
	}


	void BootEncryption::InvalidateCachedSysDriveProperties ()
	{
		DriveConfigValid = false;
		RealSystemDriveSizeValid = false;
	}


	PartitionList BootEncryption::GetDrivePartitions (int driveNumber)
	{
		PartitionList partList;

		for (int partNumber = 0; partNumber < 64; ++partNumber)
		{
			wstringstream partPath;
			partPath << L"\\Device\\Harddisk" << driveNumber << L"\\Partition" << partNumber;

			DISK_PARTITION_INFO_STRUCT diskPartInfo = {0};
			StringCchCopyW (diskPartInfo.deviceName, ARRAYSIZE (diskPartInfo.deviceName), partPath.str().c_str());

			try
			{
				CallDriver (TC_IOCTL_GET_DRIVE_PARTITION_INFO, &diskPartInfo, sizeof (diskPartInfo), &diskPartInfo, sizeof (diskPartInfo));
			}
			catch (...)
			{
				continue;
			}

			if (	(diskPartInfo.IsGPT == TRUE || diskPartInfo.IsGPT == FALSE)
				&&	(diskPartInfo.IsDynamic == TRUE || diskPartInfo.IsDynamic == FALSE)
				&&	(diskPartInfo.partInfo.BootIndicator == TRUE || diskPartInfo.partInfo.BootIndicator == FALSE)
				&&	(diskPartInfo.partInfo.RecognizedPartition == TRUE || diskPartInfo.partInfo.RecognizedPartition == FALSE)
				&&	(diskPartInfo.partInfo.RewritePartition == TRUE || diskPartInfo.partInfo.RewritePartition == FALSE)
				&&	(diskPartInfo.partInfo.StartingOffset.QuadPart >= 0)
				&&	(diskPartInfo.partInfo.PartitionLength.QuadPart >= 0)
				)
			{
				Partition part;
				part.DevicePath = partPath.str();
				part.Number = partNumber;
				part.Info = diskPartInfo.partInfo;
				part.IsGPT = diskPartInfo.IsGPT;

				// Mount point
				int driveNumber = GetDiskDeviceDriveLetter ((wchar_t *) partPath.str().c_str());

				if (driveNumber >= 0)
				{
					part.MountPoint += (wchar_t) (driveNumber + L'A');
					part.MountPoint += L":";
				}

				// Volume ID
				wchar_t volumePath[TC_MAX_PATH];
				if (ResolveSymbolicLink ((wchar_t *) partPath.str().c_str(), volumePath, sizeof(volumePath)))
				{
					wchar_t volumeName[TC_MAX_PATH];
					HANDLE fh = FindFirstVolumeW (volumeName, array_capacity (volumeName));
					if (fh != INVALID_HANDLE_VALUE)
					{
						do
						{
							wstring volumeNameStr = volumeName;
							wchar_t devicePath[TC_MAX_PATH];

							if (QueryDosDeviceW (volumeNameStr.substr (4, volumeNameStr.size() - 1 - 4).c_str(), devicePath, array_capacity (devicePath)) != 0
								&& wcscmp (volumePath, devicePath) == 0)
							{
								part.VolumeNameId = volumeName;
								break;
							}

						} while (FindNextVolumeW (fh, volumeName, array_capacity (volumeName)));

						FindVolumeClose (fh);
					}
				}

				partList.push_back (part);
			}
		}

		return partList;
	}


	DISK_GEOMETRY BootEncryption::GetDriveGeometry (int driveNumber)
	{
		wstringstream devName;
		devName << L"\\Device\\Harddisk" << driveNumber << L"\\Partition0";

		DISK_GEOMETRY geometry;
		throw_sys_if (!::GetDriveGeometry (devName.str().c_str(), &geometry));
		return geometry;
	}


	wstring BootEncryption::GetWindowsDirectory ()
	{
		wchar_t buf[MAX_PATH];
		throw_sys_if (GetSystemDirectory (buf, ARRAYSIZE (buf)) == 0);

		return wstring (buf);
	}



	uint16 BootEncryption::GetInstalledBootLoaderVersion ()
	{
		uint16 version;
		CallDriver (TC_IOCTL_GET_BOOT_LOADER_VERSION, NULL, 0, &version, sizeof (version));
		return version;
	}

	void BootEncryption::GetInstalledBootLoaderFingerprint (byte fingerprint[WHIRLPOOL_DIGESTSIZE + SHA512_DIGESTSIZE])
	{
		BootLoaderFingerprintRequest request;
		CallDriver (VC_IOCTL_GET_BOOT_LOADER_FINGERPRINT, NULL, 0, &request, sizeof (request));
		memcpy (fingerprint, request.Fingerprint, sizeof (request.Fingerprint));
	}

	// Note that this does not require admin rights (it just requires the driver to be running)
	bool BootEncryption::IsBootLoaderOnDrive (wchar_t *devicePath)
	{
		try
		{
			OPEN_TEST_STRUCT openTestStruct;
			memset (&openTestStruct, 0, sizeof (openTestStruct));
			DWORD dwResult;

			StringCchCopyW (&openTestStruct.wszFileName[0], ARRAYSIZE(openTestStruct.wszFileName),devicePath);

			openTestStruct.bDetectTCBootLoader = TRUE;

			return (DeviceIoControl (hDriver, TC_IOCTL_OPEN_TEST,
				   &openTestStruct, sizeof (OPEN_TEST_STRUCT),
				   &openTestStruct, sizeof (OPEN_TEST_STRUCT),
				   &dwResult, NULL) && openTestStruct.TCBootLoaderDetected);
		}
		catch (...)
		{
			return false;
		}
	}


	BootEncryptionStatus BootEncryption::GetStatus ()
	{
		/* IMPORTANT: Do NOT add any potentially time-consuming operations to this function. */

		BootEncryptionStatus status;
		CallDriver (TC_IOCTL_GET_BOOT_ENCRYPTION_STATUS, NULL, 0, &status, sizeof (status));
		return status;
	}


	void BootEncryption::GetVolumeProperties (VOLUME_PROPERTIES_STRUCT *properties)
	{
		if (properties == NULL)
			throw ParameterIncorrect (SRC_POS);

		CallDriver (TC_IOCTL_GET_BOOT_DRIVE_VOLUME_PROPERTIES, NULL, 0, properties, sizeof (*properties));
	}


	bool BootEncryption::IsHiddenSystemRunning ()
	{
		int hiddenSystemStatus;

		CallDriver (TC_IOCTL_IS_HIDDEN_SYSTEM_RUNNING, nullptr, 0, &hiddenSystemStatus, sizeof (hiddenSystemStatus));
		return hiddenSystemStatus != 0;
	}


	bool BootEncryption::SystemDriveContainsPartitionType (byte type)
	{
		Device device (GetSystemDriveConfiguration().DevicePath, true);
		device.CheckOpened (SRC_POS);

		byte mbrBuf[TC_SECTOR_SIZE_BIOS];
		device.SeekAt (0);
		device.Read (mbrBuf, sizeof (mbrBuf));

		MBR *mbr = reinterpret_cast <MBR *> (mbrBuf);
		if (mbr->Signature != 0xaa55)
			throw ParameterIncorrect (SRC_POS);

		for (size_t i = 0; i < array_capacity (mbr->Partitions); ++i)
		{
			if (mbr->Partitions[i].Type == type)
				return true;
		}

		return false;
	}


	bool BootEncryption::SystemDriveContainsExtendedPartition ()
	{
		return SystemDriveContainsPartitionType (PARTITION_EXTENDED) || SystemDriveContainsPartitionType (PARTITION_XINT13_EXTENDED);
	}


	bool BootEncryption::SystemDriveContainsNonStandardPartitions ()
	{
		for (int partitionType = 1; partitionType <= 0xff; ++partitionType)
		{
			switch (partitionType)
			{
			case PARTITION_FAT_12:
			case PARTITION_FAT_16:
			case PARTITION_EXTENDED:
			case PARTITION_HUGE:
			case PARTITION_IFS:
			case PARTITION_FAT32:
			case PARTITION_FAT32_XINT13:
			case PARTITION_XINT13:
			case PARTITION_XINT13_EXTENDED:
				continue;
			}

			if (SystemDriveContainsPartitionType ((byte) partitionType))
				return true;
		}

		return false;
	}


	bool BootEncryption::SystemDriveIsDynamic ()
	{
		GetSystemDriveConfigurationRequest request;
		StringCchCopyW (request.DevicePath, ARRAYSIZE (request.DevicePath), GetSystemDriveConfiguration().DeviceKernelPath.c_str());

		CallDriver (TC_IOCTL_GET_SYSTEM_DRIVE_CONFIG, &request, sizeof (request), &request, sizeof (request));
		return request.DriveIsDynamic ? true : false;
	}


	SystemDriveConfiguration BootEncryption::GetSystemDriveConfiguration ()
	{
		if (DriveConfigValid)
			return DriveConfig;

		SystemDriveConfiguration config;

		wstring winDir = GetWindowsDirectory();

		// Scan all drives
		for (int driveNumber = 0; driveNumber < 32; ++driveNumber)
		{
			bool windowsFound = false;
			bool activePartitionFound = false;
			config.ExtraBootPartitionPresent = false;
			config.SystemLoaderPresent = false;

			PartitionList partitions = GetDrivePartitions (driveNumber);
			foreach (const Partition &part, partitions)
			{
				if (!part.MountPoint.empty()
					&& (_waccess ((part.MountPoint + L"\\bootmgr").c_str(), 0) == 0 || _waccess ((part.MountPoint + L"\\ntldr").c_str(), 0) == 0))
				{
					config.SystemLoaderPresent = true;
				}
				else if (!part.VolumeNameId.empty()
					&& (_waccess ((part.VolumeNameId + L"\\bootmgr").c_str(), 0) == 0 || _waccess ((part.VolumeNameId + L"\\ntldr").c_str(), 0) == 0))
				{
					config.SystemLoaderPresent = true;
				}

				if (!windowsFound && !part.MountPoint.empty() && ToUpperCase (winDir).find (ToUpperCase (part.MountPoint)) == 0)
				{
					config.SystemPartition = part;
					windowsFound = true;
				}

				if (!activePartitionFound && part.Info.BootIndicator)
				{
					activePartitionFound = true;

					if (part.Info.PartitionLength.QuadPart > 0 && part.Info.PartitionLength.QuadPart <= TC_MAX_EXTRA_BOOT_PARTITION_SIZE)
						config.ExtraBootPartitionPresent = true;
				}
			}

			if (windowsFound)
			{
				config.DriveNumber = driveNumber;

				wstringstream ss;
				ss << L"PhysicalDrive" << driveNumber;
				config.DevicePath = ss.str();

				wstringstream kernelPath;
				kernelPath << L"\\Device\\Harddisk" << driveNumber << L"\\Partition0";
				config.DeviceKernelPath = kernelPath.str();

				config.DrivePartition = partitions.front();
				partitions.pop_front();
				config.Partitions = partitions;

				config.InitialUnallocatedSpace = 0x7fffFFFFffffFFFFull;
				config.TotalUnallocatedSpace = config.DrivePartition.Info.PartitionLength.QuadPart;

				foreach (const Partition &part, config.Partitions)
				{
					if (part.Info.StartingOffset.QuadPart < config.InitialUnallocatedSpace)
						config.InitialUnallocatedSpace = part.Info.StartingOffset.QuadPart;

					config.TotalUnallocatedSpace -= part.Info.PartitionLength.QuadPart;
				}

				DriveConfig = config;
				DriveConfigValid = true;
				return DriveConfig;
			}
		}

		throw ParameterIncorrect (SRC_POS);
	}


	bool BootEncryption::SystemPartitionCoversWholeDrive ()
	{
		SystemDriveConfiguration config = GetSystemDriveConfiguration();

		if (IsOSAtLeast (WIN_7)
			&& config.Partitions.size() == 2
			&& config.ExtraBootPartitionPresent
			&& config.DrivePartition.Info.PartitionLength.QuadPart - config.SystemPartition.Info.PartitionLength.QuadPart < 164 * BYTES_PER_MB)
		{
			return true;
		}

		return config.Partitions.size() == 1
			&& config.DrivePartition.Info.PartitionLength.QuadPart - config.SystemPartition.Info.PartitionLength.QuadPart < 64 * BYTES_PER_MB;
	}


	uint32 BootEncryption::GetChecksum (byte *data, size_t size)
	{
		uint32 sum = 0;

		while (size-- > 0)
		{
			sum += *data++;
			sum = _rotl (sum, 1);
		}

		return sum;
	}


	void BootEncryption::CreateBootLoaderInMemory (byte *buffer, size_t bufferSize, bool rescueDisk, bool hiddenOSCreation)
	{
		if (bufferSize < TC_BOOT_LOADER_AREA_SIZE - TC_BOOT_ENCRYPTION_VOLUME_HEADER_SIZE)
			throw ParameterIncorrect (SRC_POS);

		ZeroMemory (buffer, bufferSize);

		int ea = 0;
		int pkcs5_prf = 0;
		if (GetStatus().DriveMounted)
		{
			try
			{
				GetBootEncryptionAlgorithmNameRequest request;
				// since we added new field to GetBootEncryptionAlgorithmNameRequest since version 1.0f
				// we zero all the structure so that if we are talking to an older driver, the field
				// BootPrfAlgorithmName will be an empty string
				ZeroMemory(&request, sizeof(request));
				CallDriver (TC_IOCTL_GET_BOOT_ENCRYPTION_ALGORITHM_NAME, NULL, 0, &request, sizeof (request));

				if (_stricmp (request.BootEncryptionAlgorithmName, "AES") == 0)
					ea = AES;
				else if (_stricmp (request.BootEncryptionAlgorithmName, "Serpent") == 0)
					ea = SERPENT;
				else if (_stricmp (request.BootEncryptionAlgorithmName, "Twofish") == 0)
					ea = TWOFISH;
				else if (_stricmp (request.BootEncryptionAlgorithmName, "Camellia") == 0)
					ea = CAMELLIA;
#if defined(CIPHER_GOST89)
				else if (_stricmp (request.BootEncryptionAlgorithmName, "GOST89") == 0)
					ea = GOST89;
#endif

				if (_stricmp(request.BootPrfAlgorithmName, "SHA-256") == 0)
					pkcs5_prf = SHA256;
				else if (_stricmp(request.BootPrfAlgorithmName, "RIPEMD-160") == 0)
					pkcs5_prf = RIPEMD160;
				else if (_stricmp(request.BootPrfAlgorithmName, "SHA-512") == 0)
					pkcs5_prf = SHA512;
				else if (_stricmp(request.BootPrfAlgorithmName, "Whirlpool") == 0)
					pkcs5_prf = WHIRLPOOL;
				else if (_stricmp(request.BootPrfAlgorithmName, "Streebog") == 0)
					pkcs5_prf = STREEBOG;
				else if (strlen(request.BootPrfAlgorithmName) == 0) // case of version < 1.0f
					pkcs5_prf = RIPEMD160;
			}
			catch (...)
			{
				try
				{
					VOLUME_PROPERTIES_STRUCT properties;
					GetVolumeProperties (&properties);
					ea = properties.ea;
					pkcs5_prf = properties.pkcs5;
				}
				catch (...) { }
			}

			if (pkcs5_prf == 0)
				throw ParameterIncorrect (SRC_POS);
		}
		else
		{
			if (SelectedEncryptionAlgorithmId == 0 || SelectedPrfAlgorithmId == 0)
				throw ParameterIncorrect (SRC_POS);

			ea = SelectedEncryptionAlgorithmId;
			pkcs5_prf = SelectedPrfAlgorithmId;
		}

		// Only RIPEMD160 and SHA-256 are supported for boot loader
		if (pkcs5_prf != RIPEMD160 && pkcs5_prf != SHA256)
			throw ParameterIncorrect (SRC_POS);

		int bootSectorId = 0;
		int bootLoaderId = 0;

		if (pkcs5_prf == SHA256)
		{
			bootSectorId = rescueDisk ? IDR_RESCUE_BOOT_SECTOR_SHA2 : IDR_BOOT_SECTOR_SHA2;
			bootLoaderId = rescueDisk ? IDR_RESCUE_LOADER_SHA2 : IDR_BOOT_LOADER_SHA2;
		}
		else
		{
			bootSectorId = rescueDisk ? IDR_RESCUE_BOOT_SECTOR : IDR_BOOT_SECTOR;
			bootLoaderId = rescueDisk ? IDR_RESCUE_LOADER : IDR_BOOT_LOADER;
		}

		switch (ea)
		{
		case AES:
			if (pkcs5_prf == SHA256)
			{
				bootSectorId = rescueDisk ? IDR_RESCUE_BOOT_SECTOR_AES_SHA2 : IDR_BOOT_SECTOR_AES_SHA2;
				bootLoaderId = rescueDisk ? IDR_RESCUE_LOADER_AES_SHA2 : IDR_BOOT_LOADER_AES_SHA2;
			}
			else
			{
				bootSectorId = rescueDisk ? IDR_RESCUE_BOOT_SECTOR_AES : IDR_BOOT_SECTOR_AES;
				bootLoaderId = rescueDisk ? IDR_RESCUE_LOADER_AES : IDR_BOOT_LOADER_AES;
			}
			break;

		case SERPENT:
			if (pkcs5_prf == SHA256)
			{
				bootSectorId = rescueDisk ? IDR_RESCUE_BOOT_SECTOR_SERPENT_SHA2 : IDR_BOOT_SECTOR_SERPENT_SHA2;
				bootLoaderId = rescueDisk ? IDR_RESCUE_LOADER_SERPENT_SHA2 : IDR_BOOT_LOADER_SERPENT_SHA2;
			}
			else
			{
				bootSectorId = rescueDisk ? IDR_RESCUE_BOOT_SECTOR_SERPENT : IDR_BOOT_SECTOR_SERPENT;
				bootLoaderId = rescueDisk ? IDR_RESCUE_LOADER_SERPENT : IDR_BOOT_LOADER_SERPENT;
			}
			break;

		case TWOFISH:
			if (pkcs5_prf == SHA256)
			{
				bootSectorId = rescueDisk ? IDR_RESCUE_BOOT_SECTOR_TWOFISH_SHA2 : IDR_BOOT_SECTOR_TWOFISH_SHA2;
				bootLoaderId = rescueDisk ? IDR_RESCUE_LOADER_TWOFISH_SHA2 : IDR_BOOT_LOADER_TWOFISH_SHA2;
			}
			else
			{
				bootSectorId = rescueDisk ? IDR_RESCUE_BOOT_SECTOR_TWOFISH : IDR_BOOT_SECTOR_TWOFISH;
				bootLoaderId = rescueDisk ? IDR_RESCUE_LOADER_TWOFISH : IDR_BOOT_LOADER_TWOFISH;
			}
			break;
			
		case CAMELLIA:
			if (pkcs5_prf == SHA256)
			{
				bootSectorId = rescueDisk ? IDR_RESCUE_BOOT_SECTOR_CAMELLIA_SHA2 : IDR_BOOT_SECTOR_CAMELLIA_SHA2;
				bootLoaderId = rescueDisk ? IDR_RESCUE_LOADER_CAMELLIA_SHA2 : IDR_BOOT_LOADER_CAMELLIA_SHA2;
			}
			else
			{
				bootSectorId = rescueDisk ? IDR_RESCUE_BOOT_SECTOR_CAMELLIA : IDR_BOOT_SECTOR_CAMELLIA;
				bootLoaderId = rescueDisk ? IDR_RESCUE_LOADER_CAMELLIA : IDR_BOOT_LOADER_CAMELLIA;
			}
			break;
		}

		// Boot sector
		DWORD size;
		byte *bootSecResourceImg = MapResource (L"BIN", bootSectorId, &size);
		if (!bootSecResourceImg || size != TC_SECTOR_SIZE_BIOS)
			throw ParameterIncorrect (SRC_POS);

		memcpy (buffer, bootSecResourceImg, size);

		*(uint16 *) (buffer + TC_BOOT_SECTOR_VERSION_OFFSET) = BE16 (VERSION_NUM);

		if (IsOSAtLeast (WIN_VISTA))
			buffer[TC_BOOT_SECTOR_CONFIG_OFFSET] |= TC_BOOT_CFG_FLAG_WINDOWS_VISTA_OR_LATER;

		if (rescueDisk && (ReadDriverConfigurationFlags() & TC_DRIVER_CONFIG_DISABLE_HARDWARE_ENCRYPTION))
			buffer[TC_BOOT_SECTOR_CONFIG_OFFSET] |= TC_BOOT_CFG_FLAG_RESCUE_DISABLE_HW_ENCRYPTION;

		// Checksum of the backup header of the outer volume for the hidden system
		if (hiddenOSCreation)
		{
			Device device (GetSystemDriveConfiguration().DevicePath);
			device.CheckOpened (SRC_POS);
			byte headerSector[TC_SECTOR_SIZE_BIOS];

			device.SeekAt (HiddenOSCandidatePartition.Info.StartingOffset.QuadPart + HiddenOSCandidatePartition.Info.PartitionLength.QuadPart - TC_VOLUME_HEADER_GROUP_SIZE + TC_VOLUME_HEADER_EFFECTIVE_SIZE);
			device.Read (headerSector, sizeof (headerSector));

			*(uint32 *) (buffer + TC_BOOT_SECTOR_OUTER_VOLUME_BAK_HEADER_CRC_OFFSET) = GetCrc32 (headerSector, sizeof (headerSector));
		}

		// Decompressor
		byte *decompressor = MapResource (L"BIN", IDR_BOOT_LOADER_DECOMPRESSOR, &size);
		if (!decompressor || size > TC_BOOT_LOADER_DECOMPRESSOR_SECTOR_COUNT * TC_SECTOR_SIZE_BIOS)
			throw ParameterIncorrect (SRC_POS);

		memcpy (buffer + TC_SECTOR_SIZE_BIOS, decompressor, size);

		// Compressed boot loader
		byte *bootLoader = MapResource (L"BIN", bootLoaderId, &size);
		if (!bootLoader || size > TC_MAX_BOOT_LOADER_SECTOR_COUNT * TC_SECTOR_SIZE_BIOS)
			throw ParameterIncorrect (SRC_POS);

		memcpy (buffer + TC_SECTOR_SIZE_BIOS + TC_BOOT_LOADER_DECOMPRESSOR_SECTOR_COUNT * TC_SECTOR_SIZE_BIOS, bootLoader, size);

		// Boot loader and decompressor checksum
		*(uint16 *) (buffer + TC_BOOT_SECTOR_LOADER_LENGTH_OFFSET) = static_cast <uint16> (size);
		*(uint32 *) (buffer + TC_BOOT_SECTOR_LOADER_CHECKSUM_OFFSET) = GetChecksum (buffer + TC_SECTOR_SIZE_BIOS,
			TC_BOOT_LOADER_DECOMPRESSOR_SECTOR_COUNT * TC_SECTOR_SIZE_BIOS + size);

		// Backup of decompressor and boot loader
		if (size + TC_BOOT_LOADER_DECOMPRESSOR_SECTOR_COUNT * TC_SECTOR_SIZE_BIOS <= TC_BOOT_LOADER_BACKUP_SECTOR_COUNT * TC_SECTOR_SIZE_BIOS)
		{
			memcpy (buffer + TC_SECTOR_SIZE_BIOS + TC_BOOT_LOADER_BACKUP_SECTOR_COUNT * TC_SECTOR_SIZE_BIOS,
				buffer + TC_SECTOR_SIZE_BIOS, TC_BOOT_LOADER_BACKUP_SECTOR_COUNT * TC_SECTOR_SIZE_BIOS);

			buffer[TC_BOOT_SECTOR_CONFIG_OFFSET] |= TC_BOOT_CFG_FLAG_BACKUP_LOADER_AVAILABLE;
		}
		else if (!rescueDisk && bootLoaderId != IDR_BOOT_LOADER && bootLoaderId != IDR_BOOT_LOADER_SHA2)
		{
			throw ParameterIncorrect (SRC_POS);
		}
	}


	void BootEncryption::ReadBootSectorConfig (byte *config, size_t bufLength, byte *userConfig, string *customUserMessage, uint16 *bootLoaderVersion)
	{
		if (config && bufLength < TC_BOOT_CFG_FLAG_AREA_SIZE)
			throw ParameterIncorrect (SRC_POS);

		GetSystemDriveConfigurationRequest request;
		StringCchCopyW (request.DevicePath, ARRAYSIZE (request.DevicePath), GetSystemDriveConfiguration().DeviceKernelPath.c_str());

		try
		{
			CallDriver (TC_IOCTL_GET_SYSTEM_DRIVE_CONFIG, &request, sizeof (request), &request, sizeof (request));
			if (config)
				*config = request.Configuration;

			if (userConfig)
				*userConfig = request.UserConfiguration;

			if (customUserMessage)
			{
				request.CustomUserMessage[TC_BOOT_SECTOR_USER_MESSAGE_MAX_LENGTH] = 0;
				*customUserMessage = request.CustomUserMessage;
			}

			if (bootLoaderVersion)
				*bootLoaderVersion = request.BootLoaderVersion;
		}
		catch (...)
		{
			if (config)
				*config = 0;

			if (userConfig)
				*userConfig = 0;

			if (customUserMessage)
				customUserMessage->clear();

			if (bootLoaderVersion)
				*bootLoaderVersion = 0;
		}
	}


	void BootEncryption::WriteBootSectorConfig (const byte newConfig[])
	{
		Device device (GetSystemDriveConfiguration().DevicePath);
		device.CheckOpened (SRC_POS);
		byte mbr[TC_SECTOR_SIZE_BIOS];

		device.SeekAt (0);
		device.Read (mbr, sizeof (mbr));

		memcpy (mbr + TC_BOOT_SECTOR_CONFIG_OFFSET, newConfig, TC_BOOT_CFG_FLAG_AREA_SIZE);

		device.SeekAt (0);
		device.Write (mbr, sizeof (mbr));

		byte mbrVerificationBuf[TC_SECTOR_SIZE_BIOS];
		device.SeekAt (0);
		device.Read (mbrVerificationBuf, sizeof (mbr));

		if (memcmp (mbr, mbrVerificationBuf, sizeof (mbr)) != 0)
			throw ErrorException ("ERROR_MBR_PROTECTED", SRC_POS);
	}


	void BootEncryption::WriteBootSectorUserConfig (byte userConfig, const string &customUserMessage, int pim)
	{
		Device device (GetSystemDriveConfiguration().DevicePath);
		device.CheckOpened (SRC_POS);
		byte mbr[TC_SECTOR_SIZE_BIOS];

		device.SeekAt (0);
		device.Read (mbr, sizeof (mbr));

		if (!BufferContainsString (mbr, sizeof (mbr), TC_APP_NAME)
			|| BE16 (*(uint16 *) (mbr + TC_BOOT_SECTOR_VERSION_OFFSET)) != VERSION_NUM)
		{
			return;
		}

		mbr[TC_BOOT_SECTOR_USER_CONFIG_OFFSET] = userConfig;

		memset (mbr + TC_BOOT_SECTOR_USER_MESSAGE_OFFSET, 0, TC_BOOT_SECTOR_USER_MESSAGE_MAX_LENGTH);

		if (!customUserMessage.empty())
		{
			if (customUserMessage.size() > TC_BOOT_SECTOR_USER_MESSAGE_MAX_LENGTH)
				throw ParameterIncorrect (SRC_POS);

			memcpy (mbr + TC_BOOT_SECTOR_USER_MESSAGE_OFFSET, customUserMessage.c_str(), customUserMessage.size());
		}

		if (userConfig & TC_BOOT_USER_CFG_FLAG_DISABLE_PIM)
		{
			// PIM for pre-boot authentication can be encoded on two bytes since its maximum
			// value is 65535 (0xFFFF)
			memcpy (mbr + TC_BOOT_SECTOR_PIM_VALUE_OFFSET, &pim, TC_BOOT_SECTOR_PIM_VALUE_SIZE);
		}
		else
			memset (mbr + TC_BOOT_SECTOR_PIM_VALUE_OFFSET, 0, TC_BOOT_SECTOR_PIM_VALUE_SIZE);

		device.SeekAt (0);
		device.Write (mbr, sizeof (mbr));

		byte mbrVerificationBuf[TC_SECTOR_SIZE_BIOS];
		device.SeekAt (0);
		device.Read (mbrVerificationBuf, sizeof (mbr));

		if (memcmp (mbr, mbrVerificationBuf, sizeof (mbr)) != 0)
			throw ErrorException ("ERROR_MBR_PROTECTED", SRC_POS);
	}


	unsigned int BootEncryption::GetHiddenOSCreationPhase ()
	{
		byte configFlags [TC_BOOT_CFG_FLAG_AREA_SIZE];

		ReadBootSectorConfig (configFlags, sizeof(configFlags));

		return (configFlags[0] & TC_BOOT_CFG_MASK_HIDDEN_OS_CREATION_PHASE);
	}


	void BootEncryption::SetHiddenOSCreationPhase (unsigned int newPhase)
	{
#if TC_BOOT_CFG_FLAG_AREA_SIZE != 1
#	error TC_BOOT_CFG_FLAG_AREA_SIZE != 1; revise GetHiddenOSCreationPhase() and SetHiddenOSCreationPhase()
#endif
		byte configFlags [TC_BOOT_CFG_FLAG_AREA_SIZE];

		ReadBootSectorConfig (configFlags, sizeof(configFlags));

		configFlags[0] &= (byte) ~TC_BOOT_CFG_MASK_HIDDEN_OS_CREATION_PHASE;

		configFlags[0] |= newPhase;

		WriteBootSectorConfig (configFlags);
	}


#ifndef SETUP

	void BootEncryption::StartDecoyOSWipe (WipeAlgorithmId wipeAlgorithm)
	{
		if (!IsHiddenOSRunning())
			throw ParameterIncorrect (SRC_POS);

		WipeDecoySystemRequest request;
		ZeroMemory (&request, sizeof (request));

		request.WipeAlgorithm = wipeAlgorithm;

		if (Randinit() != ERR_SUCCESS)
		{
			if (CryptoAPILastError == ERROR_SUCCESS)
				throw RandInitFailed (SRC_POS, GetLastError ());
			else
				throw CryptoApiFailed (SRC_POS, CryptoAPILastError);
		}

		/* force the display of the random enriching dialog */
		SetRandomPoolEnrichedByUserStatus (FALSE);

		UserEnrichRandomPool (ParentWindow);

		if (!RandgetBytes (ParentWindow, request.WipeKey, sizeof (request.WipeKey), TRUE))
			throw ParameterIncorrect (SRC_POS);

		CallDriver (TC_IOCTL_START_DECOY_SYSTEM_WIPE, &request, sizeof (request), NULL, 0);

		burn (&request, sizeof (request));
	}


	void BootEncryption::AbortDecoyOSWipe ()
	{
		CallDriver (TC_IOCTL_ABORT_DECOY_SYSTEM_WIPE);
	}


	DecoySystemWipeStatus BootEncryption::GetDecoyOSWipeStatus ()
	{
		DecoySystemWipeStatus status;
		CallDriver (TC_IOCTL_GET_DECOY_SYSTEM_WIPE_STATUS, NULL, 0, &status, sizeof (status));
		return status;
	}


	void BootEncryption::CheckDecoyOSWipeResult ()
	{
		CallDriver (TC_IOCTL_GET_DECOY_SYSTEM_WIPE_RESULT);
	}


	void BootEncryption::WipeHiddenOSCreationConfig ()
	{
		if (IsHiddenOSRunning())
			throw ParameterIncorrect (SRC_POS);

		if (Randinit() != ERR_SUCCESS)
		{
			if (CryptoAPILastError == ERROR_SUCCESS)
				throw RandInitFailed (SRC_POS, GetLastError ());
			else
				throw CryptoApiFailed (SRC_POS, CryptoAPILastError);
		}

		Device device (GetSystemDriveConfiguration().DevicePath);
		device.CheckOpened(SRC_POS);
		byte mbr[TC_SECTOR_SIZE_BIOS];

		device.SeekAt (0);
		device.Read (mbr, sizeof (mbr));

		finally_do_arg (BootEncryption *, this,
		{
			try
			{
				finally_arg->SetHiddenOSCreationPhase (TC_HIDDEN_OS_CREATION_PHASE_NONE);
			} catch (...) { }
		});

#if PRAND_DISK_WIPE_PASSES > RNG_POOL_SIZE
#	error PRAND_DISK_WIPE_PASSES > RNG_POOL_SIZE
#endif

		byte randData[PRAND_DISK_WIPE_PASSES];
		if (!RandgetBytes (ParentWindow, randData, sizeof (randData), FALSE))
			throw ParameterIncorrect (SRC_POS);

		for (int wipePass = 0; wipePass < PRAND_DISK_WIPE_PASSES; wipePass++)
		{
			for (int i = 0; i < TC_BOOT_SECTOR_OUTER_VOLUME_BAK_HEADER_CRC_SIZE; ++i)
			{
				mbr[TC_BOOT_SECTOR_OUTER_VOLUME_BAK_HEADER_CRC_OFFSET + i] = randData[wipePass];
			}

			mbr[TC_BOOT_SECTOR_CONFIG_OFFSET] &= (byte) ~TC_BOOT_CFG_MASK_HIDDEN_OS_CREATION_PHASE;
			mbr[TC_BOOT_SECTOR_CONFIG_OFFSET] |= randData[wipePass] & TC_BOOT_CFG_MASK_HIDDEN_OS_CREATION_PHASE;

			if (wipePass == PRAND_DISK_WIPE_PASSES - 1)
				memset (mbr + TC_BOOT_SECTOR_OUTER_VOLUME_BAK_HEADER_CRC_OFFSET, 0, TC_BOOT_SECTOR_OUTER_VOLUME_BAK_HEADER_CRC_SIZE);

			device.SeekAt (0);
			device.Write (mbr, sizeof (mbr));
		}

		for (int wipePass = 0; wipePass < PRAND_DISK_WIPE_PASSES/4 + 1; wipePass++)
		{
			SetHiddenOSCreationPhase (TC_HIDDEN_OS_CREATION_PHASE_NONE);
			SetHiddenOSCreationPhase (TC_HIDDEN_OS_CREATION_PHASE_CLONING);
			SetHiddenOSCreationPhase (TC_HIDDEN_OS_CREATION_PHASE_WIPING);
			SetHiddenOSCreationPhase (TC_HIDDEN_OS_CREATION_PHASE_WIPED);
		}
		SetHiddenOSCreationPhase (TC_HIDDEN_OS_CREATION_PHASE_NONE);
	}

#endif // !SETUP


	void BootEncryption::InstallBootLoader (bool preserveUserConfig, bool hiddenOSCreation)
	{
		Device device (GetSystemDriveConfiguration().DevicePath);
		device.CheckOpened (SRC_POS);

		InstallBootLoader (device, preserveUserConfig, hiddenOSCreation);
	}

	void BootEncryption::InstallBootLoader (Device& device, bool preserveUserConfig, bool hiddenOSCreation, int pim)
	{
		byte bootLoaderBuf[TC_BOOT_LOADER_AREA_SIZE - TC_BOOT_ENCRYPTION_VOLUME_HEADER_SIZE] = {0};
		CreateBootLoaderInMemory (bootLoaderBuf, sizeof (bootLoaderBuf), false, hiddenOSCreation);

		// Write MBR
		byte mbr[TC_SECTOR_SIZE_BIOS];

		device.SeekAt (0);
		device.Read (mbr, sizeof (mbr));

		if (preserveUserConfig && BufferContainsString (mbr, sizeof (mbr), TC_APP_NAME))
		{
			uint16 version = BE16 (*(uint16 *) (mbr + TC_BOOT_SECTOR_VERSION_OFFSET));
			if (version != 0)
			{
				bootLoaderBuf[TC_BOOT_SECTOR_USER_CONFIG_OFFSET] = mbr[TC_BOOT_SECTOR_USER_CONFIG_OFFSET];
				memcpy (bootLoaderBuf + TC_BOOT_SECTOR_USER_MESSAGE_OFFSET, mbr + TC_BOOT_SECTOR_USER_MESSAGE_OFFSET, TC_BOOT_SECTOR_USER_MESSAGE_MAX_LENGTH);

				if (bootLoaderBuf[TC_BOOT_SECTOR_USER_CONFIG_OFFSET] & TC_BOOT_USER_CFG_FLAG_DISABLE_PIM)
				{
					if (pim >= 0)
					{
						memcpy (bootLoaderBuf + TC_BOOT_SECTOR_PIM_VALUE_OFFSET, &pim, TC_BOOT_SECTOR_PIM_VALUE_SIZE);
					}
					else
						memcpy (bootLoaderBuf + TC_BOOT_SECTOR_PIM_VALUE_OFFSET, mbr + TC_BOOT_SECTOR_PIM_VALUE_OFFSET, TC_BOOT_SECTOR_PIM_VALUE_SIZE);
				}
			}
		}

		memcpy (mbr, bootLoaderBuf, TC_MAX_MBR_BOOT_CODE_SIZE);

		device.SeekAt (0);
		device.Write (mbr, sizeof (mbr));

		byte mbrVerificationBuf[TC_SECTOR_SIZE_BIOS];
		device.SeekAt (0);
		device.Read (mbrVerificationBuf, sizeof (mbr));

		if (memcmp (mbr, mbrVerificationBuf, sizeof (mbr)) != 0)
			throw ErrorException ("ERROR_MBR_PROTECTED", SRC_POS);

		// Write boot loader
		device.SeekAt (TC_SECTOR_SIZE_BIOS);
		device.Write (bootLoaderBuf + TC_SECTOR_SIZE_BIOS, sizeof (bootLoaderBuf) - TC_SECTOR_SIZE_BIOS);
	}

#ifndef SETUP
	bool BootEncryption::CheckBootloaderFingerprint (bool bSilent)
	{
		byte bootLoaderBuf[TC_BOOT_LOADER_AREA_SIZE - TC_BOOT_ENCRYPTION_VOLUME_HEADER_SIZE] = {0};
		byte fingerprint[WHIRLPOOL_DIGESTSIZE + SHA512_DIGESTSIZE];
		byte expectedFingerprint[WHIRLPOOL_DIGESTSIZE + SHA512_DIGESTSIZE];
		bool bRet = false;

		try
		{
			// read bootloader fingerprint
			GetInstalledBootLoaderFingerprint (fingerprint);

			// compute expected fingerprint
			CreateBootLoaderInMemory (bootLoaderBuf, sizeof (bootLoaderBuf), false, false);
			::ComputeBootloaderFingerprint (bootLoaderBuf, sizeof (bootLoaderBuf), expectedFingerprint);

			// compare values
			if (0 == memcmp (fingerprint, expectedFingerprint, sizeof (expectedFingerprint)))
			{
				bRet = true;
			}
		}
		catch (SystemException &e)
		{
			if (!bSilent && (GetLastError () != ERROR_INVALID_IMAGE_HASH))
				e.Show (ParentWindow);
		}
		catch (Exception& e)
		{
			if (!bSilent)
				e.Show (ParentWindow);
		}

		return bRet;
	}
#endif

	wstring BootEncryption::GetSystemLoaderBackupPath ()
	{
		WCHAR pathBuf[MAX_PATH];

		throw_sys_if (!SUCCEEDED (SHGetFolderPath (NULL, CSIDL_COMMON_APPDATA | CSIDL_FLAG_CREATE, NULL, 0, pathBuf)));

		wstring path = wstring (pathBuf) + L"\\" _T(TC_APP_NAME);
		CreateDirectory (path.c_str(), NULL);

		return path + L'\\' + TC_SYS_BOOT_LOADER_BACKUP_NAME;
	}


	void BootEncryption::RenameDeprecatedSystemLoaderBackup ()
	{
		WCHAR pathBuf[MAX_PATH];

		if (SUCCEEDED (SHGetFolderPath (NULL, CSIDL_COMMON_APPDATA, NULL, 0, pathBuf)))
		{
			wstring path = wstring (pathBuf) + L"\\" _T(TC_APP_NAME) + L'\\' + TC_SYS_BOOT_LOADER_BACKUP_NAME_LEGACY;

			if (FileExists (path.c_str()) && !FileExists (GetSystemLoaderBackupPath().c_str()))
				throw_sys_if (_wrename (path.c_str(), GetSystemLoaderBackupPath().c_str()) != 0);
		}
	}


#ifndef SETUP
	void BootEncryption::CreateRescueIsoImage (bool initialSetup, const wstring &isoImagePath)
	{
		BootEncryptionStatus encStatus = GetStatus();
		if (encStatus.SetupInProgress)
			throw ParameterIncorrect (SRC_POS);

		Buffer imageBuf (RescueIsoImageSize);

		byte *image = imageBuf.Ptr();
		memset (image, 0, RescueIsoImageSize);

		// Primary volume descriptor
		const char* szPrimVolDesc = "\001CD001\001";
		const char* szPrimVolLabel = "VeraCrypt Rescue Disk           ";
		memcpy (image + 0x8000, szPrimVolDesc, strlen(szPrimVolDesc) + 1);
		memcpy (image + 0x7fff + 41, szPrimVolLabel, strlen(szPrimVolLabel) + 1);
		*(uint32 *) (image + 0x7fff + 81) = RescueIsoImageSize / 2048;
		*(uint32 *) (image + 0x7fff + 85) = BE32 (RescueIsoImageSize / 2048);
		image[0x7fff + 121] = 1;
		image[0x7fff + 124] = 1;
		image[0x7fff + 125] = 1;
		image[0x7fff + 128] = 1;
		image[0x7fff + 130] = 8;
		image[0x7fff + 131] = 8;

		image[0x7fff + 133] = 10;
		image[0x7fff + 140] = 10;
		image[0x7fff + 141] = 0x14;
		image[0x7fff + 157] = 0x22;
		image[0x7fff + 159] = 0x18;

		// Boot record volume descriptor
		const char* szBootRecDesc = "CD001\001EL TORITO SPECIFICATION";
		memcpy (image + 0x8801, szBootRecDesc, strlen(szBootRecDesc) + 1);
		image[0x8800 + 0x47] = 0x19;

		// Volume descriptor set terminator
		const char* szVolDescTerm = "\377CD001\001";
		memcpy (image + 0x9000, szVolDescTerm, strlen(szVolDescTerm) + 1);

		// Path table
		image[0xA000 + 0] = 1;
		image[0xA000 + 2] = 0x18;
		image[0xA000 + 6] = 1;

		// Root directory
		image[0xc000 + 0] = 0x22;
		image[0xc000 + 2] = 0x18;
		image[0xc000 + 9] = 0x18;
		image[0xc000 + 11] = 0x08;
		image[0xc000 + 16] = 0x08;
		image[0xc000 + 25] = 0x02;
		image[0xc000 + 28] = 0x01;
		image[0xc000 + 31] = 0x01;
		image[0xc000 + 32] = 0x01;
		image[0xc000 + 34] = 0x22;
		image[0xc000 + 36] = 0x18;
		image[0xc000 + 43] = 0x18;
		image[0xc000 + 45] = 0x08;
		image[0xc000 + 50] = 0x08;
		image[0xc000 + 59] = 0x02;
		image[0xc000 + 62] = 0x01;
		*(uint32 *) (image + 0xc000 + 65) = 0x010101;

		// Validation entry
		image[0xc800] = 1;
		int offset = 0xc800 + 0x1c;
		image[offset++] = 0xaa;
		image[offset++] = 0x55;
		image[offset++] = 0x55;
		image[offset] = 0xaa;

		// Initial entry
		offset = 0xc820;
		image[offset++] = 0x88;
		image[offset++] = 2;
		image[0xc820 + 6] = 1;
		image[0xc820 + 8] = TC_CD_BOOT_LOADER_SECTOR;

		// TrueCrypt Boot Loader
		CreateBootLoaderInMemory (image + TC_CD_BOOTSECTOR_OFFSET, TC_BOOT_LOADER_AREA_SIZE, true);

		// Volume header
		if (initialSetup)
		{
			if (!RescueVolumeHeaderValid)
				throw ParameterIncorrect (SRC_POS);

			memcpy (image + TC_CD_BOOTSECTOR_OFFSET + TC_BOOT_VOLUME_HEADER_SECTOR_OFFSET, RescueVolumeHeader, TC_BOOT_ENCRYPTION_VOLUME_HEADER_SIZE);
		}
		else
		{
			Device bootDevice (GetSystemDriveConfiguration().DevicePath, true);
			bootDevice.CheckOpened (SRC_POS);
			bootDevice.SeekAt (TC_BOOT_VOLUME_HEADER_SECTOR_OFFSET);
			bootDevice.Read (image + TC_CD_BOOTSECTOR_OFFSET + TC_BOOT_VOLUME_HEADER_SECTOR_OFFSET, TC_BOOT_ENCRYPTION_VOLUME_HEADER_SIZE);
		}

		// Original system loader
		try
		{
			File sysBakFile (GetSystemLoaderBackupPath(), true);
			sysBakFile.CheckOpened (SRC_POS);
			sysBakFile.Read (image + TC_CD_BOOTSECTOR_OFFSET + TC_ORIG_BOOT_LOADER_BACKUP_SECTOR_OFFSET, TC_BOOT_LOADER_AREA_SIZE);

			image[TC_CD_BOOTSECTOR_OFFSET + TC_BOOT_SECTOR_CONFIG_OFFSET] |= TC_BOOT_CFG_FLAG_RESCUE_DISK_ORIG_SYS_LOADER;
		}
		catch (Exception &e)
		{
			e.Show (ParentWindow);
			Warning ("SYS_LOADER_UNAVAILABLE_FOR_RESCUE_DISK", ParentWindow);
		}

		// Boot loader backup
		CreateBootLoaderInMemory (image + TC_CD_BOOTSECTOR_OFFSET + TC_BOOT_LOADER_BACKUP_RESCUE_DISK_SECTOR_OFFSET, TC_BOOT_LOADER_AREA_SIZE, false);

		RescueIsoImage = new byte[RescueIsoImageSize];
		if (!RescueIsoImage)
			throw bad_alloc();
		memcpy (RescueIsoImage, image, RescueIsoImageSize);

		if (!isoImagePath.empty())
		{
			File isoFile (isoImagePath, false, true);
			isoFile.Write (image, RescueIsoImageSize);
		}
	}
#endif


	bool BootEncryption::IsCDRecorderPresent ()
	{
		ICDBurn* pICDBurn;
		BOOL bHasRecorder = FALSE;

		if (SUCCEEDED( CoCreateInstance (CLSID_CDBurn, NULL,CLSCTX_INPROC_SERVER,IID_ICDBurn,(LPVOID*)&pICDBurn)))
		{
			if (pICDBurn->HasRecordableDrive (&bHasRecorder) != S_OK)
			{
				bHasRecorder = FALSE;
			}
			pICDBurn->Release();
		}
		return bHasRecorder? true : false;
	}


	bool BootEncryption::VerifyRescueDisk ()
	{
		if (!RescueIsoImage)
			throw ParameterIncorrect (SRC_POS);

		for (WCHAR drive = L'Z'; drive >= L'C'; --drive)
		{
			try
			{
				WCHAR rootPath[4] = { drive, L':', L'\\', 0};
				UINT driveType = GetDriveType (rootPath);
				// check that it is a CD/DVD drive or a removable media in case a bootable
				// USB key was created from the rescue disk ISO file
				if ((DRIVE_CDROM == driveType) || (DRIVE_REMOVABLE == driveType))
				{
					rootPath[2] = 0; // remove trailing backslash

					Device driveDevice (rootPath, true);
					driveDevice.CheckOpened (SRC_POS);
					size_t verifiedSectorCount = (TC_CD_BOOTSECTOR_OFFSET + TC_ORIG_BOOT_LOADER_BACKUP_SECTOR_OFFSET + TC_BOOT_LOADER_AREA_SIZE) / 2048;
					Buffer buffer ((verifiedSectorCount + 1) * 2048);

					DWORD bytesRead = driveDevice.Read (buffer.Ptr(), (DWORD) buffer.Size());
					if (bytesRead != buffer.Size())
						continue;

					if (memcmp (buffer.Ptr(), RescueIsoImage, buffer.Size()) == 0)
						return true;
				}
			}
			catch (...) { }
		}

		return false;
	}

	bool BootEncryption::VerifyRescueDiskIsoImage (const wchar_t* imageFile)
	{
		if (!RescueIsoImage)
			throw ParameterIncorrect (SRC_POS);

		try
		{
			File isoFile (imageFile, true);
			isoFile.CheckOpened (SRC_POS);
			size_t verifiedSectorCount = (TC_CD_BOOTSECTOR_OFFSET + TC_ORIG_BOOT_LOADER_BACKUP_SECTOR_OFFSET + TC_BOOT_LOADER_AREA_SIZE) / 2048;
			Buffer buffer ((verifiedSectorCount + 1) * 2048);

			DWORD bytesRead = isoFile.Read (buffer.Ptr(), (DWORD) buffer.Size());
			if (	(bytesRead == buffer.Size())
				&& (memcmp (buffer.Ptr(), RescueIsoImage, buffer.Size()) == 0)
				)
			{
				return true;
			}
		}
		catch (...) { }

		return false;
	}


#ifndef SETUP

	void BootEncryption::CreateVolumeHeader (uint64 volumeSize, uint64 encryptedAreaStart, Password *password, int ea, int mode, int pkcs5, int pim)
	{
		PCRYPTO_INFO cryptoInfo = NULL;

		if (!IsRandomNumberGeneratorStarted())
			throw ParameterIncorrect (SRC_POS);

		throw_sys_if (CreateVolumeHeaderInMemory (ParentWindow, TRUE, (char *) VolumeHeader, ea, mode, password, pkcs5, pim, NULL, &cryptoInfo,
			volumeSize, 0, encryptedAreaStart, 0, TC_SYSENC_KEYSCOPE_MIN_REQ_PROG_VERSION, TC_HEADER_FLAG_ENCRYPTED_SYSTEM, TC_SECTOR_SIZE_BIOS, FALSE) != 0);

		finally_do_arg (PCRYPTO_INFO*, &cryptoInfo, { crypto_close (*finally_arg); });

		// Initial rescue disk assumes encryption of the drive has been completed (EncryptedAreaLength == volumeSize)
		memcpy (RescueVolumeHeader, VolumeHeader, sizeof (RescueVolumeHeader));
		if (0 != ReadVolumeHeader (TRUE, (char *) RescueVolumeHeader, password, pkcs5, pim, FALSE, NULL, cryptoInfo))
			throw ParameterIncorrect (SRC_POS);

		DecryptBuffer (RescueVolumeHeader + HEADER_ENCRYPTED_DATA_OFFSET, HEADER_ENCRYPTED_DATA_SIZE, cryptoInfo);

		if (GetHeaderField32 (RescueVolumeHeader, TC_HEADER_OFFSET_MAGIC) != 0x56455241)
			throw ParameterIncorrect (SRC_POS);

		byte *fieldPos = RescueVolumeHeader + TC_HEADER_OFFSET_ENCRYPTED_AREA_LENGTH;
		mputInt64 (fieldPos, volumeSize);

		// CRC of the header fields
		uint32 crc = GetCrc32 (RescueVolumeHeader + TC_HEADER_OFFSET_MAGIC, TC_HEADER_OFFSET_HEADER_CRC - TC_HEADER_OFFSET_MAGIC);
		fieldPos = RescueVolumeHeader + TC_HEADER_OFFSET_HEADER_CRC;
		mputLong (fieldPos, crc);

		EncryptBuffer (RescueVolumeHeader + HEADER_ENCRYPTED_DATA_OFFSET, HEADER_ENCRYPTED_DATA_SIZE, cryptoInfo);

		VolumeHeaderValid = true;
		RescueVolumeHeaderValid = true;
	}


	void BootEncryption::InstallVolumeHeader ()
	{
		if (!VolumeHeaderValid)
			throw ParameterIncorrect (SRC_POS);

		Device device (GetSystemDriveConfiguration().DevicePath);
		device.CheckOpened (SRC_POS);

		device.SeekAt (TC_BOOT_VOLUME_HEADER_SECTOR_OFFSET);
		device.Write ((byte *) VolumeHeader, sizeof (VolumeHeader));
	}


	// For synchronous operations use AbortSetupWait()
	void BootEncryption::AbortSetup ()
	{
		CallDriver (TC_IOCTL_ABORT_BOOT_ENCRYPTION_SETUP);
	}


	// For asynchronous operations use AbortSetup()
	void BootEncryption::AbortSetupWait ()
	{
		CallDriver (TC_IOCTL_ABORT_BOOT_ENCRYPTION_SETUP);

		BootEncryptionStatus encStatus = GetStatus();

		while (encStatus.SetupInProgress)
		{
			Sleep (TC_ABORT_TRANSFORM_WAIT_INTERVAL);
			encStatus = GetStatus();
		}
	}


	void BootEncryption::BackupSystemLoader ()
	{
		Device device (GetSystemDriveConfiguration().DevicePath, true);
		device.CheckOpened (SRC_POS);
		byte bootLoaderBuf[TC_BOOT_LOADER_AREA_SECTOR_COUNT * TC_SECTOR_SIZE_BIOS];

		device.SeekAt (0);
		device.Read (bootLoaderBuf, sizeof (bootLoaderBuf));

		// Prevent TrueCrypt loader from being backed up
		for (size_t i = 0; i < sizeof (bootLoaderBuf) - strlen (TC_APP_NAME); ++i)
		{
			if (memcmp (bootLoaderBuf + i, TC_APP_NAME, strlen (TC_APP_NAME)) == 0)
			{
				if (AskWarnNoYes ("TC_BOOT_LOADER_ALREADY_INSTALLED", ParentWindow) == IDNO)
					throw UserAbort (SRC_POS);
				return;
			}
		}

		File backupFile (GetSystemLoaderBackupPath(), false, true);
		backupFile.Write (bootLoaderBuf, sizeof (bootLoaderBuf));
	}


	void BootEncryption::RestoreSystemLoader ()
	{
		byte bootLoaderBuf[TC_BOOT_LOADER_AREA_SECTOR_COUNT * TC_SECTOR_SIZE_BIOS];

		File backupFile (GetSystemLoaderBackupPath(), true);
		backupFile.CheckOpened(SRC_POS);
		if (backupFile.Read (bootLoaderBuf, sizeof (bootLoaderBuf)) != sizeof (bootLoaderBuf))
			throw ParameterIncorrect (SRC_POS);

		Device device (GetSystemDriveConfiguration().DevicePath);
		device.CheckOpened (SRC_POS);

		// Preserve current partition table
		byte mbr[TC_SECTOR_SIZE_BIOS];
		device.SeekAt (0);
		device.Read (mbr, sizeof (mbr));
		memcpy (bootLoaderBuf + TC_MAX_MBR_BOOT_CODE_SIZE, mbr + TC_MAX_MBR_BOOT_CODE_SIZE, sizeof (mbr) - TC_MAX_MBR_BOOT_CODE_SIZE);

		device.SeekAt (0);
		device.Write (bootLoaderBuf, sizeof (bootLoaderBuf));
	}

#endif // SETUP

	void BootEncryption::RegisterFilter (bool registerFilter, FilterType filterType, const GUID *deviceClassGuid)
	{
		string filter;
		string filterReg;
		HKEY regKey;

		switch (filterType)
		{
		case DriveFilter:
		case VolumeFilter:
			filter = "veracrypt";
			filterReg = "UpperFilters";
			regKey = OpenDeviceClassRegKey (deviceClassGuid);
			throw_sys_if (regKey == INVALID_HANDLE_VALUE);

			break;

		case DumpFilter:
			if (!IsOSAtLeast (WIN_VISTA))
				return;

			filter = "veracrypt.sys";
			filterReg = "DumpFilters";
			SetLastError (RegOpenKeyEx (HKEY_LOCAL_MACHINE, L"SYSTEM\\CurrentControlSet\\Control\\CrashControl", 0, KEY_READ | KEY_WRITE, &regKey));
			throw_sys_if (GetLastError() != ERROR_SUCCESS);

			break;

		default:
			throw ParameterIncorrect (SRC_POS);
		}

		finally_do_arg (HKEY, regKey, { RegCloseKey (finally_arg); });

		if (registerFilter && filterType != DumpFilter)
		{
			// Register class filter below all other filters in the stack

			size_t strSize = filter.size() + 1;
			byte regKeyBuf[65536];
			DWORD size = (DWORD) (sizeof (regKeyBuf) - strSize);

			// SetupInstallFromInfSection() does not support prepending of values so we have to modify the registry directly
			StringCchCopyA ((char *) regKeyBuf, ARRAYSIZE(regKeyBuf), filter.c_str());

			if (RegQueryValueExA (regKey, filterReg.c_str(), NULL, NULL, regKeyBuf + strSize, &size) != ERROR_SUCCESS)
				size = 1;

			SetLastError (RegSetValueExA (regKey, filterReg.c_str(), 0, REG_MULTI_SZ, regKeyBuf, (DWORD) strSize + size));
			throw_sys_if (GetLastError() != ERROR_SUCCESS);
		}
		else
		{
			RegisterDriverInf (registerFilter, filter, filterReg, ParentWindow, regKey);
		}
	}

	void BootEncryption::RegisterFilterDriver (bool registerDriver, FilterType filterType)
	{
		if (!IsAdmin() && IsUacSupported())
		{
			Elevator::RegisterFilterDriver (registerDriver, filterType);
			return;
		}

		switch (filterType)
		{
		case DriveFilter:
			RegisterFilter (registerDriver, filterType, &GUID_DEVCLASS_DISKDRIVE);
			break;

		case VolumeFilter:
			RegisterFilter (registerDriver, filterType, &GUID_DEVCLASS_VOLUME);
			RegisterFilter (registerDriver, filterType, &GUID_DEVCLASS_FLOPPYDISK);
			break;

		case DumpFilter:
			RegisterFilter (registerDriver, filterType);
			break;

		default:
			throw ParameterIncorrect (SRC_POS);
		}
	}

	void BootEncryption::RegisterSystemFavoritesService (BOOL registerService, BOOL noFileHandling)
	{
		SC_HANDLE scm = OpenSCManager (NULL, NULL, SC_MANAGER_ALL_ACCESS);
		throw_sys_if (!scm);
		finally_do_arg (SC_HANDLE, scm, { CloseServiceHandle (finally_arg); });

		wstring servicePath = GetServiceConfigPath (_T(TC_APP_NAME) L".exe", false);
		wstring serviceLegacyPath = GetServiceConfigPath (_T(TC_APP_NAME) L".exe", true);

		if (registerService)
		{
			try
			{
				RegisterSystemFavoritesService (FALSE, noFileHandling);
			}
			catch (...) { }

			if (!noFileHandling)
			{
				wchar_t appPath[TC_MAX_PATH];
				throw_sys_if (!GetModuleFileName (NULL, appPath, ARRAYSIZE (appPath)));

				throw_sys_if (!CopyFile (appPath, servicePath.c_str(), FALSE));
			}

			SC_HANDLE service = CreateService (scm,
				TC_SYSTEM_FAVORITES_SERVICE_NAME,
				_T(TC_APP_NAME) L" System Favorites",
				SERVICE_ALL_ACCESS,
				SERVICE_WIN32_OWN_PROCESS,
				SERVICE_AUTO_START,
				SERVICE_ERROR_NORMAL,
				(wstring (L"\"") + servicePath + L"\" " TC_SYSTEM_FAVORITES_SERVICE_CMDLINE_OPTION).c_str(),
				TC_SYSTEM_FAVORITES_SERVICE_LOAD_ORDER_GROUP,
				NULL,
				NULL,
				NULL,
				NULL);

			throw_sys_if (!service);

			SERVICE_DESCRIPTION description;
			description.lpDescription = L"Mounts VeraCrypt system favorite volumes.";
			ChangeServiceConfig2 (service, SERVICE_CONFIG_DESCRIPTION, &description);

			CloseServiceHandle (service);

			try
			{
				WriteLocalMachineRegistryString (L"SYSTEM\\CurrentControlSet\\Control\\SafeBoot\\Minimal\\" TC_SYSTEM_FAVORITES_SERVICE_NAME, NULL, L"Service", FALSE);
				WriteLocalMachineRegistryString (L"SYSTEM\\CurrentControlSet\\Control\\SafeBoot\\Network\\" TC_SYSTEM_FAVORITES_SERVICE_NAME, NULL, L"Service", FALSE);

				SetDriverConfigurationFlag (TC_DRIVER_CONFIG_CACHE_BOOT_PASSWORD_FOR_SYS_FAVORITES, true);
			}
			catch (...)
			{
				try
				{
					RegisterSystemFavoritesService (FALSE, noFileHandling);
				}
				catch (...) { }

				throw;
			}
		}
		else
		{
			SetDriverConfigurationFlag (TC_DRIVER_CONFIG_CACHE_BOOT_PASSWORD_FOR_SYS_FAVORITES, false);

			DeleteLocalMachineRegistryKey (L"SYSTEM\\CurrentControlSet\\Control\\SafeBoot\\Minimal", TC_SYSTEM_FAVORITES_SERVICE_NAME);
			DeleteLocalMachineRegistryKey (L"SYSTEM\\CurrentControlSet\\Control\\SafeBoot\\Network", TC_SYSTEM_FAVORITES_SERVICE_NAME);

			SC_HANDLE service = OpenService (scm, TC_SYSTEM_FAVORITES_SERVICE_NAME, SERVICE_ALL_ACCESS);
			throw_sys_if (!service);

			throw_sys_if (!DeleteService (service));
			CloseServiceHandle (service);

			if (!noFileHandling)
			{
				DeleteFile (servicePath.c_str());
				if (serviceLegacyPath != servicePath)
					DeleteFile (serviceLegacyPath.c_str());
			}
		}
	}

	void BootEncryption::UpdateSystemFavoritesService ()
	{
		SC_HANDLE scm = OpenSCManager (NULL, NULL, SC_MANAGER_ALL_ACCESS);
		throw_sys_if (!scm);

		finally_do_arg (SC_HANDLE, scm, { CloseServiceHandle (finally_arg); });

		wstring servicePath = GetServiceConfigPath (_T(TC_APP_NAME) L".exe", false);

		// check if service exists
		SC_HANDLE service = OpenService (scm, TC_SYSTEM_FAVORITES_SERVICE_NAME, SERVICE_ALL_ACCESS);
		if (service)
		{
			finally_do_arg (SC_HANDLE, service, { CloseServiceHandle (finally_arg); });
			// ensure that its parameters are correct
			throw_sys_if (!ChangeServiceConfig (service,
				SERVICE_WIN32_OWN_PROCESS,
				SERVICE_AUTO_START,
				SERVICE_ERROR_NORMAL,
				(wstring (L"\"") + servicePath + L"\" " TC_SYSTEM_FAVORITES_SERVICE_CMDLINE_OPTION).c_str(),
				TC_SYSTEM_FAVORITES_SERVICE_LOAD_ORDER_GROUP,
				NULL,
				NULL,
				NULL,
				NULL,
				_T(TC_APP_NAME) L" System Favorites"));

		}
		else
		{
			RegisterSystemFavoritesService (TRUE, TRUE);
		}
	}

	void BootEncryption::SetDriverConfigurationFlag (uint32 flag, bool state)
	{
		DWORD configMap = ReadDriverConfigurationFlags();

		if (state)
			configMap |= flag;
		else
			configMap &= ~flag;
#ifdef SETUP
		WriteLocalMachineRegistryDword (L"SYSTEM\\CurrentControlSet\\Services\\veracrypt", TC_DRIVER_CONFIG_REG_VALUE_NAME, configMap);
#else
		WriteLocalMachineRegistryDwordValue (L"SYSTEM\\CurrentControlSet\\Services\\veracrypt", TC_DRIVER_CONFIG_REG_VALUE_NAME, configMap);
#endif
	}

#ifndef SETUP

	void BootEncryption::RegisterSystemFavoritesService (BOOL registerService)
	{
		if (!IsAdmin() && IsUacSupported())
		{
			Elevator::RegisterSystemFavoritesService (registerService);
			return;
		}

		RegisterSystemFavoritesService (registerService, FALSE);
	}

	void BootEncryption::CheckRequirements ()
	{
		if (nCurrentOS == WIN_2000)
			throw ErrorException ("SYS_ENCRYPTION_UNSUPPORTED_ON_CURRENT_OS", SRC_POS);

		if (CurrentOSMajor == 6 && CurrentOSMinor == 0 && CurrentOSServicePack < 1)
			throw ErrorException ("SYS_ENCRYPTION_UNSUPPORTED_ON_VISTA_SP0", SRC_POS);

		if (IsNonInstallMode())
			throw ErrorException ("FEATURE_REQUIRES_INSTALLATION", SRC_POS);

		SystemDriveConfiguration config = GetSystemDriveConfiguration ();

		if (config.SystemPartition.IsGPT)
			throw ErrorException ("GPT_BOOT_DRIVE_UNSUPPORTED", SRC_POS);

		if (SystemDriveIsDynamic())
			throw ErrorException ("SYSENC_UNSUPPORTED_FOR_DYNAMIC_DISK", SRC_POS);

		if (config.InitialUnallocatedSpace < TC_BOOT_LOADER_AREA_SIZE)
			throw ErrorException ("NO_SPACE_FOR_BOOT_LOADER", SRC_POS);

		DISK_GEOMETRY geometry = GetDriveGeometry (config.DriveNumber);

		if (geometry.BytesPerSector != TC_SECTOR_SIZE_BIOS)
			throw ErrorException ("SYSENC_UNSUPPORTED_SECTOR_SIZE_BIOS", SRC_POS);

		bool activePartitionFound = false;
		if (!config.SystemPartition.IsGPT)
		{
			// Determine whether there is an Active partition on the system drive
			foreach (const Partition &partition, config.Partitions)
			{
				if (partition.Info.BootIndicator)
				{
					activePartitionFound = true;
					break;
				}
			}
		}

		if (!config.SystemLoaderPresent || !activePartitionFound)
		{
			static bool confirmed = false;

			if (!confirmed && AskWarnNoYes ("WINDOWS_NOT_ON_BOOT_DRIVE_ERROR", ParentWindow) == IDNO)
				throw UserAbort (SRC_POS);

			confirmed = true;
		}
	}


	void BootEncryption::CheckRequirementsHiddenOS ()
	{
		// It is assumed that CheckRequirements() had been called (so we don't check e.g. whether it's GPT).

		// The user may have modified/added/deleted partitions since the partition table was last scanned.
		InvalidateCachedSysDriveProperties ();

		GetPartitionForHiddenOS ();
	}


	void BootEncryption::InitialSecurityChecksForHiddenOS ()
	{
		wchar_t windowsDrive = (wchar_t) towupper (GetWindowsDirectory()[0]);

		// Paging files
		bool pagingFilesOk = !IsPagingFileActive (TRUE);

		wchar_t pagingFileRegData[65536];
		DWORD pagingFileRegDataSize = sizeof (pagingFileRegData);

		if (ReadLocalMachineRegistryMultiString (L"System\\CurrentControlSet\\Control\\Session Manager\\Memory Management", L"PagingFiles", pagingFileRegData, &pagingFileRegDataSize)
			&& pagingFileRegDataSize > 8)
		{
			for (size_t i = 1; i < pagingFileRegDataSize/2 - 2; ++i)
			{
				if (wmemcmp (pagingFileRegData + i, L":\\", 2) == 0 && towupper (pagingFileRegData[i - 1]) != windowsDrive)
				{
					pagingFilesOk = false;
					break;
				}
			}
		}

		if (!pagingFilesOk)
		{
			if (AskWarnYesNoString ((wchar_t *) (wstring (GetString ("PAGING_FILE_NOT_ON_SYS_PARTITION"))
				+ GetString ("LEAKS_OUTSIDE_SYSPART_UNIVERSAL_EXPLANATION")
				+ L"\n\n\n"
				+ GetString ("RESTRICT_PAGING_FILES_TO_SYS_PARTITION")
				).c_str(), ParentWindow) == IDYES)
			{
				RestrictPagingFilesToSystemPartition();
				RestartComputer();
				AbortProcessSilent();
			}

			throw ErrorException (wstring (GetString ("PAGING_FILE_NOT_ON_SYS_PARTITION"))
				+ GetString ("LEAKS_OUTSIDE_SYSPART_UNIVERSAL_EXPLANATION"), SRC_POS);
		}

		// User profile
		wchar_t *configPath = GetConfigPath (L"dummy");
		if (configPath && towupper (configPath[0]) != windowsDrive)
		{
			throw ErrorException (wstring (GetString ("USER_PROFILE_NOT_ON_SYS_PARTITION"))
				+ GetString ("LEAKS_OUTSIDE_SYSPART_UNIVERSAL_EXPLANATION"), SRC_POS);
		}

		// Temporary files
		if (towupper (GetTempPathString()[0]) != windowsDrive)
		{
			throw ErrorException (wstring (GetString ("TEMP_NOT_ON_SYS_PARTITION"))
				+ GetString ("LEAKS_OUTSIDE_SYSPART_UNIVERSAL_EXPLANATION"), SRC_POS);
		}
	}


	// This operation may take a long time when an antivirus is installed and its real-time protection enabled.
	// Therefore, if calling it without the wizard displayed, it should be called with displayWaitDialog set to true.
	void BootEncryption::Deinstall (bool displayWaitDialog)
	{
		BootEncryptionStatus encStatus = GetStatus();

		if (encStatus.DriveEncrypted || encStatus.DriveMounted)
			throw ParameterIncorrect (SRC_POS);

		SystemDriveConfiguration config = GetSystemDriveConfiguration ();

		if (encStatus.VolumeHeaderPresent)
		{
			// Verify CRC of header salt
			Device device (config.DevicePath, true);
			device.CheckOpened (SRC_POS);
			byte header[TC_BOOT_ENCRYPTION_VOLUME_HEADER_SIZE];

			device.SeekAt (TC_BOOT_VOLUME_HEADER_SECTOR_OFFSET);
			device.Read (header, sizeof (header));

			if (encStatus.VolumeHeaderSaltCrc32 != GetCrc32 ((byte *) header, PKCS5_SALT_SIZE))
				throw ParameterIncorrect (SRC_POS);
		}

		try
		{
			RegisterFilterDriver (false, DriveFilter);
			RegisterFilterDriver (false, VolumeFilter);
			RegisterFilterDriver (false, DumpFilter);
			SetDriverServiceStartType (SERVICE_SYSTEM_START);
		}
		catch (...)
		{
			try
			{
				RegisterBootDriver (IsHiddenSystemRunning());
			}
			catch (...) { }

			throw;
		}

		SetHiddenOSCreationPhase (TC_HIDDEN_OS_CREATION_PHASE_NONE);	// In case RestoreSystemLoader() fails

		try
		{
			RegisterSystemFavoritesService (false);
		}
		catch (...) { }

		try
		{
			if (displayWaitDialog)
				DisplayStaticModelessWaitDlg (ParentWindow);

			finally_do_arg (bool, displayWaitDialog, { if (finally_arg) CloseStaticModelessWaitDlg(); });

			RestoreSystemLoader ();
		}
		catch (Exception &e)
		{
			e.Show (ParentWindow);
			throw ErrorException ("SYS_LOADER_RESTORE_FAILED", SRC_POS);
		}
	}


	int BootEncryption::ChangePassword (Password *oldPassword, int old_pkcs5, int old_pim, Password *newPassword, int pkcs5, int pim, int wipePassCount, HWND hwndDlg)
	{
		BootEncryptionStatus encStatus = GetStatus();

		if (encStatus.SetupInProgress || (wipePassCount <= 0))
			throw ParameterIncorrect (SRC_POS);

		SystemDriveConfiguration config = GetSystemDriveConfiguration ();

		char header[TC_BOOT_ENCRYPTION_VOLUME_HEADER_SIZE];
		Device device (config.DevicePath);
		device.CheckOpened (SRC_POS);

		// Only one algorithm is currently supported
		if (pkcs5 != 0)
			throw ParameterIncorrect (SRC_POS);

		int64 headerOffset = TC_BOOT_VOLUME_HEADER_SECTOR_OFFSET;
		int64 backupHeaderOffset = -1;

		if (encStatus.HiddenSystem)
		{
			headerOffset = encStatus.HiddenSystemPartitionStart + TC_HIDDEN_VOLUME_HEADER_OFFSET;

			// Find hidden system partition
			foreach (const Partition &partition, config.Partitions)
			{
				if (partition.Info.StartingOffset.QuadPart == encStatus.HiddenSystemPartitionStart)
				{
					backupHeaderOffset = partition.Info.StartingOffset.QuadPart + partition.Info.PartitionLength.QuadPart - TC_VOLUME_HEADER_SIZE;
					break;
				}
			}

			if (backupHeaderOffset == -1)
				throw ParameterIncorrect (SRC_POS);
		}

		device.SeekAt (headerOffset);
		device.Read ((byte *) header, sizeof (header));

		PCRYPTO_INFO cryptoInfo = NULL;

		int status = ReadVolumeHeader (!encStatus.HiddenSystem, header, oldPassword, old_pkcs5, old_pim, FALSE, &cryptoInfo, NULL);
		finally_do_arg (PCRYPTO_INFO, cryptoInfo, { if (finally_arg) crypto_close (finally_arg); });

		if (status != 0)
		{
			handleError (hwndDlg, status, SRC_POS);
			return status;
		}

		// Change the PKCS-5 PRF if requested by user
		if (pkcs5 != 0)
		{
			cryptoInfo->pkcs5 = pkcs5;
			RandSetHashFunction (pkcs5);
		}

		if (Randinit() != 0)
		{
			if (CryptoAPILastError == ERROR_SUCCESS)
				throw RandInitFailed (SRC_POS, GetLastError ());
			else
				throw CryptoApiFailed (SRC_POS, CryptoAPILastError);
		}
		finally_do ({ RandStop (FALSE); });

		/* force the display of the random enriching dialog */
		SetRandomPoolEnrichedByUserStatus (FALSE);

		NormalCursor();
		UserEnrichRandomPool (hwndDlg);
		WaitCursor();

		/* The header will be re-encrypted wipePassCount times to prevent adversaries from using
		techniques such as magnetic force microscopy or magnetic force scanning tunnelling microscopy
		to recover the overwritten header. According to Peter Gutmann, data should be overwritten 22
		times (ideally, 35 times) using non-random patterns and pseudorandom data. However, as users might
		impatiently interupt the process (etc.) we will not use the Gutmann's patterns but will write the
		valid re-encrypted header, i.e. pseudorandom data, and there will be many more passes than Guttman
		recommends. During each pass we will write a valid working header. Each pass will use the same master
		key, and also the same header key, secondary key (XTS), etc., derived from the new password. The only
		item that will be different for each pass will be the salt. This is sufficient to cause each "version"
		of the header to differ substantially and in a random manner from the versions written during the
		other passes. */

		bool headerUpdated = false;
		int result = ERR_SUCCESS;

		try
		{
			BOOL backupHeader = FALSE;
			while (TRUE)
			{
				for (int wipePass = 0; wipePass < wipePassCount; wipePass++)
				{
					PCRYPTO_INFO tmpCryptoInfo = NULL;

					status = CreateVolumeHeaderInMemory (hwndDlg, !encStatus.HiddenSystem,
						header,
						cryptoInfo->ea,
						cryptoInfo->mode,
						newPassword,
						cryptoInfo->pkcs5,
						pim,
						(char *) cryptoInfo->master_keydata,
						&tmpCryptoInfo,
						cryptoInfo->VolumeSize.Value,
						cryptoInfo->hiddenVolumeSize,
						cryptoInfo->EncryptedAreaStart.Value,
						cryptoInfo->EncryptedAreaLength.Value,
						cryptoInfo->RequiredProgramVersion,
						cryptoInfo->HeaderFlags | TC_HEADER_FLAG_ENCRYPTED_SYSTEM,
						cryptoInfo->SectorSize,
						wipePass < wipePassCount - 1);

					if (tmpCryptoInfo)
						crypto_close (tmpCryptoInfo);

					if (status != 0)
					{
						handleError (hwndDlg, status, SRC_POS);
						return status;
					}

					device.SeekAt (headerOffset);
					device.Write ((byte *) header, sizeof (header));
					headerUpdated = true;
				}

				if (!encStatus.HiddenSystem || backupHeader)
					break;

				backupHeader = TRUE;
				headerOffset = backupHeaderOffset;
			}
		}
		catch (Exception &e)
		{
			e.Show (hwndDlg);
			result = ERR_OS_ERROR;
		}

		if (headerUpdated)
		{
			bool storedPimUpdateNeeded = false;
			ReopenBootVolumeHeaderRequest reopenRequest;
			reopenRequest.VolumePassword = *newPassword;
			reopenRequest.pkcs5_prf = cryptoInfo->pkcs5;
			reopenRequest.pim = pim;
			finally_do_arg (ReopenBootVolumeHeaderRequest*, &reopenRequest, { burn (finally_arg, sizeof (*finally_arg)); });

			if (old_pim != pim)
			{
				try
				{
					// check if PIM is stored in MBR
					byte userConfig;
					ReadBootSectorConfig (nullptr, 0, &userConfig);
					if (userConfig & TC_BOOT_USER_CFG_FLAG_DISABLE_PIM)
						storedPimUpdateNeeded = true;
				}
				catch (...)
				{}
			}

			try
			{
				// force update of bootloader if fingerprint doesn't match or if the stored PIM changed
				if (storedPimUpdateNeeded || !CheckBootloaderFingerprint (true))
					InstallBootLoader (device, true, false, pim);
			}
			catch (...)
			{}

			CallDriver (TC_IOCTL_REOPEN_BOOT_VOLUME_HEADER, &reopenRequest, sizeof (reopenRequest));
		}

		return result;
	}


	void BootEncryption::CheckEncryptionSetupResult ()
	{
		CallDriver (TC_IOCTL_GET_BOOT_ENCRYPTION_SETUP_RESULT);
	}


	void BootEncryption::Install (bool hiddenSystem)
	{
		BootEncryptionStatus encStatus = GetStatus();
		if (encStatus.DriveMounted)
			throw ParameterIncorrect (SRC_POS);

		try
		{
			InstallBootLoader (false, hiddenSystem);

			if (!hiddenSystem)
				InstallVolumeHeader ();

			RegisterBootDriver (hiddenSystem);
		}
		catch (Exception &)
		{
			try
			{
				RestoreSystemLoader ();
			}
			catch (Exception &e)
			{
				e.Show (ParentWindow);
			}

			throw;
		}
	}


	void BootEncryption::PrepareHiddenOSCreation (int ea, int mode, int pkcs5)
	{
		BootEncryptionStatus encStatus = GetStatus();
		if (encStatus.DriveMounted)
			throw ParameterIncorrect (SRC_POS);

		CheckRequirements();
		BackupSystemLoader();

		SelectedEncryptionAlgorithmId = ea;
		SelectedPrfAlgorithmId = pkcs5;
	}


	void BootEncryption::PrepareInstallation (bool systemPartitionOnly, Password &password, int ea, int mode, int pkcs5, int pim, const wstring &rescueIsoImagePath)
	{
		BootEncryptionStatus encStatus = GetStatus();
		if (encStatus.DriveMounted)
			throw ParameterIncorrect (SRC_POS);

		CheckRequirements ();

		SystemDriveConfiguration config = GetSystemDriveConfiguration();

		// Some chipset drivers may prevent access to the last sector of the drive
		if (!systemPartitionOnly)
		{
			DISK_GEOMETRY geometry = GetDriveGeometry (config.DriveNumber);
			if ((geometry.BytesPerSector > 0) && (geometry.BytesPerSector < TC_MAX_VOLUME_SECTOR_SIZE))
			{
				Buffer sector (geometry.BytesPerSector);

				Device device (config.DevicePath);
				device.CheckOpened (SRC_POS);

				try
				{
					device.SeekAt (config.DrivePartition.Info.PartitionLength.QuadPart - geometry.BytesPerSector);
					device.Read (sector.Ptr(), (DWORD) sector.Size());
				}
				catch (SystemException &e)
				{
					if (e.ErrorCode != ERROR_CRC)
					{
						e.Show (ParentWindow);
						Error ("WHOLE_DRIVE_ENCRYPTION_PREVENTED_BY_DRIVERS", ParentWindow);
						throw UserAbort (SRC_POS);
					}
				}
			}
		}

		BackupSystemLoader ();

		uint64 volumeSize;
		uint64 encryptedAreaStart;

		if (systemPartitionOnly)
		{
			volumeSize = config.SystemPartition.Info.PartitionLength.QuadPart;
			encryptedAreaStart = config.SystemPartition.Info.StartingOffset.QuadPart;
		}
		else
		{
			volumeSize = config.DrivePartition.Info.PartitionLength.QuadPart - TC_BOOT_LOADER_AREA_SIZE;
			encryptedAreaStart = config.DrivePartition.Info.StartingOffset.QuadPart + TC_BOOT_LOADER_AREA_SIZE;
		}

		SelectedEncryptionAlgorithmId = ea;
		SelectedPrfAlgorithmId = pkcs5;
		CreateVolumeHeader (volumeSize, encryptedAreaStart, &password, ea, mode, pkcs5, pim);

		if (!rescueIsoImagePath.empty())
			CreateRescueIsoImage (true, rescueIsoImagePath);
	}

	bool BootEncryption::IsPagingFileActive (BOOL checkNonWindowsPartitionsOnly)
	{
		if (!IsAdmin() && IsUacSupported())
			return Elevator::IsPagingFileActive (checkNonWindowsPartitionsOnly) ? true : false;

		return ::IsPagingFileActive (checkNonWindowsPartitionsOnly) ? true : false;
	}

	void BootEncryption::RestrictPagingFilesToSystemPartition ()
	{
		wchar_t pagingFiles[128] = {0};
		StringCchCopyW (pagingFiles, ARRAYSIZE(pagingFiles), L"X:\\pagefile.sys 0 0");
		pagingFiles[0] = GetWindowsDirectory()[0];

		throw_sys_if (!WriteLocalMachineRegistryMultiString (L"System\\CurrentControlSet\\Control\\Session Manager\\Memory Management", L"PagingFiles", pagingFiles, (DWORD) (wcslen (pagingFiles) + 2) * sizeof (wchar_t)));
	}

	void BootEncryption::WriteLocalMachineRegistryDwordValue (wchar_t *keyPath, wchar_t *valueName, DWORD value)
	{
		if (!IsAdmin() && IsUacSupported())
		{
			Elevator::WriteLocalMachineRegistryDwordValue (keyPath, valueName, value);
			return;
		}

		throw_sys_if (!WriteLocalMachineRegistryDword (keyPath, valueName, value));
	}

	void BootEncryption::StartDecryption (BOOL discardUnreadableEncryptedSectors)
	{
		BootEncryptionStatus encStatus = GetStatus();

		if (!encStatus.DeviceFilterActive || !encStatus.DriveMounted || encStatus.SetupInProgress)
			throw ParameterIncorrect (SRC_POS);

		BootEncryptionSetupRequest request;
		ZeroMemory (&request, sizeof (request));

		request.SetupMode = SetupDecryption;
		request.DiscardUnreadableEncryptedSectors = discardUnreadableEncryptedSectors;

		CallDriver (TC_IOCTL_BOOT_ENCRYPTION_SETUP, &request, sizeof (request), NULL, 0);
	}

	void BootEncryption::StartEncryption (WipeAlgorithmId wipeAlgorithm, bool zeroUnreadableSectors)
	{
		BootEncryptionStatus encStatus = GetStatus();

		if (!encStatus.DeviceFilterActive || !encStatus.DriveMounted || encStatus.SetupInProgress)
			throw ParameterIncorrect (SRC_POS);

		BootEncryptionSetupRequest request;
		ZeroMemory (&request, sizeof (request));

		request.SetupMode = SetupEncryption;
		request.WipeAlgorithm = wipeAlgorithm;
		request.ZeroUnreadableSectors = zeroUnreadableSectors;

		CallDriver (TC_IOCTL_BOOT_ENCRYPTION_SETUP, &request, sizeof (request), NULL, 0);
	}

	void BootEncryption::CopyFileAdmin (const wstring &sourceFile, const wstring &destinationFile)
	{
		if (!IsAdmin())
		{
			if (!IsUacSupported())
			{
				SetLastError (ERROR_ACCESS_DENIED);
				throw SystemException(SRC_POS);
			}
			else
				Elevator::CopyFile (sourceFile, destinationFile);
		}
		else
			throw_sys_if (!::CopyFile (sourceFile.c_str(), destinationFile.c_str(), FALSE));
	}

	void BootEncryption::DeleteFileAdmin (const wstring &file)
	{
		if (!IsAdmin() && IsUacSupported())
			Elevator::DeleteFile (file);
		else
			throw_sys_if (!::DeleteFile (file.c_str()));
	}

#endif // !SETUP

	uint32 BootEncryption::ReadDriverConfigurationFlags ()
	{
		DWORD configMap;

		if (!ReadLocalMachineRegistryDword (L"SYSTEM\\CurrentControlSet\\Services\\veracrypt", TC_DRIVER_CONFIG_REG_VALUE_NAME, &configMap))
			configMap = 0;

		return configMap;
	}

	void BootEncryption::WriteBootDriveSector (uint64 offset, byte *data)
	{
		WriteBootDriveSectorRequest request;
		request.Offset.QuadPart = offset;
		memcpy (request.Data, data, sizeof (request.Data));

		CallDriver (TC_IOCTL_WRITE_BOOT_DRIVE_SECTOR, &request, sizeof (request), NULL, 0);
	}

	void BootEncryption::RegisterBootDriver (bool hiddenSystem)
	{
		SetDriverServiceStartType (SERVICE_BOOT_START);

		try
		{
			RegisterFilterDriver (false, DriveFilter);
			RegisterFilterDriver (false, VolumeFilter);
			RegisterFilterDriver (false, DumpFilter);
		}
		catch (...) { }

		try
		{
			RegisterFilterDriver (true, DriveFilter);

			if (hiddenSystem)
				RegisterFilterDriver (true, VolumeFilter);

			RegisterFilterDriver (true, DumpFilter);
		}
		catch (...)
		{
			try { RegisterFilterDriver (false, DriveFilter); } catch (...) { }
			try { RegisterFilterDriver (false, VolumeFilter); } catch (...) { }
			try { RegisterFilterDriver (false, DumpFilter); } catch (...) { }
			try { SetDriverServiceStartType (SERVICE_SYSTEM_START); } catch (...) { }

			throw;
		}
	}

	bool BootEncryption::RestartComputer (void)
	{
		return (::RestartComputer() != FALSE);
	}
}