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/*
 Copyright (c) 2005 TrueCrypt Developers Association. All rights reserved.

 Governed by the TrueCrypt License 3.0 the full text of which is contained in
 the file License.txt included in TrueCrypt binary and source code distribution
 packages.
*/

#ifndef KEYFILES_H
#define	KEYFILES_H

#ifdef __cplusplus
extern "C" {
#endif

#include "Common.h"

#define KEYFILE_POOL_SIZE	64
#define	KEYFILE_MAX_READ_LEN	(1024*1024)

typedef struct KeyFileStruct
{
	char FileName[MAX_PATH + 1];
	struct KeyFileStruct *Next;
} KeyFile;

typedef struct
{
	BOOL EnableKeyFiles;
	KeyFile *FirstKeyFile;
} KeyFilesDlgParam;

KeyFile *KeyFileAdd (KeyFile *firstKeyFile, KeyFile *keyFile);
void KeyFileRemoveAll (KeyFile **firstKeyFile);
KeyFile *KeyFileClone (KeyFile *keyFile);
KeyFile *KeyFileCloneAll (KeyFile *firstKeyFile);
BOOL KeyFilesApply (Password *password, KeyFile *firstKeyFile);

BOOL CALLBACK KeyFilesDlgProc (HWND hwndDlg, UINT msg, WPARAM wParam, LPARAM lParam);
BOOL KeyfilesPopupMenu (HWND hwndDlg, POINT popupPosition, KeyFilesDlgParam *dialogParam);

extern BOOL HiddenFilesPresentInKeyfilePath;

#ifdef __cplusplus
}
#endif

#endif	/* #ifndef KEYFILES_H */ 

/*
 Copyright (c) 2008-2010 TrueCrypt Developers Association. All rights reserved.

 Governed by the TrueCrypt License 3.0 the full text of which is contained in
 the file License.txt included in TrueCrypt binary and source code distribution
 packages.
*/

#include "Crc32.h"
#include "EncryptionModeXTS.h"
#include "Pkcs5Kdf.h"
#include "Pkcs5Kdf.h"
#include "VolumeHeader.h"
#include "VolumeException.h"
#include "Common/Crypto.h"

namespace TrueCrypt
{
	VolumeHeader::VolumeHeader (uint32 size)
	{
		Init();
		HeaderSize = size;
		EncryptedHeaderDataSize = size - EncryptedHeaderDataOffset;
	}

	VolumeHeader::~VolumeHeader ()
	{
		Init();
	}

	void VolumeHeader::Init ()
	{
		VolumeKeyAreaCrc32 = 0;
		VolumeCreationTime = 0;
		HeaderCreationTime = 0;
		mVolumeType = VolumeType::Unknown;
		HiddenVolumeDataSize = 0;
		VolumeDataSize = 0;
		EncryptedAreaStart = 0;
		EncryptedAreaLength = 0;
		Flags = 0;
		SectorSize = 0;
	}

	void VolumeHeader::Create (const BufferPtr &headerBuffer, VolumeHeaderCreationOptions &options)
	{
		if (options.DataKey.Size() != options.EA->GetKeySize() * 2 || options.Salt.Size() != GetSaltSize())
			throw ParameterIncorrect (SRC_POS);

		headerBuffer.Zero();

		HeaderVersion = CurrentHeaderVersion;
		RequiredMinProgramVersion = CurrentRequiredMinProgramVersion;

		DataAreaKey.Zero();
		DataAreaKey.CopyFrom (options.DataKey);

		VolumeCreationTime = 0;
		HiddenVolumeDataSize = (options.Type == VolumeType::Hidden ? options.VolumeDataSize : 0);
		VolumeDataSize = options.VolumeDataSize;

		EncryptedAreaStart = options.VolumeDataStart;
		EncryptedAreaLength = options.VolumeDataSize;

		SectorSize = options.SectorSize;

		if (SectorSize < TC_MIN_VOLUME_SECTOR_SIZE
			|| SectorSize > TC_MAX_VOLUME_SECTOR_SIZE
			|| SectorSize % ENCRYPTION_DATA_UNIT_SIZE != 0)
		{
			throw ParameterIncorrect (SRC_POS);
		}

		EA = options.EA;
		shared_ptr <EncryptionMode> mode (new EncryptionModeXTS ());
		EA->SetMode (mode);

		EncryptNew (headerBuffer, options.Salt, options.HeaderKey, options.Kdf);
	}

	bool VolumeHeader::Decrypt (const ConstBufferPtr &encryptedData, const VolumePassword &password, const Pkcs5KdfList &keyDerivationFunctions, const EncryptionAlgorithmList &encryptionAlgorithms, const EncryptionModeList &encryptionModes)
	{
		if (password.Size() < 1)
			throw PasswordEmpty (SRC_POS);

		ConstBufferPtr salt (encryptedData.GetRange (SaltOffset, SaltSize));
		SecureBuffer header (EncryptedHeaderDataSize);
		SecureBuffer headerKey (GetLargestSerializedKeySize());

		foreach (shared_ptr <Pkcs5Kdf> pkcs5, keyDerivationFunctions)
		{
			pkcs5->DeriveKey (headerKey, password, salt);

			foreach (shared_ptr <EncryptionMode> mode, encryptionModes)
			{
				if (typeid (*mode) != typeid (EncryptionModeXTS))
					mode->SetKey (headerKey.GetRange (0, mode->GetKeySize()));

				foreach (shared_ptr <EncryptionAlgorithm> ea, encryptionAlgorithms)
				{
					if (!ea->IsModeSupported (mode))
						continue;

					if (typeid (*mode) == typeid (EncryptionModeXTS))
					{
						ea->SetKey (headerKey.GetRange (0, ea->GetKeySize()));
						
						mode = mode->GetNew();
						mode->SetKey (headerKey.GetRange (ea->GetKeySize(), ea->GetKeySize()));
					}
					else
					{
						ea->SetKey (headerKey.GetRange (LegacyEncryptionModeKeyAreaSize, ea->GetKeySize()));
					}

					ea->SetMode (mode);

					header.CopyFrom (encryptedData.GetRange (EncryptedHeaderDataOffset, EncryptedHeaderDataSize));
					ea->Decrypt (header);

					if (Deserialize (header, ea, mode))
					{
						EA = ea;
						Pkcs5 = pkcs5;
						return true;
					}
				}
			}
		}

		return false;
	}

	bool VolumeHeader::Deserialize (const ConstBufferPtr &header, shared_ptr <EncryptionAlgorithm> &ea, shared_ptr <EncryptionMode> &mode)
	{
		if (header.Size() != EncryptedHeaderDataSize)
			throw ParameterIncorrect (SRC_POS);

		if (header[0] != 'T' ||
			header[1] != 'R' ||
			header[2] != 'U' ||
			header[3] != 'E')
			return false;

		size_t offset = 4;
		HeaderVersion =	DeserializeEntry <uint16> (header, offset);

		if (HeaderVersion < MinAllowedHeaderVersion)
			return false;

		if (HeaderVersion > CurrentHeaderVersion)
			throw HigherVersionRequired (SRC_POS);

		if (HeaderVersion >= 4
			&& Crc32::ProcessBuffer (header.GetRange (0, TC_HEADER_OFFSET_HEADER_CRC - TC_HEADER_OFFSET_MAGIC))
			!= DeserializeEntryAt <uint32> (header, TC_HEADER_OFFSET_HEADER_CRC - TC_HEADER_OFFSET_MAGIC))
		{
			return false;
		}

		RequiredMinProgramVersion = DeserializeEntry <uint16> (header, offset);
		
		if (RequiredMinProgramVersion > Version::Number())
			throw HigherVersionRequired (SRC_POS);

		VolumeKeyAreaCrc32 = DeserializeEntry <uint32> (header, offset);
		VolumeCreationTime = DeserializeEntry <uint64> (header, offset);
		HeaderCreationTime = DeserializeEntry <uint64> (header, offset);
		HiddenVolumeDataSize = DeserializeEntry <uint64> (header, offset);
		mVolumeType = (HiddenVolumeDataSize != 0 ? VolumeType::Hidden : VolumeType::Normal);
		VolumeDataSize = DeserializeEntry <uint64> (header, offset);
		EncryptedAreaStart = DeserializeEntry <uint64> (header, offset);
		EncryptedAreaLength = DeserializeEntry <uint64> (header, offset);
		Flags = DeserializeEntry <uint32> (header, offset);

		SectorSize = DeserializeEntry <uint32> (header, offset);
		if (HeaderVersion < 5)
			SectorSize = TC_SECTOR_SIZE_LEGACY;

		if (SectorSize < TC_MIN_VOLUME_SECTOR_SIZE
			|| SectorSize > TC_MAX_VOLUME_SECTOR_SIZE
			|| SectorSize % ENCRYPTION_DATA_UNIT_SIZE != 0)
		{
			throw ParameterIncorrect (SRC_POS);
		}

#if !(defined (TC_WINDOWS) || defined (TC_LINUX))
		if (SectorSize != TC_SECTOR_SIZE_LEGACY)
			throw UnsupportedSectorSize (SRC_POS);
#endif

		offset = DataAreaKeyOffset;

		if (VolumeKeyAreaCrc32 != Crc32::ProcessBuffer (header.GetRange (offset, DataKeyAreaMaxSize)))
			return false;

		DataAreaKey.CopyFrom (header.GetRange (offset, DataKeyAreaMaxSize));
		
		ea = ea->GetNew();
		mode = mode->GetNew();
		
		if (typeid (*mode) == typeid (EncryptionModeXTS))
		{
			ea->SetKey (header.GetRange (offset, ea->GetKeySize()));
			mode->SetKey (header.GetRange (offset + ea->GetKeySize(), ea->GetKeySize()));
		}
		else
		{
			mode->SetKey (header.GetRange (offset, mode->GetKeySize()));
			ea->SetKey (header.GetRange (offset + LegacyEncryptionModeKeyAreaSize, ea->GetKeySize()));
		}

		ea->SetMode (mode);

		return true;
	}

	template <typename T>
	T VolumeHeader::DeserializeEntry (const ConstBufferPtr &header, size_t &offset) const
	{
		offset += sizeof (T);

		if (offset > header.Size())
			throw ParameterIncorrect (SRC_POS);

		return Endian::Big (*reinterpret_cast<const T *> (header.Get() + offset - sizeof (T)));
	}

	template <typename T>
	T VolumeHeader::DeserializeEntryAt (const ConstBufferPtr &header, const size_t &offset) const
	{
		if (offset > header.Size())
			throw ParameterIncorrect (SRC_POS);

		return Endian::Big (*reinterpret_cast<const T *> (header.Get() + offset));
	}

	void VolumeHeader::EncryptNew (const BufferPtr &newHeaderBuffer, const ConstBufferPtr &newSalt, const ConstBufferPtr &newHeaderKey, shared_ptr <Pkcs5Kdf> newPkcs5Kdf)
	{
		if (newHeaderBuffer.Size() != HeaderSize || newSalt.Size() != SaltSize)
			throw ParameterIncorrect (SRC_POS);

		shared_ptr <EncryptionMode> mode = EA->GetMode()->GetNew();
		shared_ptr <EncryptionAlgorithm> ea = EA->GetNew();

		if (typeid (*mode) == typeid (EncryptionModeXTS))
		{
			mode->SetKey (newHeaderKey.GetRange (EA->GetKeySize(), EA->GetKeySize()));
			ea->SetKey (newHeaderKey.GetRange (0, ea->GetKeySize()));
		}
		else
		{
			mode->SetKey (newHeaderKey.GetRange (0, mode->GetKeySize()));
			ea->SetKey (newHeaderKey.GetRange (LegacyEncryptionModeKeyAreaSize, ea->GetKeySize()));
		}

		ea->SetMode (mode);

		newHeaderBuffer.CopyFrom (newSalt);

		BufferPtr headerData = newHeaderBuffer.GetRange (EncryptedHeaderDataOffset, EncryptedHeaderDataSize);
		Serialize (headerData);
		ea->Encrypt (headerData);

		if (newPkcs5Kdf)
			Pkcs5 = newPkcs5Kdf;
	}

	size_t VolumeHeader::GetLargestSerializedKeySize ()
	{
		size_t largestKey = EncryptionAlgorithm::GetLargestKeySize (EncryptionAlgorithm::GetAvailableAlgorithms());
		
		// XTS mode requires the same key size as the encryption algorithm.
		// Legacy modes may require larger key than XTS.
		if (LegacyEncryptionModeKeyAreaSize + largestKey > largestKey * 2)
			return LegacyEncryptionModeKeyAreaSize + largestKey;

		return largestKey * 2;
	}

	void VolumeHeader::Serialize (const BufferPtr &header) const
	{
		if (header.Size() != EncryptedHeaderDataSize)
			throw ParameterIncorrect (SRC_POS);

		header.Zero();

		header[0] = 'T';
		header[1] = 'R';
		header[2] = 'U';
		header[3] = 'E';
		size_t offset = 4;

		header.GetRange (DataAreaKeyOffset, DataAreaKey.Size()).CopyFrom (DataAreaKey);

		uint16 headerVersion = CurrentHeaderVersion;
		SerializeEntry (headerVersion, header, offset);
		SerializeEntry (RequiredMinProgramVersion, header, offset);
		SerializeEntry (Crc32::ProcessBuffer (header.GetRange (DataAreaKeyOffset, DataKeyAreaMaxSize)), header, offset);

		uint64 reserved64 = 0;
		SerializeEntry (reserved64, header, offset);
		SerializeEntry (reserved64, header, offset);

		SerializeEntry (HiddenVolumeDataSize, header, offset);
		SerializeEntry (VolumeDataSize, header, offset);
		SerializeEntry (EncryptedAreaStart, header, offset);
		SerializeEntry (EncryptedAreaLength, header, offset);
		SerializeEntry (Flags, header, offset);

		if (SectorSize < TC_MIN_VOLUME_SECTOR_SIZE
			|| SectorSize > TC_MAX_VOLUME_SECTOR_SIZE
			|| SectorSize % ENCRYPTION_DATA_UNIT_SIZE != 0)
		{
			throw ParameterIncorrect (SRC_POS);
		}

		SerializeEntry (SectorSize, header, offset);

		offset = TC_HEADER_OFFSET_HEADER_CRC - TC_HEADER_OFFSET_MAGIC;
		SerializeEntry (Crc32::ProcessBuffer (header.GetRange (0, TC_HEADER_OFFSET_HEADER_CRC - TC_HEADER_OFFSET_MAGIC)), header, offset);
	}

	template <typename T>
	void VolumeHeader::SerializeEntry (const T &entry, const BufferPtr &header, size_t &offset) const
	{
		offset += sizeof (T);

		if (offset > header.Size())
			throw ParameterIncorrect (SRC_POS);

		*reinterpret_cast<T *> (header.Get() + offset - sizeof (T)) = Endian::Big (entry);
	}

	void VolumeHeader::SetSize (uint32 headerSize)
	{
		HeaderSize = headerSize;
		EncryptedHeaderDataSize = HeaderSize - EncryptedHeaderDataOffset;
	}
}