/* Copyright (c) 2008 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 "Volume/EncryptionMode.h" #include "Volume/EncryptionModeXTS.h" #include "VolumeLayout.h" #include "Boot/Windows/BootCommon.h" namespace VeraCrypt { VolumeLayout::VolumeLayout () { } VolumeLayout::~VolumeLayout () { } VolumeLayoutList VolumeLayout::GetAvailableLayouts (VolumeType::Enum type) { VolumeLayoutList layouts; layouts.push_back (shared_ptr (new VolumeLayoutV2Normal ())); layouts.push_back (shared_ptr (new VolumeLayoutV1Normal ())); layouts.push_back (shared_ptr (new VolumeLayoutV2Hidden ())); layouts.push_back (shared_ptr (new VolumeLayoutV1Hidden ())); layouts.push_back (shared_ptr (new VolumeLayoutSystemEncryption ())); if (type != VolumeType::Unknown) { VolumeLayoutList l; foreach (shared_ptr vl, layouts) { if (vl->GetType() == type) l.push_back (vl); } layouts = l; } return layouts; } shared_ptr VolumeLayout::GetHeader () { if (Header.get() == nullptr) Header.reset (new VolumeHeader (GetHeaderSize())); return Header; } VolumeLayoutV1Normal::VolumeLayoutV1Normal () { Type = VolumeType::Normal; HeaderOffset = TC_VOLUME_HEADER_OFFSET; HeaderSize = TC_VOLUME_HEADER_SIZE_LEGACY; SupportedEncryptionAlgorithms.push_back (shared_ptr (new AES ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new Serpent ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new Twofish ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new AESTwofish ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new AESTwofishSerpent ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new SerpentAES ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new SerpentTwofishAES ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new TwofishSerpent ())); SupportedEncryptionModes.push_back (shared_ptr (new EncryptionModeXTS ())); } uint64 VolumeLayoutV1Normal::GetDataOffset (uint64 volumeHostSize) const { return HeaderSize; } uint64 VolumeLayoutV1Normal::GetDataSize (uint64 volumeHostSize) const { return volumeHostSize - GetHeaderSize(); } VolumeLayoutV1Hidden::VolumeLayoutV1Hidden () { Type = VolumeType::Hidden; HeaderOffset = -TC_HIDDEN_VOLUME_HEADER_OFFSET_LEGACY; HeaderSize = TC_VOLUME_HEADER_SIZE_LEGACY; SupportedEncryptionAlgorithms.push_back (shared_ptr (new AES ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new Serpent ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new Twofish ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new AESTwofish ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new AESTwofishSerpent ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new SerpentAES ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new SerpentTwofishAES ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new TwofishSerpent ())); SupportedEncryptionModes.push_back (shared_ptr (new EncryptionModeXTS ())); } uint64 VolumeLayoutV1Hidden::GetDataOffset (uint64 volumeHostSize) const { return volumeHostSize - GetDataSize (volumeHostSize) + HeaderOffset; } uint64 VolumeLayoutV1Hidden::GetDataSize (uint64 volumeHostSize) const { return Header->GetHiddenVolumeDataSize (); } VolumeLayoutV2Normal::VolumeLayoutV2Normal () { Type = VolumeType::Normal; HeaderOffset = TC_VOLUME_HEADER_OFFSET; HeaderSize = TC_VOLUME_HEADER_SIZE; BackupHeaderOffset = -TC_VOLUME_HEADER_GROUP_SIZE; SupportedEncryptionAlgorithms.push_back (shared_ptr (new AES ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new Serpent ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new Twofish ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new AESTwofish ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new AESTwofishSerpent ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new SerpentAES ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new SerpentTwofishAES ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new TwofishSerpent ())); SupportedEncryptionModes.push_back (shared_ptr (new EncryptionModeXTS ())); } uint64 VolumeLayoutV2Normal::GetDataOffset (uint64 volumeHostSize) const { return Header->GetEncryptedAreaStart(); } uint64 VolumeLayoutV2Normal::GetDataSize (uint64 volumeHostSize) const { return Header->GetVolumeDataSize(); } uint64 VolumeLayoutV2Normal::GetMaxDataSize (uint64 volumeSize) const { if (volumeSize < TC_TOTAL_VOLUME_HEADERS_SIZE) return 0; return volumeSize - TC_TOTAL_VOLUME_HEADERS_SIZE; } VolumeLayoutV2Hidden::VolumeLayoutV2Hidden () { Type = VolumeType::Hidden; HeaderOffset = TC_HIDDEN_VOLUME_HEADER_OFFSET; HeaderSize = TC_VOLUME_HEADER_SIZE; BackupHeaderOffset = -TC_HIDDEN_VOLUME_HEADER_OFFSET; SupportedEncryptionAlgorithms.push_back (shared_ptr (new AES ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new Serpent ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new Twofish ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new AESTwofish ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new AESTwofishSerpent ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new SerpentAES ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new SerpentTwofishAES ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new TwofishSerpent ())); SupportedEncryptionModes.push_back (shared_ptr (new EncryptionModeXTS ())); } uint64 VolumeLayoutV2Hidden::GetDataOffset (uint64 volumeHostSize) const { return Header->GetEncryptedAreaStart(); } uint64 VolumeLayoutV2Hidden::GetDataSize (uint64 volumeHostSize) const { return Header->GetVolumeDataSize(); } uint64 VolumeLayoutV2Hidden::GetMaxDataSize (uint64 volumeSize) const { // Reserve free space at the end of the host filesystem uint64 reservedSize; if (volumeSize < TC_VOLUME_SMALL_SIZE_THRESHOLD) reservedSize = TC_HIDDEN_VOLUME_HOST_FS_RESERVED_END_AREA_SIZE; else reservedSize = TC_HIDDEN_VOLUME_HOST_FS_RESERVED_END_AREA_SIZE_HIGH; // Ensure size of a hidden volume larger than TC_VOLUME_SMALL_SIZE_THRESHOLD is a multiple of the maximum supported sector size if (volumeSize < reservedSize) return 0; return volumeSize - reservedSize; } VolumeLayoutSystemEncryption::VolumeLayoutSystemEncryption () { Type = VolumeType::Normal; HeaderOffset = TC_BOOT_VOLUME_HEADER_SECTOR_OFFSET; HeaderSize = TC_BOOT_ENCRYPTION_VOLUME_HEADER_SIZE; SupportedEncryptionAlgorithms.push_back (shared_ptr (new AES ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new Serpent ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new Twofish ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new AESTwofish ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new AESTwofishSerpent ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new SerpentAES ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new SerpentTwofishAES ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new TwofishSerpent ())); SupportedEncryptionModes.push_back (shared_ptr (new EncryptionModeXTS ())); } uint64 VolumeLayoutSystemEncryption::GetDataOffset (uint64 volumeHostSize) const { return 0; } uint64 VolumeLayoutSystemEncryption::GetDataSize (uint64 volumeHostSize) const { return volumeHostSize; } Pkcs5KdfList VolumeLayoutSystemEncryption::GetSupportedKeyDerivationFunctions () const { Pkcs5KdfList l; l.push_back (shared_ptr (new Pkcs5HmacRipemd160_1000 ())); return l; } }