/* 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) 2013-2017 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 "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 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 Camellia ())); 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(); } 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 Camellia ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new GOST89 ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new Kuznyechik ())); 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 Camellia ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new GOST89 ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new Kuznyechik ())); 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 Camellia ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new GOST89 ())); SupportedEncryptionAlgorithms.push_back (shared_ptr (new Kuznyechik ())); 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 (bool truecryptMode) const { Pkcs5KdfList l; if (!truecryptMode) l.push_back (shared_ptr (new Pkcs5HmacSha256_Boot ())); l.push_back (shared_ptr (new Pkcs5HmacRipemd160_1000 (truecryptMode))); if (!truecryptMode) { l.push_back (shared_ptr (new Pkcs5HmacSha512 (false))); l.push_back (shared_ptr (new Pkcs5HmacWhirlpool (false))); l.push_back (shared_ptr (new Pkcs5HmacStreebog ())); } return l; } } 77' href='#n177'>177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290