/* Copyright (c) 2008-2009 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 "Platform/Serializer.h" #include "Common/SecurityToken.h" #include "Crc32.h" #include "Keyfile.h" #include "VolumeException.h" namespace TrueCrypt { void Keyfile::Apply (const BufferPtr &pool) const { if (Path.IsDirectory()) throw ParameterIncorrect (SRC_POS); File file; Crc32 crc32; size_t poolPos = 0; uint64 totalLength = 0; uint64 readLength; SecureBuffer keyfileBuf (File::GetOptimalReadSize()); if (SecurityToken::IsKeyfilePathValid (Path)) { // Apply keyfile generated by a security token vector keyfileData; SecurityToken::GetKeyfileData (SecurityTokenKeyfile (wstring (Path)), keyfileData); if (keyfileData.size() < MinProcessedLength) throw InsufficientData (SRC_POS, Path); for (size_t i = 0; i < keyfileData.size(); i++) { uint32 crc = crc32.Process (keyfileData[i]); pool[poolPos++] += (byte) (crc >> 24); pool[poolPos++] += (byte) (crc >> 16); pool[poolPos++] += (byte) (crc >> 8); pool[poolPos++] += (byte) crc; if (poolPos >= pool.Size()) poolPos = 0; if (++totalLength >= MaxProcessedLength) break; } Memory::Erase (&keyfileData.front(), keyfileData.size()); goto done; } file.Open (Path, File::OpenRead, File::ShareRead); while ((readLength = file.Read (keyfileBuf)) > 0) { for (size_t i = 0; i < readLength; i++) { uint32 crc = crc32.Process (keyfileBuf[i]); pool[poolPos++] += (byte) (crc >> 24); pool[poolPos++] += (byte) (crc >> 16); pool[poolPos++] += (byte) (crc >> 8); pool[poolPos++] += (byte) crc; if (poolPos >= pool.Size()) poolPos = 0; if (++totalLength >= MaxProcessedLength) goto done; } } done: if (totalLength < MinProcessedLength) throw InsufficientData (SRC_POS, Path); } shared_ptr Keyfile::ApplyListToPassword (shared_ptr keyfiles, shared_ptr password) { if (!password) password.reset (new VolumePassword); if (!keyfiles || keyfiles->size() < 1) return password; KeyfileList keyfilesExp; HiddenFileWasPresentInKeyfilePath = false; // Enumerate directories foreach (shared_ptr keyfile, *keyfiles) { if (FilesystemPath (*keyfile).IsDirectory()) { size_t keyfileCount = 0; foreach_ref (const FilePath &path, Directory::GetFilePaths (*keyfile)) { #ifdef TC_UNIX // Skip hidden files if (wstring (path.ToBaseName()).find (L'.') == 0) { HiddenFileWasPresentInKeyfilePath = true; continue; } #endif keyfilesExp.push_back (make_shared (path)); ++keyfileCount; } if (keyfileCount == 0) throw KeyfilePathEmpty (SRC_POS, FilesystemPath (*keyfile)); } else { keyfilesExp.push_back (keyfile); } } make_shared_auto (VolumePassword, newPassword); if (keyfilesExp.size() < 1) { newPassword->Set (*password); } else { SecureBuffer keyfilePool (VolumePassword::MaxSize); // Pad password with zeros if shorter than max length keyfilePool.Zero(); keyfilePool.CopyFrom (ConstBufferPtr (password->DataPtr(), password->Size())); // Apply all keyfiles foreach_ref (const Keyfile &k, keyfilesExp) { k.Apply (keyfilePool); } newPassword->Set (keyfilePool); } return newPassword; } shared_ptr Keyfile::DeserializeList (shared_ptr stream, const string &name) { shared_ptr keyfiles; Serializer sr (stream); if (!sr.DeserializeBool (name + "Null")) { keyfiles.reset (new KeyfileList); foreach (const wstring &k, sr.DeserializeWStringList (name)) keyfiles->push_back (make_shared (k)); } return keyfiles; } void Keyfile::SerializeList (shared_ptr stream, const string &name, shared_ptr keyfiles) { Serializer sr (stream); sr.Serialize (name + "Null", keyfiles == nullptr); if (keyfiles) { list sl; foreach_ref (const Keyfile &k, *keyfiles) sl.push_back (FilesystemPath (k)); sr.Serialize (name, sl); } } bool Keyfile::HiddenFileWasPresentInKeyfilePath = false; }