/* * Copyright (C) 2010 Felix Geyer * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 2 or (at your option) * version 3 of the License. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "CompositeKey.h" #include "CompositeKey_p.h" #include #include #include #include "core/Global.h" #include "crypto/CryptoHash.h" #include "crypto/SymmetricCipher.h" #include "keys/FileKey.h" #include "keys/PasswordKey.h" CompositeKey::CompositeKey() { } CompositeKey::CompositeKey(const CompositeKey& key) { *this = key; } CompositeKey::~CompositeKey() { clear(); } void CompositeKey::clear() { qDeleteAll(m_keys); m_keys.clear(); } bool CompositeKey::isEmpty() const { return m_keys.isEmpty(); } CompositeKey* CompositeKey::clone() const { return new CompositeKey(*this); } CompositeKey& CompositeKey::operator=(const CompositeKey& key) { // handle self assignment as that would break when calling clear() if (this == &key) { return *this; } clear(); for (const Key* subKey : asConst(key.m_keys)) { addKey(*subKey); } return *this; } /* * Read a key from a line of input. * If the line references a valid file * path, the key is loaded from file. */ CompositeKey CompositeKey::readFromLine(QString line) { CompositeKey key; if (QFile::exists(line)) { FileKey fileKey; fileKey.load(line); key.addKey(fileKey); } else { PasswordKey password; password.setPassword(line); key.addKey(password); } return key; } QByteArray CompositeKey::rawKey() const { CryptoHash cryptoHash(CryptoHash::Sha256); for (const Key* key : m_keys) { cryptoHash.addData(key->rawKey()); } return cryptoHash.result(); } QByteArray CompositeKey::transform(const QByteArray& seed, quint64 rounds, bool* ok, QString* errorString) const { Q_ASSERT(seed.size() == 32); Q_ASSERT(rounds > 0); bool okLeft; QString errorStringLeft; bool okRight; QString errorStringRight; QByteArray key = rawKey(); QFuture future = QtConcurrent::run(transformKeyRaw, key.left(16), seed, rounds, &okLeft, &errorStringLeft); QByteArray result2 = transformKeyRaw(key.right(16), seed, rounds, &okRight, &errorStringRight); QByteArray transformed; transformed.append(future.result()); transformed.append(result2); *ok = (okLeft && okRight); if (!okLeft) { *errorString = errorStringLeft; return QByteArray(); } if (!okRight) { *errorString = errorStringRight; return QByteArray(); } return CryptoHash::hash(transformed, CryptoHash::Sha256); } QByteArray CompositeKey::transformKeyRaw(const QByteArray& key, const QByteArray& seed, quint64 rounds, bool* ok, QString* errorString) { QByteArray iv(16, 0); SymmetricCipher cipher(SymmetricCipher::Aes256, SymmetricCipher::Ecb, SymmetricCipher::Encrypt); if (!cipher.init(seed, iv)) { *ok = false; *errorString = cipher.errorString(); return QByteArray(); } QByteArray result = key; if (!cipher.processInPlace(result, rounds)) { *ok = false; *errorString = cipher.errorString(); return QByteArray(); } *ok = true; return result; } void CompositeKey::addKey(const Key& key) { m_keys.append(key.clone()); } int CompositeKey::transformKeyBenchmark(int msec) { TransformKeyBenchmarkThread thread1(msec); TransformKeyBenchmarkThread thread2(msec); thread1.start(); thread2.start(); thread1.wait(); thread2.wait(); return qMin(thread1.rounds(), thread2.rounds()); } TransformKeyBenchmarkThread::TransformKeyBenchmarkThread(int msec) : m_msec(msec) , m_rounds(0) { Q_ASSERT(msec > 0); } int TransformKeyBenchmarkThread::rounds() { return m_rounds; } void TransformKeyBenchmarkThread::run() { QByteArray key = QByteArray(16, '\x7E'); QByteArray seed = QByteArray(32, '\x4B'); QByteArray iv(16, 0); SymmetricCipher cipher(SymmetricCipher::Aes256, SymmetricCipher::Ecb, SymmetricCipher::Encrypt); cipher.init(seed, iv); QElapsedTimer t; t.start(); do { if (!cipher.processInPlace(key, 10000)) { m_rounds = -1; return; } m_rounds += 10000; } while (!t.hasExpired(m_msec)); }