nextcloud-desktop/test/testclientsideencryption.cpp

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/*
This software is in the public domain, furnished "as is", without technical
support, and with no warranty, express or implied, as to its usefulness for
any purpose.
*/
#include <QtTest>
#include <QTemporaryFile>
#include <QRandomGenerator>
#include <common/constants.h>
#include "clientsideencryption.h"
using namespace OCC;
class TestClientSideEncryption : public QObject
{
Q_OBJECT
QByteArray convertToOldStorageFormat(const QByteArray &data)
{
return data.split('|').join("fA==");
}
private slots:
void shouldEncryptPrivateKeys()
{
// GIVEN
const auto encryptionKey = QByteArrayLiteral("foo");
const auto privateKey = QByteArrayLiteral("bar");
const auto originalSalt = QByteArrayLiteral("baz");
// WHEN
const auto cipher = EncryptionHelper::encryptPrivateKey(encryptionKey, privateKey, originalSalt);
// THEN
const auto parts = cipher.split('|');
QCOMPARE(parts.size(), 3);
const auto encryptedKey = QByteArray::fromBase64(parts[0]);
const auto iv = QByteArray::fromBase64(parts[1]);
const auto salt = QByteArray::fromBase64(parts[2]);
// We're not here to check the merits of the encryption but at least make sure it's been
// somewhat ciphered
QVERIFY(!encryptedKey.isEmpty());
QVERIFY(encryptedKey != privateKey);
QVERIFY(!iv.isEmpty());
QCOMPARE(salt, originalSalt);
}
void shouldDecryptPrivateKeys()
{
// GIVEN
const auto encryptionKey = QByteArrayLiteral("foo");
const auto originalPrivateKey = QByteArrayLiteral("bar");
const auto originalSalt = QByteArrayLiteral("baz");
const auto cipher = EncryptionHelper::encryptPrivateKey(encryptionKey, originalPrivateKey, originalSalt);
// WHEN
const auto privateKey = EncryptionHelper::decryptPrivateKey(encryptionKey, cipher);
const auto salt = EncryptionHelper::extractPrivateKeySalt(cipher);
// THEN
QCOMPARE(privateKey, originalPrivateKey);
QCOMPARE(salt, originalSalt);
}
void shouldDecryptPrivateKeysInOldStorageFormat()
{
// GIVEN
const auto encryptionKey = QByteArrayLiteral("foo");
const auto originalPrivateKey = QByteArrayLiteral("bar");
const auto originalSalt = QByteArrayLiteral("baz");
const auto cipher = convertToOldStorageFormat(EncryptionHelper::encryptPrivateKey(encryptionKey, originalPrivateKey, originalSalt));
// WHEN
const auto privateKey = EncryptionHelper::decryptPrivateKey(encryptionKey, cipher);
const auto salt = EncryptionHelper::extractPrivateKeySalt(cipher);
// THEN
QCOMPARE(privateKey, originalPrivateKey);
QCOMPARE(salt, originalSalt);
}
void shouldSymmetricEncryptStrings()
{
// GIVEN
const auto encryptionKey = QByteArrayLiteral("foo");
const auto data = QByteArrayLiteral("bar");
// WHEN
const auto cipher = EncryptionHelper::encryptStringSymmetric(encryptionKey, data);
// THEN
const auto parts = cipher.split('|');
QCOMPARE(parts.size(), 2);
const auto encryptedData = QByteArray::fromBase64(parts[0]);
const auto iv = QByteArray::fromBase64(parts[1]);
// We're not here to check the merits of the encryption but at least make sure it's been
// somewhat ciphered
QVERIFY(!encryptedData.isEmpty());
QVERIFY(encryptedData != data);
QVERIFY(!iv.isEmpty());
}
void shouldSymmetricDecryptStrings()
{
// GIVEN
const auto encryptionKey = QByteArrayLiteral("foo");
const auto originalData = QByteArrayLiteral("bar");
const auto cipher = EncryptionHelper::encryptStringSymmetric(encryptionKey, originalData);
// WHEN
const auto data = EncryptionHelper::decryptStringSymmetric(encryptionKey, cipher);
// THEN
QCOMPARE(data, originalData);
}
void shouldSymmetricDecryptStringsInOldStorageFormat()
{
// GIVEN
const auto encryptionKey = QByteArrayLiteral("foo");
const auto originalData = QByteArrayLiteral("bar");
const auto cipher = convertToOldStorageFormat(EncryptionHelper::encryptStringSymmetric(encryptionKey, originalData));
// WHEN
const auto data = EncryptionHelper::decryptStringSymmetric(encryptionKey, cipher);
// THEN
QCOMPARE(data, originalData);
}
void testStreamingDecryptor_data()
{
QTest::addColumn<int>("totalBytes");
QTest::addColumn<int>("bytesToRead");
QTest::newRow("data1") << 64 << 2;
QTest::newRow("data2") << 32 << 8;
QTest::newRow("data3") << 76 << 64;
QTest::newRow("data4") << 272 << 256;
}
void testStreamingDecryptor()
{
QFETCH(int, totalBytes);
QTemporaryFile dummyInputFile;
QVERIFY(dummyInputFile.open());
const auto dummyFileRandomContents = EncryptionHelper::generateRandom(totalBytes);
QCOMPARE(dummyInputFile.write(dummyFileRandomContents), dummyFileRandomContents.size());
const auto generateHash = [](const QByteArray &data) {
QCryptographicHash hash(QCryptographicHash::Sha1);
hash.addData(data);
return hash.result();
};
const QByteArray originalFileHash = generateHash(dummyFileRandomContents);
QVERIFY(!originalFileHash.isEmpty());
dummyInputFile.close();
QVERIFY(!dummyInputFile.isOpen());
const auto encryptionKey = EncryptionHelper::generateRandom(16);
const auto initializationVector = EncryptionHelper::generateRandom(16);
// test normal file encryption/decryption
QTemporaryFile dummyEncryptionOutputFile;
QByteArray tag;
QVERIFY(EncryptionHelper::fileEncryption(encryptionKey, initializationVector, &dummyInputFile, &dummyEncryptionOutputFile, tag));
dummyInputFile.close();
QVERIFY(!dummyInputFile.isOpen());
dummyEncryptionOutputFile.close();
QVERIFY(!dummyEncryptionOutputFile.isOpen());
QTemporaryFile dummyDecryptionOutputFile;
QVERIFY(EncryptionHelper::fileDecryption(encryptionKey, initializationVector, &dummyEncryptionOutputFile, &dummyDecryptionOutputFile));
QVERIFY(dummyDecryptionOutputFile.open());
const auto dummyDecryptionOutputFileHash = generateHash(dummyDecryptionOutputFile.readAll());
QCOMPARE(dummyDecryptionOutputFileHash, originalFileHash);
// test streaming decryptor
EncryptionHelper::StreamingDecryptor streamingDecryptor(encryptionKey, initializationVector, dummyEncryptionOutputFile.size());
QVERIFY(streamingDecryptor.isInitialized());
QBuffer chunkedOutputDecrypted;
QVERIFY(chunkedOutputDecrypted.open(QBuffer::WriteOnly));
QVERIFY(dummyEncryptionOutputFile.open());
QByteArray pendingBytes;
QFETCH(int, bytesToRead);
while (dummyEncryptionOutputFile.pos() < dummyEncryptionOutputFile.size()) {
const auto bytesRemaining = dummyEncryptionOutputFile.size() - dummyEncryptionOutputFile.pos();
auto toRead = bytesRemaining > bytesToRead ? bytesToRead : bytesRemaining;
if (dummyEncryptionOutputFile.pos() + toRead > dummyEncryptionOutputFile.size()) {
toRead = dummyEncryptionOutputFile.size() - dummyEncryptionOutputFile.pos();
}
if (bytesRemaining - toRead != 0 && bytesRemaining - toRead < OCC::Constants::e2EeTagSize) {
// decryption is going to fail if last chunk does not include or does not equal to OCC::Constants::e2EeTagSize bytes tag
// since we are emulating random size of network packets, we may end up reading beyond OCC::Constants::e2EeTagSize bytes tag at the end
// in that case, we don't want to try and decrypt less than OCC::Constants::e2EeTagSize ending bytes of tag, we will accumulate all the incoming data till the end
// and then, we are going to decrypt the entire chunk containing OCC::Constants::e2EeTagSize bytes at the end
pendingBytes += dummyEncryptionOutputFile.read(bytesRemaining);
continue;
}
const auto decryptedChunk = streamingDecryptor.chunkDecryption(dummyEncryptionOutputFile.read(toRead).constData(), toRead);
QVERIFY(decryptedChunk.size() == toRead || streamingDecryptor.isFinished() || !pendingBytes.isEmpty());
chunkedOutputDecrypted.write(decryptedChunk);
}
if (!pendingBytes.isEmpty()) {
const auto decryptedChunk = streamingDecryptor.chunkDecryption(pendingBytes.constData(), pendingBytes.size());
QVERIFY(decryptedChunk.size() == pendingBytes.size() || streamingDecryptor.isFinished());
chunkedOutputDecrypted.write(decryptedChunk);
}
chunkedOutputDecrypted.close();
QVERIFY(chunkedOutputDecrypted.open(QBuffer::ReadOnly));
QCOMPARE(generateHash(chunkedOutputDecrypted.readAll()), originalFileHash);
chunkedOutputDecrypted.close();
}
};
QTEST_APPLESS_MAIN(TestClientSideEncryption)
#include "testclientsideencryption.moc"