qt6windows7/tests/auto/network/ssl/qdtls/tst_qdtls.cpp

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2023-10-30 06:33:08 +08:00
// Copyright (C) 2021 The Qt Company Ltd.
// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only WITH Qt-GPL-exception-1.0
#include <QTest>
#include <QTestEventLoop>
#include <QtNetwork/qsslpresharedkeyauthenticator.h>
#include <QtNetwork/qsslconfiguration.h>
#include <QtNetwork/qhostaddress.h>
#include <QtNetwork/qsslsocket.h>
#include <QtNetwork/qsslcipher.h>
#include <QtNetwork/qudpsocket.h>
#include <QtNetwork/qsslerror.h>
#include <QtNetwork/qsslkey.h>
#include <QtNetwork/qdtls.h>
#include <QtNetwork/qssl.h>
#include <QtCore/qcryptographichash.h>
#include <QtCore/qscopeguard.h>
#include <QtCore/qbytearray.h>
#include <QtCore/qobject.h>
#include <QtCore/qstring.h>
#include <QtCore/qlist.h>
#include "../shared/tlshelpers.h"
#include <algorithm>
QT_BEGIN_NAMESPACE
namespace
{
bool dtlsErrorIsCleared(const QDtls &dtls)
{
return dtls.dtlsError() == QDtlsError::NoError && dtls.dtlsErrorString().isEmpty();
}
using DtlsPtr = QScopedPointer<QDtls>;
bool dtlsErrorIsCleared(DtlsPtr &dtls)
{
return dtlsErrorIsCleared(*dtls);
}
} // unnamed namespace
#define QDTLS_VERIFY_NO_ERROR(obj) QVERIFY(dtlsErrorIsCleared(obj))
#define QDTLS_VERIFY_HANDSHAKE_SUCCESS(obj) \
QVERIFY(obj->isConnectionEncrypted()); \
QCOMPARE(obj->handshakeState(), QDtls::HandshakeComplete); \
QDTLS_VERIFY_NO_ERROR(obj); \
QCOMPARE(obj->peerVerificationErrors().size(), 0)
class tst_QDtls : public QObject
{
Q_OBJECT
public slots:
void initTestCase();
void init();
private slots:
// Tests:
void construction_data();
void construction();
void configuration_data();
void configuration();
void invalidConfiguration();
void setPeer_data();
void setPeer();
void handshake_data();
void handshake();
void handshakeWithRetransmission();
void sessionCipher();
void cipherPreferences_data();
void cipherPreferences();
void protocolVersionMatching_data();
void protocolVersionMatching();
void verificationErrors_data();
void verificationErrors();
void presetExpectedErrors_data();
void presetExpectedErrors();
void verifyServerCertificate_data();
void verifyServerCertificate();
void verifyClientCertificate_data();
void verifyClientCertificate();
void blacklistedCerificate();
void readWriteEncrypted_data();
void readWriteEncrypted();
void datagramFragmentation();
protected slots:
void handshakeReadyRead();
void encryptedReadyRead();
void pskRequested(QSslPreSharedKeyAuthenticator *auth);
void handleHandshakeTimeout();
private:
void clientServerData();
void connectHandshakeReadingSlots();
void connectEncryptedReadingSlots();
bool verificationErrorDetected(QSslError::SslError code) const;
static QHostAddress toNonAny(const QHostAddress &addr);
QUdpSocket serverSocket;
QHostAddress serverAddress;
quint16 serverPort = 0;
QSslConfiguration defaultServerConfig;
QSslCertificate selfSignedCert;
QString hostName;
QSslKey serverKeySS;
bool serverDropDgram = false;
const QByteArray serverExpectedPlainText = "Hello W ... hmm, I mean DTLS server!";
QByteArray serverReceivedPlainText;
QUdpSocket clientSocket;
QHostAddress clientAddress;
quint16 clientPort = 0;
bool clientDropDgram = false;
const QByteArray clientExpectedPlainText = "Hello DTLS client.";
QByteArray clientReceivedPlainText;
DtlsPtr serverCrypto;
DtlsPtr clientCrypto;
QTestEventLoop testLoop;
const int handshakeTimeoutMS = 5000;
const int dataExchangeTimeoutMS = 1000;
const QByteArray presharedKey = "DEADBEEFDEADBEEF";
QString certDirPath;
};
QT_END_NAMESPACE
Q_DECLARE_METATYPE(QSsl::SslProtocol)
Q_DECLARE_METATYPE(QSslSocket::SslMode)
Q_DECLARE_METATYPE(QSslSocket::PeerVerifyMode)
Q_DECLARE_METATYPE(QList<QSslCertificate>)
Q_DECLARE_METATYPE(QSslKey)
QT_BEGIN_NAMESPACE
void qt_ForceTlsSecurityLevel();
void tst_QDtls::initTestCase()
{
if (!TlsAux::classImplemented(QSsl::ImplementedClass::Dtls))
QSKIP("The active TLS backend does not support DTLS");
certDirPath = QFileInfo(QFINDTESTDATA("certs")).absolutePath();
QVERIFY(certDirPath.size() > 0);
certDirPath += QDir::separator() + QStringLiteral("certs") + QDir::separator();
QVERIFY(QSslSocket::supportsSsl());
QFile keyFile(certDirPath + QStringLiteral("ss-srv-key.pem"));
QVERIFY(keyFile.open(QIODevice::ReadOnly));
serverKeySS = QSslKey(keyFile.readAll(), QSsl::Rsa, QSsl::Pem, QSsl::PrivateKey, "foobar");
QVERIFY(!serverKeySS.isNull());
QList<QSslCertificate> certificates = QSslCertificate::fromPath(certDirPath + QStringLiteral("ss-srv-cert.pem"));
QVERIFY(!certificates.isEmpty());
QVERIFY(!certificates.first().isNull());
selfSignedCert = certificates.first();
defaultServerConfig = QSslConfiguration::defaultDtlsConfiguration();
defaultServerConfig.setPeerVerifyMode(QSslSocket::VerifyNone);
defaultServerConfig.setDtlsCookieVerificationEnabled(false);
hostName = QStringLiteral("bob.org");
qt_ForceTlsSecurityLevel();
}
void tst_QDtls::init()
{
if (serverSocket.state() != QAbstractSocket::UnconnectedState) {
serverSocket.close();
// disconnect signals/slots:
serverSocket.disconnect();
}
QVERIFY(serverSocket.bind());
serverAddress = toNonAny(serverSocket.localAddress());
serverPort = serverSocket.localPort();
if (clientSocket.localPort()) {
clientSocket.close();
// disconnect signals/slots:
clientSocket.disconnect();
}
clientAddress = {};
clientPort = 0;
serverCrypto.reset(new QDtls(QSslSocket::SslServerMode));
serverDropDgram = false;
serverReceivedPlainText.clear();
clientCrypto.reset(new QDtls(QSslSocket::SslClientMode));
clientDropDgram = false;
clientReceivedPlainText.clear();
connect(clientCrypto.data(), &QDtls::handshakeTimeout,
this, &tst_QDtls::handleHandshakeTimeout);
connect(serverCrypto.data(), &QDtls::handshakeTimeout,
this, &tst_QDtls::handleHandshakeTimeout);
}
void tst_QDtls::construction_data()
{
clientServerData();
}
void tst_QDtls::construction()
{
QFETCH(const QSslSocket::SslMode, mode);
QDtls dtls(mode);
QCOMPARE(dtls.peerAddress(), QHostAddress());
QCOMPARE(dtls.peerPort(), quint16());
QCOMPARE(dtls.peerVerificationName(), QString());
QCOMPARE(dtls.sslMode(), mode);
QCOMPARE(dtls.mtuHint(), quint16());
const auto params = dtls.cookieGeneratorParameters();
QVERIFY(params.secret.size() > 0);
#ifdef QT_CRYPTOGRAPHICHASH_ONLY_SHA1
QCOMPARE(params.hash, QCryptographicHash::Sha1);
#else
QCOMPARE(params.hash, QCryptographicHash::Sha256);
#endif
QCOMPARE(dtls.dtlsConfiguration(), QSslConfiguration::defaultDtlsConfiguration());
QCOMPARE(dtls.handshakeState(), QDtls::HandshakeNotStarted);
QCOMPARE(dtls.isConnectionEncrypted(), false);
QCOMPARE(dtls.sessionCipher(), QSslCipher());
QCOMPARE(dtls.sessionProtocol(), QSsl::UnknownProtocol);
QCOMPARE(dtls.dtlsError(), QDtlsError::NoError);
QCOMPARE(dtls.dtlsErrorString(), QString());
QCOMPARE(dtls.peerVerificationErrors().size(), 0);
}
void tst_QDtls::configuration_data()
{
clientServerData();
}
void tst_QDtls::configuration()
{
// There is a proper auto-test for QSslConfiguration in our TLS test suite,
// here we only test several DTLS-related details.
auto config = QSslConfiguration::defaultDtlsConfiguration();
QCOMPARE(config.protocol(), QSsl::DtlsV1_2OrLater);
const QList<QSslCipher> ciphers = config.ciphers();
QVERIFY(ciphers.size() > 0);
for (const auto &cipher : ciphers)
QVERIFY(cipher.usedBits() >= 128);
QCOMPARE(config.dtlsCookieVerificationEnabled(), true);
QFETCH(const QSslSocket::SslMode, mode);
QDtls dtls(mode);
QCOMPARE(dtls.dtlsConfiguration(), config);
config.setProtocol(QSsl::DtlsV1_2);
config.setDtlsCookieVerificationEnabled(false);
QCOMPARE(config.dtlsCookieVerificationEnabled(), false);
QVERIFY(dtls.setDtlsConfiguration(config));
QDTLS_VERIFY_NO_ERROR(dtls);
QCOMPARE(dtls.dtlsConfiguration(), config);
if (mode == QSslSocket::SslClientMode) {
// Testing a DTLS server would be more complicated, we'd need a DTLS
// client sending ClientHello(s), running an event loop etc. - way too
// much dancing for a simple setter/getter test.
QVERIFY(dtls.setPeer(serverAddress, serverPort));
QDTLS_VERIFY_NO_ERROR(dtls);
QUdpSocket clientSocket;
QVERIFY(dtls.doHandshake(&clientSocket));
QDTLS_VERIFY_NO_ERROR(dtls);
QCOMPARE(dtls.handshakeState(), QDtls::HandshakeInProgress);
// As soon as handshake started, it's not allowed to change configuration:
QVERIFY(!dtls.setDtlsConfiguration(QSslConfiguration::defaultDtlsConfiguration()));
QCOMPARE(dtls.dtlsError(), QDtlsError::InvalidOperation);
QCOMPARE(dtls.dtlsConfiguration(), config);
}
static bool doneAlready = false;
if (!doneAlready) {
doneAlready = true;
QSslConfiguration nullConfig;
const auto defaultDtlsConfig = QSslConfiguration::defaultDtlsConfiguration();
const auto restoreDefault = qScopeGuard([&defaultDtlsConfig] {
QSslConfiguration::setDefaultDtlsConfiguration(defaultDtlsConfig);
});
QSslConfiguration::setDefaultDtlsConfiguration(nullConfig);
QCOMPARE(QSslConfiguration::defaultDtlsConfiguration(), nullConfig);
QVERIFY(QSslConfiguration::defaultDtlsConfiguration() != defaultDtlsConfig);
}
}
void tst_QDtls::invalidConfiguration()
{
QUdpSocket socket;
QDtls crypto(QSslSocket::SslClientMode);
QVERIFY(crypto.setPeer(serverAddress, serverPort));
// Note: not defaultDtlsConfiguration(), so the protocol is TLS (without D):
QVERIFY(crypto.setDtlsConfiguration(QSslConfiguration::defaultConfiguration()));
QDTLS_VERIFY_NO_ERROR(crypto);
QCOMPARE(crypto.dtlsConfiguration(), QSslConfiguration::defaultConfiguration());
// Try to start the handshake:
QCOMPARE(crypto.doHandshake(&socket), false);
QCOMPARE(crypto.dtlsError(), QDtlsError::TlsInitializationError);
}
void tst_QDtls::setPeer_data()
{
clientServerData();
}
void tst_QDtls::setPeer()
{
static const QHostAddress invalid[] = {QHostAddress(),
QHostAddress(QHostAddress::Broadcast),
QHostAddress(QStringLiteral("224.0.0.0"))};
static const QString peerName = QStringLiteral("does not matter actually");
QFETCH(const QSslSocket::SslMode, mode);
QDtls dtls(mode);
for (const auto &addr : invalid) {
QCOMPARE(dtls.setPeer(addr, 100, peerName), false);
QCOMPARE(dtls.dtlsError(), QDtlsError::InvalidInputParameters);
QCOMPARE(dtls.peerAddress(), QHostAddress());
QCOMPARE(dtls.peerPort(), quint16());
QCOMPARE(dtls.peerVerificationName(), QString());
}
QVERIFY(dtls.setPeer(serverAddress, serverPort, peerName));
QDTLS_VERIFY_NO_ERROR(dtls);
QCOMPARE(dtls.peerAddress(), serverAddress);
QCOMPARE(dtls.peerPort(), serverPort);
QCOMPARE(dtls.peerVerificationName(), peerName);
if (mode == QSslSocket::SslClientMode) {
// We test for client mode only, for server mode we'd have to run event
// loop etc. too much work for a simple setter/getter test.
QUdpSocket clientSocket;
QVERIFY(dtls.doHandshake(&clientSocket));
QDTLS_VERIFY_NO_ERROR(dtls);
QCOMPARE(dtls.handshakeState(), QDtls::HandshakeInProgress);
QCOMPARE(dtls.setPeer(serverAddress, serverPort), false);
QCOMPARE(dtls.dtlsError(), QDtlsError::InvalidOperation);
}
}
void tst_QDtls::handshake_data()
{
QTest::addColumn<bool>("withCertificate");
QTest::addRow("no-cert") << false;
QTest::addRow("with-cert") << true;
}
void tst_QDtls::handshake()
{
connectHandshakeReadingSlots();
QFETCH(const bool, withCertificate);
auto serverConfig = defaultServerConfig;
auto clientConfig = QSslConfiguration::defaultDtlsConfiguration();
if (!withCertificate) {
connect(serverCrypto.data(), &QDtls::pskRequired, this, &tst_QDtls::pskRequested);
connect(clientCrypto.data(), &QDtls::pskRequired, this, &tst_QDtls::pskRequested);
clientConfig.setPeerVerifyMode(QSslSocket::VerifyNone);
QVERIFY(clientConfig.peerCertificate().isNull());
} else {
serverConfig.setPrivateKey(serverKeySS);
serverConfig.setLocalCertificate(selfSignedCert);
clientConfig.setCaCertificates({selfSignedCert});
}
QVERIFY(serverCrypto->setDtlsConfiguration(serverConfig));
QVERIFY(clientCrypto->setDtlsConfiguration(clientConfig));
// Some early checks before we run event loop.
// Remote was not set yet:
QVERIFY(!clientCrypto->doHandshake(&clientSocket));
QCOMPARE(clientCrypto->dtlsError(), QDtlsError::InvalidOperation);
QVERIFY(!serverCrypto->doHandshake(&serverSocket, QByteArray("ClientHello")));
QCOMPARE(serverCrypto->dtlsError(), QDtlsError::InvalidOperation);
QVERIFY(clientCrypto->setPeer(serverAddress, serverPort, hostName));
// Invalid socket:
QVERIFY(!clientCrypto->doHandshake(nullptr));
QCOMPARE(clientCrypto->dtlsError(), QDtlsError::InvalidInputParameters);
// Now we are ready for handshake:
QVERIFY(clientCrypto->doHandshake(&clientSocket));
QDTLS_VERIFY_NO_ERROR(clientCrypto);
QCOMPARE(clientCrypto->handshakeState(), QDtls::HandshakeInProgress);
testLoop.enterLoopMSecs(handshakeTimeoutMS);
QVERIFY(!testLoop.timeout());
QVERIFY(serverCrypto->isConnectionEncrypted());
QDTLS_VERIFY_NO_ERROR(serverCrypto);
QCOMPARE(serverCrypto->handshakeState(), QDtls::HandshakeComplete);
QCOMPARE(serverCrypto->peerVerificationErrors().size(), 0);
QVERIFY(clientCrypto->isConnectionEncrypted());
QDTLS_VERIFY_NO_ERROR(clientCrypto);
QCOMPARE(clientCrypto->handshakeState(), QDtls::HandshakeComplete);
QCOMPARE(clientCrypto->peerVerificationErrors().size(), 0);
if (withCertificate) {
const auto serverCert = clientCrypto->dtlsConfiguration().peerCertificate();
QVERIFY(!serverCert.isNull());
QCOMPARE(serverCert, selfSignedCert);
}
// Already in 'HandshakeComplete' state/encrypted.
QVERIFY(!clientCrypto->doHandshake(&clientSocket));
QCOMPARE(clientCrypto->dtlsError(), QDtlsError::InvalidOperation);
QVERIFY(!serverCrypto->doHandshake(&serverSocket, {"ServerHello"}));
QCOMPARE(serverCrypto->dtlsError(), QDtlsError::InvalidOperation);
// Cannot change a remote without calling shutdown first.
QVERIFY(!clientCrypto->setPeer(serverAddress, serverPort));
QCOMPARE(clientCrypto->dtlsError(), QDtlsError::InvalidOperation);
QVERIFY(!serverCrypto->setPeer(clientAddress, clientPort));
QCOMPARE(serverCrypto->dtlsError(), QDtlsError::InvalidOperation);
}
void tst_QDtls::handshakeWithRetransmission()
{
connectHandshakeReadingSlots();
auto serverConfig = defaultServerConfig;
serverConfig.setPrivateKey(serverKeySS);
serverConfig.setLocalCertificate(selfSignedCert);
QVERIFY(serverCrypto->setDtlsConfiguration(serverConfig));
auto clientConfig = QSslConfiguration::defaultDtlsConfiguration();
clientConfig.setCaCertificates({selfSignedCert});
QVERIFY(clientCrypto->setDtlsConfiguration(clientConfig));
QVERIFY(clientCrypto->setPeer(serverAddress, serverPort, hostName));
// Now we are ready for handshake:
QVERIFY(clientCrypto->doHandshake(&clientSocket));
QDTLS_VERIFY_NO_ERROR(clientCrypto);
QCOMPARE(clientCrypto->handshakeState(), QDtls::HandshakeInProgress);
serverDropDgram = true;
clientDropDgram = true;
// Every failed re-transmission doubles the next timeout. We don't want to
// slow down the test just to check the re-transmission ability, so we'll
// drop only the first 'ClientHello' and 'ServerHello' datagrams. The
// arithmetic is approximately this: the first ClientHello to be dropped -
// client will re-transmit in 1s., the first part of 'ServerHello' to be
// dropped, the client then will re-transmit after another 2 s. Thus it's ~3.
// We err on safe side and double our (already quite generous) 5s.
testLoop.enterLoopMSecs(handshakeTimeoutMS * 2);
QVERIFY(!testLoop.timeout());
QDTLS_VERIFY_HANDSHAKE_SUCCESS(serverCrypto);
QDTLS_VERIFY_HANDSHAKE_SUCCESS(clientCrypto);
}
void tst_QDtls::sessionCipher()
{
connectHandshakeReadingSlots();
auto serverConfig = defaultServerConfig;
serverConfig.setPrivateKey(serverKeySS);
serverConfig.setLocalCertificate(selfSignedCert);
QVERIFY(serverCrypto->setDtlsConfiguration(serverConfig));
auto clientConfig = QSslConfiguration::defaultDtlsConfiguration();
clientConfig.setCaCertificates({selfSignedCert});
QVERIFY(clientCrypto->setDtlsConfiguration(clientConfig));
QVERIFY(clientCrypto->setPeer(serverAddress, serverPort, hostName));
QVERIFY(clientCrypto->doHandshake(&clientSocket));
testLoop.enterLoopMSecs(handshakeTimeoutMS);
QVERIFY(!testLoop.timeout());
QDTLS_VERIFY_HANDSHAKE_SUCCESS(clientCrypto);
QDTLS_VERIFY_HANDSHAKE_SUCCESS(serverCrypto);
const auto defaultDtlsConfig = QSslConfiguration::defaultDtlsConfiguration();
const auto clCipher = clientCrypto->sessionCipher();
QVERIFY(!clCipher.isNull());
QVERIFY(defaultDtlsConfig.ciphers().contains(clCipher));
const auto srvCipher = serverCrypto->sessionCipher();
QVERIFY(!srvCipher.isNull());
QVERIFY(defaultDtlsConfig.ciphers().contains(srvCipher));
QCOMPARE(clCipher, srvCipher);
}
void tst_QDtls::cipherPreferences_data()
{
QTest::addColumn<bool>("preferClient");
QTest::addRow("prefer-server") << true;
QTest::addRow("prefer-client") << false;
}
void tst_QDtls::cipherPreferences()
{
// This test is based on the similar case in tst_QSslSocket. We test it for QDtls
// because it's possible to set ciphers and corresponding ('server preferred')
// options via QSslConfiguration.
const QSslCipher aes128(QStringLiteral("AES128-SHA"));
const QSslCipher aes256(QStringLiteral("AES256-SHA"));
auto serverConfig = defaultServerConfig;
const QList<QSslCipher> ciphers = serverConfig.ciphers();
if (!ciphers.contains(aes128) || !ciphers.contains(aes256))
QSKIP("The ciphers needed by this test were not found in the default DTLS configuration");
serverConfig.setCiphers({aes128, aes256});
serverConfig.setLocalCertificate(selfSignedCert);
serverConfig.setPrivateKey(serverKeySS);
QFETCH(const bool, preferClient);
if (preferClient)
serverConfig.setSslOption(QSsl::SslOptionDisableServerCipherPreference, true);
QVERIFY(serverCrypto->setDtlsConfiguration(serverConfig));
QDTLS_VERIFY_NO_ERROR(serverCrypto);
auto clientConfig = QSslConfiguration::defaultDtlsConfiguration();
clientConfig.setPeerVerifyMode(QSslSocket::VerifyNone);
clientConfig.setCiphers({aes256, aes128});
QVERIFY(clientCrypto->setDtlsConfiguration(clientConfig));
QVERIFY(clientCrypto->setPeer(serverAddress, serverPort));
QDTLS_VERIFY_NO_ERROR(clientCrypto);
connectHandshakeReadingSlots();
QVERIFY(clientCrypto->doHandshake(&clientSocket));
QDTLS_VERIFY_NO_ERROR(clientCrypto);
testLoop.enterLoopMSecs(handshakeTimeoutMS);
QVERIFY(!testLoop.timeout());
QDTLS_VERIFY_HANDSHAKE_SUCCESS(clientCrypto);
QDTLS_VERIFY_HANDSHAKE_SUCCESS(serverCrypto);
if (preferClient) {
QCOMPARE(clientCrypto->sessionCipher(), aes256);
QCOMPARE(serverCrypto->sessionCipher(), aes256);
} else {
QCOMPARE(clientCrypto->sessionCipher(), aes128);
QCOMPARE(serverCrypto->sessionCipher(), aes128);
}
}
void tst_QDtls::protocolVersionMatching_data()
{
QTest::addColumn<QSsl::SslProtocol>("serverProtocol");
QTest::addColumn<QSsl::SslProtocol>("clientProtocol");
QTest::addColumn<bool>("works");
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//OPENSSL_VERSION_NUMBER :
//(OPENSSL_VERSION_MAJOR<<28) | (OPENSSL_VERSION_MINOR<<20) | (OPENSSL_VERSION_PATCH<<4)
const long ossl311 = 0x30100010;
if (QSslSocket::sslLibraryVersionNumber() < ossl311) {
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#if QT_DEPRECATED_SINCE(6, 3)
QT_WARNING_PUSH QT_WARNING_DISABLE_DEPRECATED
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QTest::addRow("DtlsV1_0 <-> DtlsV1_0") << QSsl::DtlsV1_0 << QSsl::DtlsV1_0 << true;
QTest::addRow("DtlsV1_0OrLater <-> DtlsV1_0") << QSsl::DtlsV1_0OrLater << QSsl::DtlsV1_0 << true;
QTest::addRow("DtlsV1_0 <-> DtlsV1_0OrLater") << QSsl::DtlsV1_0 << QSsl::DtlsV1_0OrLater << true;
QTest::addRow("DtlsV1_0OrLater <-> DtlsV1_0OrLater") << QSsl::DtlsV1_0OrLater << QSsl::DtlsV1_0OrLater << true;
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QT_WARNING_POP
#endif // QT_DEPRECATED_SINCE(6, 3)
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}
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QTest::addRow("DtlsV1_2 <-> DtlsV1_2") << QSsl::DtlsV1_2 << QSsl::DtlsV1_2 << true;
QTest::addRow("DtlsV1_2OrLater <-> DtlsV1_2") << QSsl::DtlsV1_2OrLater << QSsl::DtlsV1_2 << true;
QTest::addRow("DtlsV1_2 <-> DtlsV1_2OrLater") << QSsl::DtlsV1_2 << QSsl::DtlsV1_2OrLater << true;
QTest::addRow("DtlsV1_2OrLater <-> DtlsV1_2OrLater") << QSsl::DtlsV1_2OrLater << QSsl::DtlsV1_2OrLater << true;
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if (QSslSocket::sslLibraryVersionNumber() < ossl311) {
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#if QT_DEPRECATED_SINCE(6, 3)
QT_WARNING_PUSH QT_WARNING_DISABLE_DEPRECATED
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QTest::addRow("DtlsV1_0 <-> DtlsV1_2") << QSsl::DtlsV1_0 << QSsl::DtlsV1_2 << false;
QTest::addRow("DtlsV1_0 <-> DtlsV1_2OrLater") << QSsl::DtlsV1_0 << QSsl::DtlsV1_2OrLater << false;
QTest::addRow("DtlsV1_2 <-> DtlsV1_0") << QSsl::DtlsV1_2 << QSsl::DtlsV1_0 << false;
QTest::addRow("DtlsV1_2OrLater <-> DtlsV1_0") << QSsl::DtlsV1_2OrLater << QSsl::DtlsV1_0 << false;
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QT_WARNING_POP
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#endif // QT_DEPRECATED_SINCE(6, 3
}
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}
void tst_QDtls::protocolVersionMatching()
{
QFETCH(const QSsl::SslProtocol, serverProtocol);
QFETCH(const QSsl::SslProtocol, clientProtocol);
QFETCH(const bool, works);
connectHandshakeReadingSlots();
connect(serverCrypto.data(), &QDtls::pskRequired, this, &tst_QDtls::pskRequested);
connect(clientCrypto.data(), &QDtls::pskRequired, this, &tst_QDtls::pskRequested);
auto serverConfig = defaultServerConfig;
serverConfig.setProtocol(serverProtocol);
QVERIFY(serverCrypto->setDtlsConfiguration(serverConfig));
auto clientConfig = QSslConfiguration::defaultDtlsConfiguration();
clientConfig.setPeerVerifyMode(QSslSocket::VerifyNone);
clientConfig.setProtocol(clientProtocol);
QVERIFY(clientCrypto->setDtlsConfiguration(clientConfig));
QVERIFY(clientCrypto->setPeer(serverAddress, serverPort));
QVERIFY(clientCrypto->doHandshake(&clientSocket));
testLoop.enterLoopMSecs(handshakeTimeoutMS);
if (works) {
QDTLS_VERIFY_HANDSHAKE_SUCCESS(serverCrypto);
QDTLS_VERIFY_HANDSHAKE_SUCCESS(clientCrypto);
} else {
QCOMPARE(serverCrypto->isConnectionEncrypted(), false);
QVERIFY(serverCrypto->handshakeState() != QDtls::HandshakeComplete);
QCOMPARE(clientCrypto->isConnectionEncrypted(), false);
QVERIFY(clientCrypto->handshakeState() != QDtls::HandshakeComplete);
}
}
void tst_QDtls::verificationErrors_data()
{
QTest::addColumn<bool>("abortHandshake");
QTest::addRow("abort-handshake") << true;
QTest::addRow("ignore-errors") << false;
}
void tst_QDtls::verificationErrors()
{
connectHandshakeReadingSlots();
auto serverConfig = defaultServerConfig;
serverConfig.setPrivateKey(serverKeySS);
serverConfig.setLocalCertificate(selfSignedCert);
QVERIFY(serverCrypto->setDtlsConfiguration(serverConfig));
// And our client already has the default DTLS configuration.
QVERIFY(clientCrypto->setPeer(serverAddress, serverPort));
// Now we are ready for handshake:
QVERIFY(clientCrypto->doHandshake(&clientSocket));
testLoop.enterLoopMSecs(handshakeTimeoutMS);
QVERIFY(!testLoop.timeout());
QDTLS_VERIFY_NO_ERROR(serverCrypto);
QCOMPARE(clientCrypto->dtlsError(), QDtlsError::PeerVerificationError);
QCOMPARE(clientCrypto->handshakeState(), QDtls::PeerVerificationFailed);
QVERIFY(!clientCrypto->isConnectionEncrypted());
QVERIFY(verificationErrorDetected(QSslError::HostNameMismatch));
QVERIFY(verificationErrorDetected(QSslError::SelfSignedCertificate));
const auto serverCert = clientCrypto->dtlsConfiguration().peerCertificate();
QVERIFY(!serverCert.isNull());
QCOMPARE(selfSignedCert, serverCert);
QFETCH(const bool, abortHandshake);
if (abortHandshake) {
QVERIFY(!clientCrypto->abortHandshake(nullptr));
QCOMPARE(clientCrypto->dtlsError(), QDtlsError::InvalidInputParameters);
QVERIFY(clientCrypto->abortHandshake(&clientSocket));
QDTLS_VERIFY_NO_ERROR(clientCrypto);
QVERIFY(!clientCrypto->isConnectionEncrypted());
QCOMPARE(clientCrypto->handshakeState(), QDtls::HandshakeNotStarted);
QCOMPARE(clientCrypto->sessionCipher(), QSslCipher());
QCOMPARE(clientCrypto->sessionProtocol(), QSsl::UnknownProtocol);
const auto config = clientCrypto->dtlsConfiguration();
QVERIFY(config.peerCertificate().isNull());
QCOMPARE(config.peerCertificateChain().size(), 0);
QCOMPARE(clientCrypto->peerVerificationErrors().size(), 0);
} else {
clientCrypto->ignoreVerificationErrors(clientCrypto->peerVerificationErrors());
QVERIFY(!clientCrypto->resumeHandshake(nullptr));
QCOMPARE(clientCrypto->dtlsError(), QDtlsError::InvalidInputParameters);
QVERIFY(clientCrypto->resumeHandshake(&clientSocket));
QDTLS_VERIFY_HANDSHAKE_SUCCESS(clientCrypto);
QVERIFY(clientCrypto->isConnectionEncrypted());
QCOMPARE(clientCrypto->handshakeState(), QDtls::HandshakeComplete);
QCOMPARE(clientCrypto->peerVerificationErrors().size(), 0);
}
}
void tst_QDtls::presetExpectedErrors_data()
{
QTest::addColumn<QList<QSslError>>("expectedTlsErrors");
QTest::addColumn<bool>("works");
QList<QSslError> expectedErrors { { QSslError::HostNameMismatch, selfSignedCert } };
QTest::addRow("unexpected-self-signed") << expectedErrors << false;
expectedErrors.push_back({QSslError::SelfSignedCertificate, selfSignedCert});
QTest::addRow("all-errors-ignored") << expectedErrors << true;
}
void tst_QDtls::presetExpectedErrors()
{
QFETCH(const QList<QSslError>, expectedTlsErrors);
QFETCH(const bool, works);
connectHandshakeReadingSlots();
auto serverConfig = defaultServerConfig;
serverConfig.setPrivateKey(serverKeySS);
serverConfig.setLocalCertificate(selfSignedCert);
QVERIFY(serverCrypto->setDtlsConfiguration(serverConfig));
clientCrypto->ignoreVerificationErrors(expectedTlsErrors);
QVERIFY(clientCrypto->setPeer(serverAddress, serverPort));
QVERIFY(clientCrypto->doHandshake(&clientSocket));
testLoop.enterLoopMSecs(handshakeTimeoutMS);
QVERIFY(!testLoop.timeout());
if (works) {
QDTLS_VERIFY_HANDSHAKE_SUCCESS(serverCrypto);
QCOMPARE(clientCrypto->handshakeState(), QDtls::HandshakeComplete);
QVERIFY(clientCrypto->isConnectionEncrypted());
} else {
QCOMPARE(clientCrypto->dtlsError(), QDtlsError::PeerVerificationError);
QVERIFY(!clientCrypto->isConnectionEncrypted());
QCOMPARE(clientCrypto->handshakeState(), QDtls::PeerVerificationFailed);
}
}
void tst_QDtls::verifyServerCertificate_data()
{
QTest::addColumn<QSslSocket::PeerVerifyMode>("verifyMode");
QTest::addColumn<QList<QSslCertificate>>("serverCerts");
QTest::addColumn<QSslKey>("serverKey");
QTest::addColumn<QString>("peerName");
QTest::addColumn<bool>("encrypted");
{
// A special case - null key (but with certificate):
const auto chain = QSslCertificate::fromPath(certDirPath + QStringLiteral("bogus-server.crt"));
QCOMPARE(chain.size(), 1);
QSslKey nullKey;
// Only one row - server must fail to start handshake immediately.
QTest::newRow("valid-server-cert-no-key : VerifyPeer") << QSslSocket::VerifyPeer << chain << nullKey << QString() << false;
}
{
// Valid certificate:
auto chain = QSslCertificate::fromPath(certDirPath + QStringLiteral("bogus-server.crt"));
QCOMPARE(chain.size(), 1);
const auto caCert = QSslCertificate::fromPath(certDirPath + QStringLiteral("bogus-ca.crt"));
QCOMPARE(caCert.size(), 1);
chain += caCert;
QFile keyFile(certDirPath + QStringLiteral("bogus-server.key"));
QVERIFY(keyFile.open(QIODevice::ReadOnly));
const QSslKey key(keyFile.readAll(), QSsl::Rsa, QSsl::Pem, QSsl::PrivateKey);
QVERIFY(!key.isNull());
auto cert = chain.first();
const QString name(cert.subjectInfo(QSslCertificate::CommonName).first());
QTest::newRow("valid-server-cert : AutoVerifyPeer") << QSslSocket::AutoVerifyPeer << chain << key << name << true;
QTest::newRow("valid-server-cert : QueryPeer") << QSslSocket::QueryPeer << chain << key << name << true;
QTest::newRow("valid-server-cert : VerifyNone") << QSslSocket::VerifyNone << chain << key << name << true;
QTest::newRow("valid-server-cert : VerifyPeer (add CA)") << QSslSocket::VerifyPeer << chain << key << name << true;
QTest::newRow("valid-server-cert : VerifyPeer (no CA)") << QSslSocket::VerifyPeer << chain << key << name << false;
QTest::newRow("valid-server-cert : VerifyPeer (name mismatch)") << QSslSocket::VerifyPeer << chain << key << QString() << false;
}
}
void tst_QDtls::verifyServerCertificate()
{
QFETCH(const QSslSocket::PeerVerifyMode, verifyMode);
QFETCH(const QList<QSslCertificate>, serverCerts);
QFETCH(const QSslKey, serverKey);
QFETCH(const QString, peerName);
QFETCH(const bool, encrypted);
auto serverConfig = defaultServerConfig;
serverConfig.setLocalCertificateChain(serverCerts);
serverConfig.setPrivateKey(serverKey);
QVERIFY(serverCrypto->setDtlsConfiguration(serverConfig));
auto clientConfig = QSslConfiguration::defaultDtlsConfiguration();
if (serverCerts.size() == 2 && encrypted) {
auto caCerts = clientConfig.caCertificates();
caCerts.append(serverCerts.at(1));
clientConfig.setCaCertificates(caCerts);
}
clientConfig.setPeerVerifyMode(verifyMode);
QVERIFY(clientCrypto->setDtlsConfiguration(clientConfig));
QVERIFY(clientCrypto->setPeer(serverAddress, serverPort, peerName));
connectHandshakeReadingSlots();
QVERIFY(clientCrypto->doHandshake(&clientSocket));
testLoop.enterLoopMSecs(handshakeTimeoutMS);
QVERIFY(!testLoop.timeout());
if (serverKey.isNull() && !serverCerts.isEmpty()) {
QDTLS_VERIFY_NO_ERROR(clientCrypto);
QCOMPARE(clientCrypto->handshakeState(), QDtls::HandshakeInProgress);
QCOMPARE(serverCrypto->dtlsError(), QDtlsError::TlsInitializationError);
QCOMPARE(serverCrypto->handshakeState(), QDtls::HandshakeNotStarted);
return;
}
if (encrypted) {
QDTLS_VERIFY_HANDSHAKE_SUCCESS(serverCrypto);
QDTLS_VERIFY_HANDSHAKE_SUCCESS(clientCrypto);
} else {
QVERIFY(!clientCrypto->isConnectionEncrypted());
QCOMPARE(clientCrypto->handshakeState(), QDtls::PeerVerificationFailed);
QVERIFY(clientCrypto->peerVerificationErrors().size());
QVERIFY(clientCrypto->writeDatagramEncrypted(&clientSocket, "something") < 0);
QCOMPARE(clientCrypto->dtlsError(), QDtlsError::InvalidOperation);
}
}
void tst_QDtls::verifyClientCertificate_data()
{
QTest::addColumn<QSslSocket::PeerVerifyMode>("verifyMode");
QTest::addColumn<QList<QSslCertificate>>("clientCerts");
QTest::addColumn<QSslKey>("clientKey");
QTest::addColumn<bool>("encrypted");
{
// No certficates, no key:
QList<QSslCertificate> chain;
QSslKey key;
QTest::newRow("no-cert : AutoVerifyPeer") << QSslSocket::AutoVerifyPeer << chain << key << true;
QTest::newRow("no-cert : QueryPeer") << QSslSocket::QueryPeer << chain << key << true;
QTest::newRow("no-cert : VerifyNone") << QSslSocket::VerifyNone << chain << key << true;
QTest::newRow("no-cert : VerifyPeer") << QSslSocket::VerifyPeer << chain << key << false;
}
{
const auto chain = QSslCertificate::fromPath(certDirPath + QStringLiteral("fluke.cert"));
QCOMPARE(chain.size(), 1);
QFile keyFile(certDirPath + QStringLiteral("fluke.key"));
QVERIFY(keyFile.open(QIODevice::ReadOnly));
const QSslKey key(keyFile.readAll(), QSsl::Rsa, QSsl::Pem, QSsl::PrivateKey);
QVERIFY(!key.isNull());
QTest::newRow("self-signed-cert : AutoVerifyPeer") << QSslSocket::AutoVerifyPeer << chain << key << true;
QTest::newRow("self-signed-cert : QueryPeer") << QSslSocket::QueryPeer << chain << key << true;
QTest::newRow("self-signed-cert : VerifyNone") << QSslSocket::VerifyNone << chain << key << true;
QTest::newRow("self-signed-cert : VerifyPeer") << QSslSocket::VerifyPeer << chain << key << false;
}
{
// Valid certificate, but wrong usage (server certificate):
const auto chain = QSslCertificate::fromPath(certDirPath + QStringLiteral("bogus-server.crt"));
QCOMPARE(chain.size(), 1);
QFile keyFile(certDirPath + QStringLiteral("bogus-server.key"));
QVERIFY(keyFile.open(QIODevice::ReadOnly));
const QSslKey key(keyFile.readAll(), QSsl::Rsa, QSsl::Pem, QSsl::PrivateKey);
QVERIFY(!key.isNull());
QTest::newRow("valid-server-cert : AutoVerifyPeer") << QSslSocket::AutoVerifyPeer << chain << key << true;
QTest::newRow("valid-server-cert : QueryPeer") << QSslSocket::QueryPeer << chain << key << true;
QTest::newRow("valid-server-cert : VerifyNone") << QSslSocket::VerifyNone << chain << key << true;
QTest::newRow("valid-server-cert : VerifyPeer") << QSslSocket::VerifyPeer << chain << key << false;
}
{
// Valid certificate, correct usage (client certificate):
auto chain = QSslCertificate::fromPath(certDirPath + QStringLiteral("bogus-client.crt"));
QCOMPARE(chain.size(), 1);
QFile keyFile(certDirPath + QStringLiteral("bogus-client.key"));
QVERIFY(keyFile.open(QIODevice::ReadOnly));
const QSslKey key(keyFile.readAll(), QSsl::Rsa, QSsl::Pem, QSsl::PrivateKey);
QVERIFY(!key.isNull());
QTest::newRow("valid-client-cert : AutoVerifyPeer") << QSslSocket::AutoVerifyPeer << chain << key << true;
QTest::newRow("valid-client-cert : QueryPeer") << QSslSocket::QueryPeer << chain << key << true;
QTest::newRow("valid-client-cert : VerifyNone") << QSslSocket::VerifyNone << chain << key << true;
QTest::newRow("valid-client-cert : VerifyPeer") << QSslSocket::VerifyPeer << chain << key << true;
// Valid certificate, correct usage (client certificate), with chain:
chain += QSslCertificate::fromPath(certDirPath + QStringLiteral("bogus-ca.crt"));
QCOMPARE(chain.size(), 2);
QTest::newRow("valid-client-chain : AutoVerifyPeer") << QSslSocket::AutoVerifyPeer << chain << key << true;
QTest::newRow("valid-client-chain : QueryPeer") << QSslSocket::QueryPeer << chain << key << true;
QTest::newRow("valid-client-chain : VerifyNone") << QSslSocket::VerifyNone << chain << key << true;
QTest::newRow("valid-client-chain : VerifyPeer") << QSslSocket::VerifyPeer << chain << key << true;
}
}
void tst_QDtls::verifyClientCertificate()
{
connectHandshakeReadingSlots();
QFETCH(const QSslSocket::PeerVerifyMode, verifyMode);
QFETCH(const QList<QSslCertificate>, clientCerts);
QFETCH(const QSslKey, clientKey);
QFETCH(const bool, encrypted);
QSslConfiguration serverConfig = defaultServerConfig;
serverConfig.setLocalCertificate(selfSignedCert);
serverConfig.setPrivateKey(serverKeySS);
serverConfig.setPeerVerifyMode(verifyMode);
if (verifyMode == QSslSocket::VerifyPeer && clientCerts.size()) {
// Not always needed even if these conditions met, but does not hurt
// either.
const auto certs = QSslCertificate::fromPath(certDirPath + QStringLiteral("bogus-ca.crt"));
QCOMPARE(certs.size(), 1);
serverConfig.setCaCertificates(serverConfig.caCertificates() + certs);
}
QVERIFY(serverCrypto->setDtlsConfiguration(serverConfig));
serverConfig = serverCrypto->dtlsConfiguration();
QVERIFY(serverConfig.peerCertificate().isNull());
QCOMPARE(serverConfig.peerCertificateChain().size(), 0);
auto clientConfig = QSslConfiguration::defaultDtlsConfiguration();
clientConfig.setLocalCertificateChain(clientCerts);
clientConfig.setPrivateKey(clientKey);
clientConfig.setPeerVerifyMode(QSslSocket::VerifyNone);
QVERIFY(clientCrypto->setDtlsConfiguration(clientConfig));
QVERIFY(clientCrypto->setPeer(serverAddress, serverPort));
QVERIFY(clientCrypto->doHandshake(&clientSocket));
QDTLS_VERIFY_NO_ERROR(clientCrypto);
testLoop.enterLoopMSecs(handshakeTimeoutMS);
serverConfig = serverCrypto->dtlsConfiguration();
if (verifyMode == QSslSocket::VerifyNone || clientCerts.isEmpty()) {
QVERIFY(serverConfig.peerCertificate().isNull());
QCOMPARE(serverConfig.peerCertificateChain().size(), 0);
} else {
QCOMPARE(serverConfig.peerCertificate(), clientCerts.first());
QCOMPARE(serverConfig.peerCertificateChain(), clientCerts);
}
if (encrypted) {
QDTLS_VERIFY_HANDSHAKE_SUCCESS(serverCrypto);
QDTLS_VERIFY_HANDSHAKE_SUCCESS(clientCrypto);
} else {
QVERIFY(!serverCrypto->isConnectionEncrypted());
QCOMPARE(serverCrypto->handshakeState(), QDtls::PeerVerificationFailed);
QVERIFY(serverCrypto->dtlsErrorString().size() > 0);
QVERIFY(serverCrypto->peerVerificationErrors().size() > 0);
QVERIFY(!clientCrypto->isConnectionEncrypted());
QDTLS_VERIFY_NO_ERROR(clientCrypto);
QCOMPARE(clientCrypto->handshakeState(), QDtls::HandshakeInProgress);
}
}
void tst_QDtls::blacklistedCerificate()
{
const auto serverChain = QSslCertificate::fromPath(certDirPath + QStringLiteral("fake-login.live.com.pem"));
QCOMPARE(serverChain.size(), 1);
QFile keyFile(certDirPath + QStringLiteral("fake-login.live.com.key"));
QVERIFY(keyFile.open(QIODevice::ReadOnly));
const QSslKey key(keyFile.readAll(), QSsl::Rsa, QSsl::Pem, QSsl::PrivateKey);
QVERIFY(!key.isNull());
auto serverConfig = defaultServerConfig;
serverConfig.setLocalCertificateChain(serverChain);
serverConfig.setPrivateKey(key);
QVERIFY(serverCrypto->setDtlsConfiguration(serverConfig));
connectHandshakeReadingSlots();
const QString name(serverChain.first().subjectInfo(QSslCertificate::CommonName).first());
QVERIFY(clientCrypto->setPeer(serverAddress, serverPort, name));
QVERIFY(clientCrypto->doHandshake(&clientSocket));
testLoop.enterLoopMSecs(handshakeTimeoutMS);
QVERIFY(!testLoop.timeout());
QCOMPARE(clientCrypto->handshakeState(), QDtls::PeerVerificationFailed);
QCOMPARE(clientCrypto->dtlsError(), QDtlsError::PeerVerificationError);
QVERIFY(!clientCrypto->isConnectionEncrypted());
QVERIFY(verificationErrorDetected(QSslError::CertificateBlacklisted));
}
void tst_QDtls::readWriteEncrypted_data()
{
QTest::addColumn<bool>("serverSideShutdown");
QTest::addRow("client-shutdown") << false;
QTest::addRow("server-shutdown") << true;
}
void tst_QDtls::readWriteEncrypted()
{
connectHandshakeReadingSlots();
auto serverConfig = defaultServerConfig;
serverConfig.setLocalCertificate(selfSignedCert);
serverConfig.setPrivateKey(serverKeySS);
QVERIFY(serverCrypto->setDtlsConfiguration(serverConfig));
auto clientConfig = QSslConfiguration::defaultDtlsConfiguration();
clientConfig.setCaCertificates({selfSignedCert});
QVERIFY(clientCrypto->setDtlsConfiguration(clientConfig));
QVERIFY(clientCrypto->setPeer(serverAddress, serverPort, hostName));
// 0. Verify we cannot write any encrypted message without handshake done
QDTLS_VERIFY_NO_ERROR(clientCrypto);
QVERIFY(clientCrypto->writeDatagramEncrypted(&clientSocket, serverExpectedPlainText) <= 0);
QCOMPARE(clientCrypto->dtlsError(), QDtlsError::InvalidOperation);
QVERIFY(!clientCrypto->shutdown(&clientSocket));
QCOMPARE(clientCrypto->dtlsError(), QDtlsError::InvalidOperation);
QDTLS_VERIFY_NO_ERROR(serverCrypto);
QVERIFY(serverCrypto->writeDatagramEncrypted(&serverSocket, clientExpectedPlainText) <= 0);
QCOMPARE(serverCrypto->dtlsError(), QDtlsError::InvalidOperation);
QVERIFY(!serverCrypto->shutdown(&serverSocket));
QCOMPARE(serverCrypto->dtlsError(), QDtlsError::InvalidOperation);
// 1. Initiate a handshake:
QVERIFY(clientCrypto->doHandshake(&clientSocket));
QDTLS_VERIFY_NO_ERROR(clientCrypto);
// 1.1 Verify we cannot read yet. What the datagram is - not really important,
// invalid state/operation - is what we verify:
const QByteArray dummy = clientCrypto->decryptDatagram(&clientSocket, "BS dgram");
QCOMPARE(dummy.size(), 0);
QCOMPARE(clientCrypto->dtlsError(), QDtlsError::InvalidOperation);
// 1.2 Finish the handshake:
testLoop.enterLoopMSecs(handshakeTimeoutMS);
QVERIFY(!testLoop.timeout());
QDTLS_VERIFY_HANDSHAKE_SUCCESS(clientCrypto);
QDTLS_VERIFY_HANDSHAKE_SUCCESS(serverCrypto);
// 2. Change reading slots:
connectEncryptedReadingSlots();
// 3. Test parameter validation:
QVERIFY(clientCrypto->writeDatagramEncrypted(nullptr, serverExpectedPlainText) <= 0);
QCOMPARE(clientCrypto->dtlsError(), QDtlsError::InvalidInputParameters);
// 4. Write the client's message:
qint64 clientBytesWritten = clientCrypto->writeDatagramEncrypted(&clientSocket, serverExpectedPlainText);
QDTLS_VERIFY_NO_ERROR(clientCrypto);
QVERIFY(clientBytesWritten > 0);
// 5. Exchange client/server messages:
testLoop.enterLoopMSecs(dataExchangeTimeoutMS);
QVERIFY(!testLoop.timeout());
QCOMPARE(serverExpectedPlainText, serverReceivedPlainText);
QCOMPARE(clientExpectedPlainText, clientReceivedPlainText);
QFETCH(const bool, serverSideShutdown);
DtlsPtr &crypto = serverSideShutdown ? serverCrypto : clientCrypto;
QUdpSocket *socket = serverSideShutdown ? &serverSocket : &clientSocket;
// 6. Parameter validation:
QVERIFY(!crypto->shutdown(nullptr));
QCOMPARE(crypto->dtlsError(), QDtlsError::InvalidInputParameters);
// 7. Send shutdown alert:
QVERIFY(crypto->shutdown(socket));
QDTLS_VERIFY_NO_ERROR(crypto);
QCOMPARE(crypto->handshakeState(), QDtls::HandshakeNotStarted);
QVERIFY(!crypto->isConnectionEncrypted());
// 8. Receive this read notification and handle it:
testLoop.enterLoopMSecs(dataExchangeTimeoutMS);
QVERIFY(!testLoop.timeout());
DtlsPtr &peerCrypto = serverSideShutdown ? clientCrypto : serverCrypto;
QVERIFY(!peerCrypto->isConnectionEncrypted());
QCOMPARE(peerCrypto->handshakeState(), QDtls::HandshakeNotStarted);
QCOMPARE(peerCrypto->dtlsError(), QDtlsError::RemoteClosedConnectionError);
}
void tst_QDtls::datagramFragmentation()
{
connectHandshakeReadingSlots();
auto serverConfig = defaultServerConfig;
serverConfig.setLocalCertificate(selfSignedCert);
serverConfig.setPrivateKey(serverKeySS);
QVERIFY(serverCrypto->setDtlsConfiguration(serverConfig));
auto clientConfig = QSslConfiguration::defaultDtlsConfiguration();
clientConfig.setPeerVerifyMode(QSslSocket::VerifyNone);
QVERIFY(clientCrypto->setDtlsConfiguration(clientConfig));
QVERIFY(clientCrypto->setPeer(serverAddress, serverPort));
QVERIFY(clientCrypto->doHandshake(&clientSocket));
testLoop.enterLoopMSecs(handshakeTimeoutMS);
QVERIFY(!testLoop.timeout());
QDTLS_VERIFY_HANDSHAKE_SUCCESS(clientCrypto);
QDTLS_VERIFY_HANDSHAKE_SUCCESS(serverCrypto);
// Done with handshake, reconnect readyRead:
connectEncryptedReadingSlots();
// Verify our dgram is not fragmented and some error set (either UnderlyingSocketError
// if OpenSSL somehow had attempted a write or TlsFatalError in case OpenSSL
// noticed how big the chunk is).
QVERIFY(clientCrypto->writeDatagramEncrypted(&clientSocket, QByteArray(1024 * 17, Qt::Uninitialized)) <= 0);
QVERIFY(clientCrypto->dtlsError() != QDtlsError::NoError);
// Error to write does not mean QDtls is broken:
QVERIFY(clientCrypto->isConnectionEncrypted());
QVERIFY(clientCrypto->writeDatagramEncrypted(&clientSocket, "Hello, I'm a tiny datagram") > 0);
QDTLS_VERIFY_NO_ERROR(clientCrypto);
}
void tst_QDtls::handshakeReadyRead()
{
QUdpSocket *socket = qobject_cast<QUdpSocket *>(sender());
Q_ASSERT(socket);
if (socket->pendingDatagramSize() <= 0)
return;
const bool isServer = socket == &serverSocket;
DtlsPtr &crypto = isServer ? serverCrypto : clientCrypto;
DtlsPtr &peerCrypto = isServer ? clientCrypto : serverCrypto;
QHostAddress addr;
quint16 port = 0;
QByteArray dgram(socket->pendingDatagramSize(), Qt::Uninitialized);
const qint64 size = socket->readDatagram(dgram.data(), dgram.size(), &addr, &port);
if (size != dgram.size())
return;
if (isServer) {
if (!clientPort) {
// It's probably an initial 'ClientHello' message. Let's set remote's
// address/port. But first we make sure it is, indeed, 'ClientHello'.
if (int(dgram.constData()[0]) != 22)
return;
if (addr.isNull() || addr.isBroadcast()) // Could never be us (client), bail out
return;
if (!crypto->setPeer(addr, port))
return testLoop.exitLoop();
// Check parameter validation:
if (crypto->doHandshake(nullptr, dgram) || crypto->dtlsError() != QDtlsError::InvalidInputParameters)
return testLoop.exitLoop();
if (crypto->doHandshake(&serverSocket, {}) || crypto->dtlsError() != QDtlsError::InvalidInputParameters)
return testLoop.exitLoop();
// Make sure we cannot decrypt yet:
const QByteArray dummyDgram = crypto->decryptDatagram(&serverSocket, dgram);
if (dummyDgram.size() > 0 || crypto->dtlsError() != QDtlsError::InvalidOperation)
return testLoop.exitLoop();
clientAddress = addr;
clientPort = port;
} else if (clientPort != port || clientAddress != addr) {
return;
}
if (serverDropDgram) {
serverDropDgram = false;
return;
}
} else if (clientDropDgram) {
clientDropDgram = false;
return;
}
if (!crypto->doHandshake(socket, dgram))
return testLoop.exitLoop();
const auto state = crypto->handshakeState();
if (state != QDtls::HandshakeInProgress && state != QDtls::HandshakeComplete)
return testLoop.exitLoop();
if (state == QDtls::HandshakeComplete && peerCrypto->handshakeState() == QDtls::HandshakeComplete)
testLoop.exitLoop();
}
void tst_QDtls::encryptedReadyRead()
{
QUdpSocket *socket = qobject_cast<QUdpSocket *>(sender());
Q_ASSERT(socket);
if (socket->pendingDatagramSize() <= 0)
return;
QByteArray dtlsMessage(int(socket->pendingDatagramSize()), Qt::Uninitialized);
QHostAddress addr;
quint16 port = 0;
const qint64 bytesRead = socket->readDatagram(dtlsMessage.data(), dtlsMessage.size(), &addr, &port);
if (bytesRead <= 0)
return;
dtlsMessage.resize(int(bytesRead));
if (socket == &serverSocket) {
if (addr != clientAddress || port != clientPort)
return;
if (serverExpectedPlainText == dtlsMessage) // No way it can happen!
return testLoop.exitLoop();
serverReceivedPlainText = serverCrypto->decryptDatagram(nullptr, dtlsMessage);
if (serverReceivedPlainText.size() > 0 || serverCrypto->dtlsError() != QDtlsError::InvalidInputParameters)
return testLoop.exitLoop();
serverReceivedPlainText = serverCrypto->decryptDatagram(&serverSocket, dtlsMessage);
const int messageType = dtlsMessage.data()[0];
if (serverReceivedPlainText != serverExpectedPlainText
&& (messageType == 23 || messageType == 21)) {
// Type 23 is for application data, 21 is shutdown alert. Here we test
// write/read operations and shutdown alerts, not expecting and thus
// ignoring any other types of messages.
return testLoop.exitLoop();
}
if (serverCrypto->dtlsError() != QDtlsError::NoError)
return testLoop.exitLoop();
// Verify it cannot be done twice:
const QByteArray replayed = serverCrypto->decryptDatagram(&serverSocket, dtlsMessage);
if (replayed.size() > 0)
return testLoop.exitLoop();
if (serverCrypto->writeDatagramEncrypted(&serverSocket, clientExpectedPlainText) <= 0)
testLoop.exitLoop();
} else {
if (port != serverPort)
return;
if (clientExpectedPlainText == dtlsMessage) // What a disaster!
return testLoop.exitLoop();
clientReceivedPlainText = clientCrypto->decryptDatagram(&clientSocket, dtlsMessage);
testLoop.exitLoop();
}
}
void tst_QDtls::pskRequested(QSslPreSharedKeyAuthenticator *auth)
{
Q_ASSERT(auth);
auth->setPreSharedKey(presharedKey);
}
void tst_QDtls::handleHandshakeTimeout()
{
auto crypto = qobject_cast<QDtls *>(sender());
Q_ASSERT(crypto);
if (!crypto->handleTimeout(&clientSocket))
testLoop.exitLoop();
}
void tst_QDtls::clientServerData()
{
QTest::addColumn<QSslSocket::SslMode>("mode");
QTest::addRow("client") << QSslSocket::SslClientMode;
QTest::addRow("server") << QSslSocket::SslServerMode;
}
void tst_QDtls::connectHandshakeReadingSlots()
{
connect(&serverSocket, &QUdpSocket::readyRead, this, &tst_QDtls::handshakeReadyRead);
connect(&clientSocket, &QUdpSocket::readyRead, this, &tst_QDtls::handshakeReadyRead);
}
void tst_QDtls::connectEncryptedReadingSlots()
{
serverSocket.disconnect();
clientSocket.disconnect();
connect(&serverSocket, &QUdpSocket::readyRead, this, &tst_QDtls::encryptedReadyRead);
connect(&clientSocket, &QUdpSocket::readyRead, this, &tst_QDtls::encryptedReadyRead);
}
bool tst_QDtls::verificationErrorDetected(QSslError::SslError code) const
{
Q_ASSERT(clientCrypto.data());
const auto errors = clientCrypto->peerVerificationErrors();
for (const QSslError &error : errors) {
if (error.error() == code)
return true;
}
return false;
}
QHostAddress tst_QDtls::toNonAny(const QHostAddress &addr)
{
if (addr == QHostAddress::Any || addr == QHostAddress::AnyIPv4)
return QHostAddress::LocalHost;
if (addr == QHostAddress::AnyIPv6)
return QHostAddress::LocalHostIPv6;
return addr;
}
QT_END_NAMESPACE
QTEST_MAIN(tst_QDtls)
#include "tst_qdtls.moc"