diff options
Diffstat (limited to 'src/plugins/tls/openssl/qdtls_openssl.cpp')
-rw-r--r-- | src/plugins/tls/openssl/qdtls_openssl.cpp | 1417 |
1 files changed, 1417 insertions, 0 deletions
diff --git a/src/plugins/tls/openssl/qdtls_openssl.cpp b/src/plugins/tls/openssl/qdtls_openssl.cpp new file mode 100644 index 0000000000..fc07a29ec8 --- /dev/null +++ b/src/plugins/tls/openssl/qdtls_openssl.cpp @@ -0,0 +1,1417 @@ +// Copyright (C) 2018 The Qt Company Ltd. +// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR LGPL-3.0-only OR GPL-2.0-only OR GPL-3.0-only + +#include <QtNetwork/private/qnativesocketengine_p_p.h> + +#include "qsslsocket_openssl_symbols_p.h" +#include "qdtls_openssl_p.h" +#include "qx509_openssl_p.h" + +#include <QtNetwork/private/qsslpresharedkeyauthenticator_p.h> +#include <QtNetwork/private/qsslcertificate_p.h> +#include <QtNetwork/private/qssl_p.h> + +#include <QtNetwork/qudpsocket.h> + +#include <QtCore/qmessageauthenticationcode.h> +#include <QtCore/qcryptographichash.h> + +#include <QtCore/qdebug.h> + +#include <cstring> +#include <cstddef> + +QT_BEGIN_NAMESPACE + +#define QT_DTLS_VERBOSE 0 + +#if QT_DTLS_VERBOSE + +#define qDtlsWarning(arg) qWarning(arg) +#define qDtlsDebug(arg) qDebug(arg) + +#else + +#define qDtlsWarning(arg) +#define qDtlsDebug(arg) + +#endif // QT_DTLS_VERBOSE + +namespace dtlsutil +{ + +QByteArray cookie_for_peer(SSL *ssl) +{ + Q_ASSERT(ssl); + + // SSL_get_rbio does not increment the reference count + BIO *readBIO = q_SSL_get_rbio(ssl); + if (!readBIO) { + qCWarning(lcTlsBackend, "No BIO (dgram) found in SSL object"); + return {}; + } + + auto listener = static_cast<dtlsopenssl::DtlsState *>(q_BIO_get_app_data(readBIO)); + if (!listener) { + qCWarning(lcTlsBackend, "BIO_get_app_data returned invalid (nullptr) value"); + return {}; + } + + const QHostAddress peerAddress(listener->remoteAddress); + const quint16 peerPort(listener->remotePort); + QByteArray peerData; + if (peerAddress.protocol() == QAbstractSocket::IPv6Protocol) { + const Q_IPV6ADDR sin6_addr(peerAddress.toIPv6Address()); + peerData.resize(int(sizeof sin6_addr + sizeof peerPort)); + char *dst = peerData.data(); + std::memcpy(dst, &peerPort, sizeof peerPort); + dst += sizeof peerPort; + std::memcpy(dst, &sin6_addr, sizeof sin6_addr); + } else if (peerAddress.protocol() == QAbstractSocket::IPv4Protocol) { + const quint32 sin_addr(peerAddress.toIPv4Address()); + peerData.resize(int(sizeof sin_addr + sizeof peerPort)); + char *dst = peerData.data(); + std::memcpy(dst, &peerPort, sizeof peerPort); + dst += sizeof peerPort; + std::memcpy(dst, &sin_addr, sizeof sin_addr); + } else { + Q_UNREACHABLE(); + } + + return peerData; +} + +struct FallbackCookieSecret +{ + FallbackCookieSecret() + { + key.resize(32); + const int status = q_RAND_bytes(reinterpret_cast<unsigned char *>(key.data()), + key.size()); + if (status <= 0) + key.clear(); + } + + QByteArray key; + + Q_DISABLE_COPY_MOVE(FallbackCookieSecret) +}; + +QByteArray fallbackSecret() +{ + static const FallbackCookieSecret generator; + return generator.key; +} + +int next_timeoutMs(SSL *tlsConnection) +{ + Q_ASSERT(tlsConnection); + timeval timeLeft = {}; + q_DTLSv1_get_timeout(tlsConnection, &timeLeft); + return timeLeft.tv_sec * 1000; +} + + +void delete_connection(SSL *ssl) +{ + // The 'deleter' for QSharedPointer<SSL>. + if (ssl) + q_SSL_free(ssl); +} + +void delete_BIO_ADDR(BIO_ADDR *bio) +{ + // A deleter for QSharedPointer<BIO_ADDR> + if (bio) + q_BIO_ADDR_free(bio); +} + +void delete_bio_method(BIO_METHOD *method) +{ + // The 'deleter' for QSharedPointer<BIO_METHOD>. + if (method) + q_BIO_meth_free(method); +} + +// The path MTU discovery is non-trivial: it's a mix of getsockopt/setsockopt +// (IP_MTU/IP6_MTU/IP_MTU_DISCOVER) and fallback MTU values. It's not +// supported on all platforms, worse so - imposes specific requirements on +// underlying UDP socket etc. So for now, we either try a user-proposed MTU +// hint or rely on our own fallback value. As a fallback mtu OpenSSL uses 576 +// for IPv4 and 1280 for IPv6 (RFC 791, RFC 2460). To KIS we use 576. This +// rather small MTU value does not affect the size that can be read/written +// by QDtls, only a handshake (which is allowed to fragment). +enum class MtuGuess : long +{ + defaultMtu = 576 +}; + +} // namespace dtlsutil + +namespace dtlscallbacks +{ + +extern "C" int q_generate_cookie_callback(SSL *ssl, unsigned char *dst, + unsigned *cookieLength) +{ + if (!ssl || !dst || !cookieLength) { + qCWarning(lcTlsBackend, + "Failed to generate cookie - invalid (nullptr) parameter(s)"); + return 0; + } + + void *generic = q_SSL_get_ex_data(ssl, QTlsBackendOpenSSL::s_indexForSSLExtraData); + if (!generic) { + qCWarning(lcTlsBackend, "SSL_get_ex_data returned nullptr, cannot generate cookie"); + return 0; + } + + *cookieLength = 0; + + auto dtls = static_cast<dtlsopenssl::DtlsState *>(generic); + if (!dtls->secret.size()) + return 0; + + const QByteArray peerData(dtlsutil::cookie_for_peer(ssl)); + if (!peerData.size()) + return 0; + + QMessageAuthenticationCode hmac(dtls->hashAlgorithm, dtls->secret); + hmac.addData(peerData); + const QByteArrayView cookie = hmac.resultView(); + Q_ASSERT(cookie.size() >= 0); + // DTLS1_COOKIE_LENGTH is erroneously 256 bytes long, must be 255 - RFC 6347, 4.2.1. + *cookieLength = qMin(DTLS1_COOKIE_LENGTH - 1, cookie.size()); + std::memcpy(dst, cookie.constData(), *cookieLength); + + return 1; +} + +extern "C" int q_verify_cookie_callback(SSL *ssl, const unsigned char *cookie, + unsigned cookieLength) +{ + if (!ssl || !cookie || !cookieLength) { + qCWarning(lcTlsBackend, "Could not verify cookie, invalid (nullptr or zero) parameters"); + return 0; + } + + unsigned char newCookie[DTLS1_COOKIE_LENGTH] = {}; + unsigned newCookieLength = 0; + if (q_generate_cookie_callback(ssl, newCookie, &newCookieLength) != 1) + return 0; + + return newCookieLength == cookieLength + && !q_CRYPTO_memcmp(cookie, newCookie, size_t(cookieLength)); +} + +extern "C" int q_X509DtlsCallback(int ok, X509_STORE_CTX *ctx) +{ + if (!ok) { + // Store the error and at which depth the error was detected. + SSL *ssl = static_cast<SSL *>(q_X509_STORE_CTX_get_ex_data(ctx, q_SSL_get_ex_data_X509_STORE_CTX_idx())); + if (!ssl) { + qCWarning(lcTlsBackend, "X509_STORE_CTX_get_ex_data returned nullptr, handshake failure"); + return 0; + } + + void *generic = q_SSL_get_ex_data(ssl, QTlsBackendOpenSSL::s_indexForSSLExtraData); + if (!generic) { + qCWarning(lcTlsBackend, "SSL_get_ex_data returned nullptr, handshake failure"); + return 0; + } + + auto dtls = static_cast<dtlsopenssl::DtlsState *>(generic); + dtls->x509Errors.append(QTlsPrivate::X509CertificateOpenSSL::errorEntryFromStoreContext(ctx)); + } + + // Always return 1 (OK) to allow verification to continue. We handle the + // errors gracefully after collecting all errors, after verification has + // completed. + return 1; +} + +extern "C" unsigned q_PSK_client_callback(SSL *ssl, const char *hint, char *identity, + unsigned max_identity_len, unsigned char *psk, + unsigned max_psk_len) +{ + auto *dtls = static_cast<dtlsopenssl::DtlsState *>(q_SSL_get_ex_data(ssl, + QTlsBackendOpenSSL::s_indexForSSLExtraData)); + if (!dtls) + return 0; + + Q_ASSERT(dtls->dtlsPrivate); + return dtls->dtlsPrivate->pskClientCallback(hint, identity, max_identity_len, psk, max_psk_len); +} + +extern "C" unsigned q_PSK_server_callback(SSL *ssl, const char *identity, unsigned char *psk, + unsigned max_psk_len) +{ + auto *dtls = static_cast<dtlsopenssl::DtlsState *>(q_SSL_get_ex_data(ssl, + QTlsBackendOpenSSL::s_indexForSSLExtraData)); + if (!dtls) + return 0; + + Q_ASSERT(dtls->dtlsPrivate); + return dtls->dtlsPrivate->pskServerCallback(identity, psk, max_psk_len); +} + +} // namespace dtlscallbacks + +namespace dtlsbio +{ + +extern "C" int q_dgram_read(BIO *bio, char *dst, int bytesToRead) +{ + if (!bio || !dst || bytesToRead <= 0) { + qCWarning(lcTlsBackend, "invalid input parameter(s)"); + return 0; + } + + q_BIO_clear_retry_flags(bio); + + auto dtls = static_cast<dtlsopenssl::DtlsState *>(q_BIO_get_app_data(bio)); + // It's us who set data, if OpenSSL does too, the logic here is wrong + // then and we have to use BIO_set_app_data then! + Q_ASSERT(dtls); + int bytesRead = 0; + if (dtls->dgram.size()) { + bytesRead = qMin(dtls->dgram.size(), bytesToRead); + std::memcpy(dst, dtls->dgram.constData(), bytesRead); + + if (!dtls->peeking) + dtls->dgram = dtls->dgram.mid(bytesRead); + } else { + bytesRead = -1; + } + + if (bytesRead <= 0) + q_BIO_set_retry_read(bio); + + return bytesRead; +} + +extern "C" int q_dgram_write(BIO *bio, const char *src, int bytesToWrite) +{ + if (!bio || !src || bytesToWrite <= 0) { + qCWarning(lcTlsBackend, "invalid input parameter(s)"); + return 0; + } + + q_BIO_clear_retry_flags(bio); + + auto dtls = static_cast<dtlsopenssl::DtlsState *>(q_BIO_get_app_data(bio)); + Q_ASSERT(dtls); + if (dtls->writeSuppressed) { + // See the comment in QDtls::startHandshake. + return bytesToWrite; + } + + QUdpSocket *udpSocket = dtls->udpSocket; + Q_ASSERT(udpSocket); + + const QByteArray dgram(QByteArray::fromRawData(src, bytesToWrite)); + qint64 bytesWritten = -1; + if (udpSocket->state() == QAbstractSocket::ConnectedState) { + bytesWritten = udpSocket->write(dgram); + } else { + bytesWritten = udpSocket->writeDatagram(dgram, dtls->remoteAddress, + dtls->remotePort); + } + + if (bytesWritten <= 0) + q_BIO_set_retry_write(bio); + + Q_ASSERT(bytesWritten <= std::numeric_limits<int>::max()); + return int(bytesWritten); +} + +extern "C" int q_dgram_puts(BIO *bio, const char *src) +{ + if (!bio || !src) { + qCWarning(lcTlsBackend, "invalid input parameter(s)"); + return 0; + } + + return q_dgram_write(bio, src, int(std::strlen(src))); +} + +extern "C" long q_dgram_ctrl(BIO *bio, int cmd, long num, void *ptr) +{ + // This is our custom BIO_ctrl. bio.h defines a lot of BIO_CTRL_* + // and BIO_* constants and BIO_somename macros that expands to BIO_ctrl + // call with one of those constants as argument. What exactly BIO_ctrl + // does - depends on the 'cmd' and the type of BIO (so BIO_ctrl does + // not even have a single well-defined value meaning success or failure). + // We handle only the most generic commands - the ones documented for + // BIO_ctrl - and also DGRAM specific ones. And even for them - in most + // cases we do nothing but report a success or some non-error value. + // Documents also state: "Source/sink BIOs return an 0 if they do not + // recognize the BIO_ctrl() operation." - these are covered by 'default' + // label in the switch-statement below. Debug messages in the switch mean: + // 1) we got a command that is unexpected for dgram BIO, or: + // 2) we do not call any function that would lead to OpenSSL using this + // command. + + if (!bio) { + qDebug(lcTlsBackend, "invalid 'bio' parameter (nullptr)"); + return -1; + } + + auto dtls = static_cast<dtlsopenssl::DtlsState *>(q_BIO_get_app_data(bio)); + Q_ASSERT(dtls); + + switch (cmd) { + // Let's start from the most generic ones, in the order in which they are + // documented (as BIO_ctrl): + case BIO_CTRL_RESET: + // BIO_reset macro. + // From documentation: + // "BIO_reset() normally returns 1 for success and 0 or -1 for failure. + // File BIOs are an exception, they return 0 for success and -1 for + // failure." + // We have nothing to reset and we are not file BIO. + return 1; + case BIO_C_FILE_SEEK: + case BIO_C_FILE_TELL: + qDtlsWarning("Unexpected cmd (BIO_C_FILE_SEEK/BIO_C_FILE_TELL)"); + // These are for BIO_seek, BIO_tell. We are not a file BIO. + // Non-negative return value means success. + return 0; + case BIO_CTRL_FLUSH: + // BIO_flush, nothing to do, we do not buffer any data. + // 0 or -1 means error, 1 - success. + return 1; + case BIO_CTRL_EOF: + qDtlsWarning("Unexpected cmd (BIO_CTRL_EOF)"); + // BIO_eof, 1 means EOF read. Makes no sense for us. + return 0; + case BIO_CTRL_SET_CLOSE: + // BIO_set_close with BIO_CLOSE/BIO_NOCLOSE flags. Documented as + // always returning 1. + // From the documentation: + // "Typically BIO_CLOSE is used in a source/sink BIO to indicate that + // the underlying I/O stream should be closed when the BIO is freed." + // + // QUdpSocket we work with is not BIO's business, ignoring. + return 1; + case BIO_CTRL_GET_CLOSE: + // BIO_get_close. No, never, see the comment above. + return 0; + case BIO_CTRL_PENDING: + qDtlsWarning("Unexpected cmd (BIO_CTRL_PENDING)"); + // BIO_pending. Not used by DTLS/OpenSSL (we are not buffering). + return 0; + case BIO_CTRL_WPENDING: + // No, we have nothing buffered. + return 0; + // The constants below are not documented as a part BIO_ctrl documentation, + // but they are also not type-specific. + case BIO_CTRL_DUP: + qDtlsWarning("Unexpected cmd (BIO_CTRL_DUP)"); + // BIO_dup_state, not used by DTLS (and socket-related BIOs in general). + // For some very specific BIO type this 'cmd' would copy some state + // from 'bio' to (BIO*)'ptr'. 1 means success. + return 0; + case BIO_CTRL_SET_CALLBACK: + qDtlsWarning("Unexpected cmd (BIO_CTRL_SET_CALLBACK)"); + // BIO_set_info_callback. We never call this, OpenSSL does not do this + // on its own (normally it's used if client code wants to have some + // debug information, for example, dumping handshake state via + // BIO_printf from SSL info_callback). + return 0; + case BIO_CTRL_GET_CALLBACK: + qDtlsWarning("Unexpected cmd (BIO_CTRL_GET_CALLBACK)"); + // BIO_get_info_callback. We never call this. + if (ptr) + *static_cast<bio_info_cb **>(ptr) = nullptr; + return 0; + case BIO_CTRL_SET: + case BIO_CTRL_GET: + qDtlsWarning("Unexpected cmd (BIO_CTRL_SET/BIO_CTRL_GET)"); + // Somewhat 'documented' as setting/getting IO type. Not used anywhere + // except BIO_buffer_get_num_lines (which contradics 'get IO type'). + // Ignoring. + return 0; + // DGRAM-specific operation, we have to return some reasonable value + // (so far, I've encountered only peek mode switching, connect). + case BIO_CTRL_DGRAM_CONNECT: + // BIO_ctrl_dgram_connect. Not needed. Our 'dtls' already knows + // the peer's address/port. Report success though. + return 1; + case BIO_CTRL_DGRAM_SET_CONNECTED: + qDtlsWarning("Unexpected cmd (BIO_CTRL_DGRAM_SET_CONNECTED)"); + // BIO_ctrl_dgram_set_connected. We never call it, OpenSSL does + // not call it on its own (so normally it's done by client code). + // Similar to BIO_CTRL_DGRAM_CONNECT, but it also informs the BIO + // that its UDP socket is connected. We never need it though. + return -1; + case BIO_CTRL_DGRAM_SET_RECV_TIMEOUT: + qDtlsWarning("Unexpected cmd (BIO_CTRL_DGRAM_SET_RECV_TIMEOUT)"); + // Essentially setsockopt with SO_RCVTIMEO, not needed, our sockets + // are non-blocking. + return -1; + case BIO_CTRL_DGRAM_GET_RECV_TIMEOUT: + qDtlsWarning("Unexpected cmd (BIO_CTRL_DGRAM_GET_RECV_TIMEOUT)"); + // getsockopt with SO_RCVTIMEO, not needed, our sockets are + // non-blocking. ptr is timeval *. + return -1; + case BIO_CTRL_DGRAM_SET_SEND_TIMEOUT: + qDtlsWarning("Unexpected cmd (BIO_CTRL_DGRAM_SET_SEND_TIMEOUT)"); + // setsockopt, SO_SNDTIMEO, cannot happen. + return -1; + case BIO_CTRL_DGRAM_GET_SEND_TIMEOUT: + qDtlsWarning("Unexpected cmd (BIO_CTRL_DGRAM_GET_SEND_TIMEOUT)"); + // getsockopt, SO_SNDTIMEO, cannot happen. + return -1; + case BIO_CTRL_DGRAM_GET_RECV_TIMER_EXP: + // BIO_dgram_recv_timedout. No, we are non-blocking. + return 0; + case BIO_CTRL_DGRAM_GET_SEND_TIMER_EXP: + // BIO_dgram_send_timedout. No, we are non-blocking. + return 0; + case BIO_CTRL_DGRAM_MTU_DISCOVER: + qDtlsWarning("Unexpected cmd (BIO_CTRL_DGRAM_MTU_DISCOVER)"); + // setsockopt, IP_MTU_DISCOVER/IP6_MTU_DISCOVER, to be done + // in QUdpSocket instead. OpenSSL never calls it, only client + // code. + return 1; + case BIO_CTRL_DGRAM_QUERY_MTU: + qDtlsWarning("Unexpected cmd (BIO_CTRL_DGRAM_QUERY_MTU)"); + // To be done in QUdpSocket instead. + return 1; + case BIO_CTRL_DGRAM_GET_FALLBACK_MTU: + qDtlsWarning("Unexpected command *BIO_CTRL_DGRAM_GET_FALLBACK_MTU)"); + // Without SSL_OP_NO_QUERY_MTU set on SSL, OpenSSL can request for + // fallback MTU after several re-transmissions. + // Should never happen in our case. + return long(dtlsutil::MtuGuess::defaultMtu); + case BIO_CTRL_DGRAM_GET_MTU: + qDtlsWarning("Unexpected cmd (BIO_CTRL_DGRAM_GET_MTU)"); + return -1; + case BIO_CTRL_DGRAM_SET_MTU: + qDtlsWarning("Unexpected cmd (BIO_CTRL_DGRAM_SET_MTU)"); + // Should not happen (we don't call BIO_ctrl with this parameter) + // and set MTU on SSL instead. + return -1; // num is mtu and it's a return value meaning success. + case BIO_CTRL_DGRAM_MTU_EXCEEDED: + qDtlsWarning("Unexpected cmd (BIO_CTRL_DGRAM_MTU_EXCEEDED)"); + return 0; + case BIO_CTRL_DGRAM_GET_PEER: + qDtlsDebug("BIO_CTRL_DGRAM_GET_PEER"); + // BIO_dgram_get_peer. We do not return a real address (DTLS is not + // using this address), but let's pretend a success. + switch (dtls->remoteAddress.protocol()) { + case QAbstractSocket::IPv6Protocol: + return sizeof(sockaddr_in6); + case QAbstractSocket::IPv4Protocol: + return sizeof(sockaddr_in); + default: + return -1; + } + case BIO_CTRL_DGRAM_SET_PEER: + // Similar to BIO_CTRL_DGRAM_CONNECTED. + return 1; + case BIO_CTRL_DGRAM_SET_NEXT_TIMEOUT: + // DTLSTODO: I'm not sure yet, how it's used by OpenSSL. + return 1; + case BIO_CTRL_DGRAM_SET_DONT_FRAG: + qDtlsDebug("BIO_CTRL_DGRAM_SET_DONT_FRAG"); + // To be done in QUdpSocket, it's about IP_DONTFRAG etc. + return 1; + case BIO_CTRL_DGRAM_GET_MTU_OVERHEAD: + // AFAIK it's 28 for IPv4 and 48 for IPv6, but let's pretend it's 0 + // so that OpenSSL does not start suddenly fragmenting the first + // client hello (which will result in DTLSv1_listen rejecting it). + return 0; + case BIO_CTRL_DGRAM_SET_PEEK_MODE: + dtls->peeking = num; + return 1; + default:; +#if QT_DTLS_VERBOSE + qWarning() << "Unexpected cmd (" << cmd << ")"; +#endif + } + + return 0; +} + +extern "C" int q_dgram_create(BIO *bio) +{ + + q_BIO_set_init(bio, 1); + // With a custom BIO you'd normally allocate some implementation-specific + // data and append it to this new BIO using BIO_set_data. We don't need + // it and thus q_dgram_destroy below is a noop. + return 1; +} + +extern "C" int q_dgram_destroy(BIO *bio) +{ + Q_UNUSED(bio); + return 1; +} + +const char * const qdtlsMethodName = "qdtlsbio"; + +} // namespace dtlsbio + +namespace dtlsopenssl +{ + +bool DtlsState::init(QDtlsBasePrivate *dtlsBase, QUdpSocket *socket, + const QHostAddress &remote, quint16 port, + const QByteArray &receivedMessage) +{ + Q_ASSERT(dtlsBase); + Q_ASSERT(socket); + + if (!tlsContext && !initTls(dtlsBase)) + return false; + + udpSocket = socket; + + setLinkMtu(dtlsBase); + + dgram = receivedMessage; + remoteAddress = remote; + remotePort = port; + + // SSL_get_rbio does not increment a reference count. + BIO *bio = q_SSL_get_rbio(tlsConnection.data()); + Q_ASSERT(bio); + q_BIO_set_app_data(bio, this); + + return true; +} + +void DtlsState::reset() +{ + tlsConnection.reset(); + tlsContext.reset(); +} + +bool DtlsState::initTls(QDtlsBasePrivate *dtlsBase) +{ + if (tlsContext) + return true; + + if (!QSslSocket::supportsSsl()) + return false; + + if (!initCtxAndConnection(dtlsBase)) + return false; + + if (!initBIO(dtlsBase)) { + tlsConnection.reset(); + tlsContext.reset(); + return false; + } + + return true; +} + +static QString msgFunctionFailed(const char *function) +{ + //: %1: Some function + return QDtls::tr("%1 failed").arg(QLatin1StringView(function)); +} + +bool DtlsState::initCtxAndConnection(QDtlsBasePrivate *dtlsBase) +{ + Q_ASSERT(dtlsBase); + Q_ASSERT(QSslSocket::supportsSsl()); + + if (dtlsBase->mode == QSslSocket::UnencryptedMode) { + dtlsBase->setDtlsError(QDtlsError::TlsInitializationError, + QDtls::tr("Invalid SslMode, SslServerMode or SslClientMode expected")); + return false; + } + + if (!QDtlsBasePrivate::isDtlsProtocol(dtlsBase->dtlsConfiguration.protocol())) { + dtlsBase->setDtlsError(QDtlsError::TlsInitializationError, + QDtls::tr("Invalid protocol version, DTLS protocol expected")); + return false; + } + + const bool rootsOnDemand = QTlsBackend::rootLoadingOnDemandAllowed(dtlsBase->dtlsConfiguration); + TlsContext newContext(QSslContext::sharedFromConfiguration(dtlsBase->mode, dtlsBase->dtlsConfiguration, + rootsOnDemand)); + + if (newContext->error() != QSslError::NoError) { + dtlsBase->setDtlsError(QDtlsError::TlsInitializationError, newContext->errorString()); + return false; + } + + TlsConnection newConnection(newContext->createSsl(), dtlsutil::delete_connection); + if (!newConnection.data()) { + dtlsBase->setDtlsError(QDtlsError::TlsInitializationError, + msgFunctionFailed("SSL_new")); + return false; + } + + const int set = q_SSL_set_ex_data(newConnection.data(), + QTlsBackendOpenSSL::s_indexForSSLExtraData, + this); + + if (set != 1 && dtlsBase->dtlsConfiguration.peerVerifyMode() != QSslSocket::VerifyNone) { + dtlsBase->setDtlsError(QDtlsError::TlsInitializationError, + msgFunctionFailed("SSL_set_ex_data")); + return false; + } + + if (dtlsBase->mode == QSslSocket::SslServerMode) { + if (dtlsBase->dtlsConfiguration.dtlsCookieVerificationEnabled()) + q_SSL_set_options(newConnection.data(), SSL_OP_COOKIE_EXCHANGE); + q_SSL_set_psk_server_callback(newConnection.data(), dtlscallbacks::q_PSK_server_callback); + } else { + q_SSL_set_psk_client_callback(newConnection.data(), dtlscallbacks::q_PSK_client_callback); + } + + tlsContext.swap(newContext); + tlsConnection.swap(newConnection); + + return true; +} + +bool DtlsState::initBIO(QDtlsBasePrivate *dtlsBase) +{ + Q_ASSERT(dtlsBase); + Q_ASSERT(tlsContext && tlsConnection); + + BioMethod customMethod(q_BIO_meth_new(BIO_TYPE_DGRAM, dtlsbio::qdtlsMethodName), + dtlsutil::delete_bio_method); + if (!customMethod.data()) { + dtlsBase->setDtlsError(QDtlsError::TlsInitializationError, + msgFunctionFailed("BIO_meth_new")); + return false; + } + + BIO_METHOD *biom = customMethod.data(); + q_BIO_meth_set_create(biom, dtlsbio::q_dgram_create); + q_BIO_meth_set_destroy(biom, dtlsbio::q_dgram_destroy); + q_BIO_meth_set_read(biom, dtlsbio::q_dgram_read); + q_BIO_meth_set_write(biom, dtlsbio::q_dgram_write); + q_BIO_meth_set_puts(biom, dtlsbio::q_dgram_puts); + q_BIO_meth_set_ctrl(biom, dtlsbio::q_dgram_ctrl); + + BIO *bio = q_BIO_new(biom); + if (!bio) { + dtlsBase->setDtlsError(QDtlsError::TlsInitializationError, + msgFunctionFailed("BIO_new")); + return false; + } + + q_SSL_set_bio(tlsConnection.data(), bio, bio); + + bioMethod.swap(customMethod); + + return true; +} + +void DtlsState::setLinkMtu(QDtlsBasePrivate *dtlsBase) +{ + Q_ASSERT(dtlsBase); + Q_ASSERT(udpSocket); + Q_ASSERT(tlsConnection.data()); + + long mtu = dtlsBase->mtuHint; + if (!mtu) { + // If the underlying QUdpSocket was connected, getsockopt with + // IP_MTU/IP6_MTU can give us some hint: + bool optionFound = false; + if (udpSocket->state() == QAbstractSocket::ConnectedState) { + const QVariant val(udpSocket->socketOption(QAbstractSocket::PathMtuSocketOption)); + if (val.isValid() && val.canConvert<int>()) + mtu = val.toInt(&optionFound); + } + + if (!optionFound || mtu <= 0) { + // OK, our own initial guess. + mtu = long(dtlsutil::MtuGuess::defaultMtu); + } + } + + // For now, we disable this option. + q_SSL_set_options(tlsConnection.data(), SSL_OP_NO_QUERY_MTU); + + q_DTLS_set_link_mtu(tlsConnection.data(), mtu); +} + +} // namespace dtlsopenssl + +QDtlsClientVerifierOpenSSL::QDtlsClientVerifierOpenSSL() + : QDtlsBasePrivate(QSslSocket::SslServerMode, dtlsutil::fallbackSecret()) +{ +} + +bool QDtlsClientVerifierOpenSSL::verifyClient(QUdpSocket *socket, const QByteArray &dgram, + const QHostAddress &address, quint16 port) +{ + Q_ASSERT(socket); + Q_ASSERT(dgram.size()); + Q_ASSERT(!address.isNull()); + Q_ASSERT(port); + + clearDtlsError(); + verifiedClientHello.clear(); + + if (!dtls.init(this, socket, address, port, dgram)) + return false; + + dtls.secret = secret; + dtls.hashAlgorithm = hashAlgorithm; + + Q_ASSERT(dtls.tlsConnection.data()); + QSharedPointer<BIO_ADDR> peer(q_BIO_ADDR_new(), dtlsutil::delete_BIO_ADDR); + if (!peer.data()) { + setDtlsError(QDtlsError::TlsInitializationError, + QDtlsClientVerifier::tr("BIO_ADDR_new failed, ignoring client hello")); + return false; + } + + const int ret = q_DTLSv1_listen(dtls.tlsConnection.data(), peer.data()); + if (ret < 0) { + // Since 1.1 - it's a fatal error (not so in 1.0.2 for non-blocking socket) + setDtlsError(QDtlsError::TlsFatalError, QTlsBackendOpenSSL::getErrorsFromOpenSsl()); + return false; + } + + if (ret > 0) { + verifiedClientHello = dgram; + return true; + } + + return false; +} + +QByteArray QDtlsClientVerifierOpenSSL::verifiedHello() const +{ + return verifiedClientHello; +} + +void QDtlsPrivateOpenSSL::TimeoutHandler::start(int hintMs) +{ + Q_ASSERT(timerId == -1); + timerId = startTimer(hintMs > 0 ? hintMs : timeoutMs, Qt::PreciseTimer); +} + +void QDtlsPrivateOpenSSL::TimeoutHandler::doubleTimeout() +{ + if (timeoutMs * 2 < 60000) + timeoutMs *= 2; + else + timeoutMs = 60000; +} + +void QDtlsPrivateOpenSSL::TimeoutHandler::stop() +{ + if (timerId != -1) { + killTimer(timerId); + timerId = -1; + } +} + +void QDtlsPrivateOpenSSL::TimeoutHandler::timerEvent(QTimerEvent *event) +{ + Q_UNUSED(event); + Q_ASSERT(timerId != -1); + + killTimer(timerId); + timerId = -1; + + Q_ASSERT(dtlsConnection); + dtlsConnection->reportTimeout(); +} + +QDtlsPrivateOpenSSL::QDtlsPrivateOpenSSL(QDtls *qObject, QSslSocket::SslMode side) + : QDtlsBasePrivate(side, dtlsutil::fallbackSecret()), q(qObject) +{ + Q_ASSERT(qObject); + + dtls.dtlsPrivate = this; +} + +QSslSocket::SslMode QDtlsPrivateOpenSSL::cryptographMode() const +{ + return mode; +} + +void QDtlsPrivateOpenSSL::setPeer(const QHostAddress &addr, quint16 port, const QString &name) +{ + remoteAddress = addr; + remotePort = port; + peerVfyName = name; +} + +QHostAddress QDtlsPrivateOpenSSL::peerAddress() const +{ + return remoteAddress; +} + +quint16 QDtlsPrivateOpenSSL::peerPort() const +{ + return remotePort; +} + +void QDtlsPrivateOpenSSL::setPeerVerificationName(const QString &name) +{ + peerVfyName = name; +} + +QString QDtlsPrivateOpenSSL::peerVerificationName() const +{ + return peerVfyName; +} + +void QDtlsPrivateOpenSSL::setDtlsMtuHint(quint16 mtu) +{ + mtuHint = mtu; +} + +quint16 QDtlsPrivateOpenSSL::dtlsMtuHint() const +{ + return mtuHint; +} + +QDtls::HandshakeState QDtlsPrivateOpenSSL::state() const +{ + return handshakeState; +} + +bool QDtlsPrivateOpenSSL::isConnectionEncrypted() const +{ + return connectionEncrypted; +} + +bool QDtlsPrivateOpenSSL::startHandshake(QUdpSocket *socket, const QByteArray &dgram) +{ + Q_ASSERT(socket); + Q_ASSERT(handshakeState == QDtls::HandshakeNotStarted); + + clearDtlsError(); + connectionEncrypted = false; + + if (!dtls.init(this, socket, remoteAddress, remotePort, dgram)) + return false; + + if (mode == QSslSocket::SslServerMode && dtlsConfiguration.dtlsCookieVerificationEnabled()) { + dtls.secret = secret; + dtls.hashAlgorithm = hashAlgorithm; + // Let's prepare the state machine so that message sequence 1 does not + // surprise DTLS/OpenSSL (such a message would be disregarded as + // 'stale or future' in SSL_accept otherwise): + int result = 0; + QSharedPointer<BIO_ADDR> peer(q_BIO_ADDR_new(), dtlsutil::delete_BIO_ADDR); + if (!peer.data()) { + setDtlsError(QDtlsError::TlsInitializationError, + QDtls::tr("BIO_ADD_new failed, cannot start handshake")); + return false; + } + + // If it's an invalid/unexpected ClientHello, we don't want to send + // VerifyClientRequest - it's a job of QDtlsClientVerifier - so we + // suppress any attempts to write into socket: + dtls.writeSuppressed = true; + result = q_DTLSv1_listen(dtls.tlsConnection.data(), peer.data()); + dtls.writeSuppressed = false; + + if (result <= 0) { + setDtlsError(QDtlsError::TlsFatalError, + QDtls::tr("Cannot start the handshake, verified client hello expected")); + dtls.reset(); + return false; + } + } + + handshakeState = QDtls::HandshakeInProgress; + opensslErrors.clear(); + tlsErrors.clear(); + + return continueHandshake(socket, dgram); +} + +bool QDtlsPrivateOpenSSL::continueHandshake(QUdpSocket *socket, const QByteArray &dgram) +{ + Q_ASSERT(socket); + + Q_ASSERT(handshakeState == QDtls::HandshakeInProgress); + + clearDtlsError(); + + if (timeoutHandler.data()) + timeoutHandler->stop(); + + if (!dtls.init(this, socket, remoteAddress, remotePort, dgram)) + return false; + + dtls.x509Errors.clear(); + + int result = 0; + if (mode == QSslSocket::SslServerMode) + result = q_SSL_accept(dtls.tlsConnection.data()); + else + result = q_SSL_connect(dtls.tlsConnection.data()); + + // DTLSTODO: Investigate/test if it makes sense - QSslSocket can emit + // peerVerifyError at this point (and thus potentially client code + // will close the underlying TCP connection immediately), but we are using + // QUdpSocket, no connection to close, our verification callback returns 1 + // (verified OK) and this probably means OpenSSL has already sent a reply + // to the server's hello/certificate. + + opensslErrors << dtls.x509Errors; + + if (result <= 0) { + const auto code = q_SSL_get_error(dtls.tlsConnection.data(), result); + switch (code) { + case SSL_ERROR_WANT_READ: + case SSL_ERROR_WANT_WRITE: + // DTLSTODO: to be tested - in principle, if it was the first call to + // continueHandshake and server for some reason discards the client + // hello message (even the verified one) - our 'this' will probably + // forever stay in this strange InProgress state? (the client + // will dully re-transmit the same hello and we discard it again?) + // SSL_get_state can provide more information about state + // machine and we can switch to NotStarted (since we have not + // replied with our hello ...) + if (!timeoutHandler.data()) { + timeoutHandler.reset(new TimeoutHandler); + timeoutHandler->dtlsConnection = this; + } else { + // Back to 1s. + timeoutHandler->resetTimeout(); + } + + timeoutHandler->start(); + + return true; // The handshake is not yet complete. + default: + storePeerCertificates(); + setDtlsError(QDtlsError::TlsFatalError, + QTlsBackendOpenSSL::msgErrorsDuringHandshake()); + dtls.reset(); + handshakeState = QDtls::HandshakeNotStarted; + return false; + } + } + + storePeerCertificates(); + fetchNegotiatedParameters(); + + const bool doVerifyPeer = dtlsConfiguration.peerVerifyMode() == QSslSocket::VerifyPeer + || (dtlsConfiguration.peerVerifyMode() == QSslSocket::AutoVerifyPeer + && mode == QSslSocket::SslClientMode); + + if (!doVerifyPeer || verifyPeer() || tlsErrorsWereIgnored()) { + connectionEncrypted = true; + handshakeState = QDtls::HandshakeComplete; + return true; + } + + setDtlsError(QDtlsError::PeerVerificationError, QDtls::tr("Peer verification failed")); + handshakeState = QDtls::PeerVerificationFailed; + return false; +} + + +bool QDtlsPrivateOpenSSL::handleTimeout(QUdpSocket *socket) +{ + Q_ASSERT(socket); + + Q_ASSERT(timeoutHandler.data()); + Q_ASSERT(dtls.tlsConnection.data()); + + clearDtlsError(); + + dtls.udpSocket = socket; + + if (q_DTLSv1_handle_timeout(dtls.tlsConnection.data()) > 0) { + timeoutHandler->doubleTimeout(); + timeoutHandler->start(); + } else { + timeoutHandler->start(dtlsutil::next_timeoutMs(dtls.tlsConnection.data())); + } + + return true; +} + +bool QDtlsPrivateOpenSSL::resumeHandshake(QUdpSocket *socket) +{ + Q_UNUSED(socket); + Q_ASSERT(socket); + Q_ASSERT(handshakeState == QDtls::PeerVerificationFailed); + + clearDtlsError(); + + if (tlsErrorsWereIgnored()) { + handshakeState = QDtls::HandshakeComplete; + connectionEncrypted = true; + tlsErrors.clear(); + tlsErrorsToIgnore.clear(); + return true; + } + + return false; +} + +void QDtlsPrivateOpenSSL::abortHandshake(QUdpSocket *socket) +{ + Q_ASSERT(socket); + Q_ASSERT(handshakeState == QDtls::PeerVerificationFailed + || handshakeState == QDtls::HandshakeInProgress); + + clearDtlsError(); + + if (handshakeState == QDtls::PeerVerificationFailed) { + // Yes, while peer verification failed, we were actually encrypted. + // Let's play it nice - inform our peer about connection shut down. + sendShutdownAlert(socket); + } else { + resetDtls(); + } +} + +void QDtlsPrivateOpenSSL::sendShutdownAlert(QUdpSocket *socket) +{ + Q_ASSERT(socket); + + clearDtlsError(); + + if (connectionEncrypted && !connectionWasShutdown) { + dtls.udpSocket = socket; + Q_ASSERT(dtls.tlsConnection.data()); + q_SSL_shutdown(dtls.tlsConnection.data()); + } + + resetDtls(); +} + +QList<QSslError> QDtlsPrivateOpenSSL::peerVerificationErrors() const +{ + return tlsErrors; +} + +void QDtlsPrivateOpenSSL::ignoreVerificationErrors(const QList<QSslError> &errorsToIgnore) +{ + tlsErrorsToIgnore = errorsToIgnore; +} + +QSslCipher QDtlsPrivateOpenSSL::dtlsSessionCipher() const +{ + return sessionCipher; +} + +QSsl::SslProtocol QDtlsPrivateOpenSSL::dtlsSessionProtocol() const +{ + return sessionProtocol; +} + +qint64 QDtlsPrivateOpenSSL::writeDatagramEncrypted(QUdpSocket *socket, + const QByteArray &dgram) +{ + Q_ASSERT(socket); + Q_ASSERT(dtls.tlsConnection.data()); + Q_ASSERT(connectionEncrypted); + + clearDtlsError(); + + dtls.udpSocket = socket; + const int written = q_SSL_write(dtls.tlsConnection.data(), + dgram.constData(), dgram.size()); + if (written > 0) + return written; + + const unsigned long errorCode = q_ERR_get_error(); + if (!dgram.size() && errorCode == SSL_ERROR_NONE) { + // With OpenSSL <= 1.1 this can happen. For example, DTLS client + // tries to reconnect (while re-using the same address/port) - + // DTLS server drops a message with unexpected epoch but says - no + // error. We leave to client code to resolve such problems until + // OpenSSL provides something better. + return 0; + } + + switch (errorCode) { + case SSL_ERROR_WANT_WRITE: + case SSL_ERROR_WANT_READ: + // We do not set any error/description ... a user can probably re-try + // sending a datagram. + break; + case SSL_ERROR_ZERO_RETURN: + connectionWasShutdown = true; + setDtlsError(QDtlsError::TlsFatalError, QDtls::tr("The DTLS connection has been closed")); + handshakeState = QDtls::HandshakeNotStarted; + dtls.reset(); + break; + case SSL_ERROR_SYSCALL: + case SSL_ERROR_SSL: + default: + // DTLSTODO: we don't know yet what to do. Tests needed - probably, + // some errors can be just ignored (it's UDP, not TCP after all). + // Unlike QSslSocket we do not abort though. + QString description(QTlsBackendOpenSSL::getErrorsFromOpenSsl()); + if (socket->error() != QAbstractSocket::UnknownSocketError && description.isEmpty()) { + setDtlsError(QDtlsError::UnderlyingSocketError, socket->errorString()); + } else { + setDtlsError(QDtlsError::TlsFatalError, + QDtls::tr("Error while writing: %1").arg(description)); + } + } + + return -1; +} + +QByteArray QDtlsPrivateOpenSSL::decryptDatagram(QUdpSocket *socket, const QByteArray &tlsdgram) +{ + Q_ASSERT(socket); + Q_ASSERT(tlsdgram.size()); + + Q_ASSERT(dtls.tlsConnection.data()); + Q_ASSERT(connectionEncrypted); + + dtls.dgram = tlsdgram; + dtls.udpSocket = socket; + + clearDtlsError(); + + QByteArray dgram; + dgram.resize(tlsdgram.size()); + const int read = q_SSL_read(dtls.tlsConnection.data(), dgram.data(), + dgram.size()); + + if (read > 0) { + dgram.resize(read); + return dgram; + } + + dgram.clear(); + unsigned long errorCode = q_ERR_get_error(); + if (errorCode == SSL_ERROR_NONE) { + const int shutdown = q_SSL_get_shutdown(dtls.tlsConnection.data()); + if (shutdown & SSL_RECEIVED_SHUTDOWN) + errorCode = SSL_ERROR_ZERO_RETURN; + else + return dgram; + } + + switch (errorCode) { + case SSL_ERROR_WANT_READ: + case SSL_ERROR_WANT_WRITE: + return dgram; + case SSL_ERROR_ZERO_RETURN: + // "The connection was shut down cleanly" ... hmm, whatever, + // needs testing (DTLSTODO). + connectionWasShutdown = true; + setDtlsError(QDtlsError::RemoteClosedConnectionError, + QDtls::tr("The DTLS connection has been shutdown")); + dtls.reset(); + connectionEncrypted = false; + handshakeState = QDtls::HandshakeNotStarted; + return dgram; + case SSL_ERROR_SYSCALL: // some IO error + case SSL_ERROR_SSL: // error in the SSL library + // DTLSTODO: Apparently, some errors can be ignored, for example, + // ECONNRESET etc. This all needs a lot of testing!!! + default: + setDtlsError(QDtlsError::TlsNonFatalError, + QDtls::tr("Error while reading: %1") + .arg(QTlsBackendOpenSSL::getErrorsFromOpenSsl())); + return dgram; + } +} + +unsigned QDtlsPrivateOpenSSL::pskClientCallback(const char *hint, char *identity, + unsigned max_identity_len, + unsigned char *psk, + unsigned max_psk_len) +{ + // The code below is taken (with some modifications) from qsslsocket_openssl + // - alas, we cannot simply re-use it, it's in QSslSocketPrivate. + { + QSslPreSharedKeyAuthenticator authenticator; + // Fill in some read-only fields (for client code) + if (hint) { + identityHint.clear(); + identityHint.append(hint); + } + + QTlsBackend::setupClientPskAuth(&authenticator, hint ? identityHint.constData() : nullptr, + hint ? int(std::strlen(hint)) : 0, max_identity_len, max_psk_len); + pskAuthenticator.swap(authenticator); + } + + // Let the client provide the remaining bits... + emit q->pskRequired(&pskAuthenticator); + + // No PSK set? Return now to make the handshake fail + if (pskAuthenticator.preSharedKey().isEmpty()) + return 0; + + // Copy data back into OpenSSL + const int identityLength = qMin(pskAuthenticator.identity().size(), + pskAuthenticator.maximumIdentityLength()); + std::memcpy(identity, pskAuthenticator.identity().constData(), identityLength); + identity[identityLength] = 0; + + const int pskLength = qMin(pskAuthenticator.preSharedKey().size(), + pskAuthenticator.maximumPreSharedKeyLength()); + std::memcpy(psk, pskAuthenticator.preSharedKey().constData(), pskLength); + + return pskLength; +} + +unsigned QDtlsPrivateOpenSSL::pskServerCallback(const char *identity, unsigned char *psk, + unsigned max_psk_len) +{ + { + QSslPreSharedKeyAuthenticator authenticator; + // Fill in some read-only fields (for the user) + QTlsBackend::setupServerPskAuth(&authenticator, identity, dtlsConfiguration.preSharedKeyIdentityHint(), + max_psk_len); + pskAuthenticator.swap(authenticator); + } + + // Let the client provide the remaining bits... + emit q->pskRequired(&pskAuthenticator); + + // No PSK set? Return now to make the handshake fail + if (pskAuthenticator.preSharedKey().isEmpty()) + return 0; + + // Copy data back into OpenSSL + const int pskLength = qMin(pskAuthenticator.preSharedKey().size(), + pskAuthenticator.maximumPreSharedKeyLength()); + + std::memcpy(psk, pskAuthenticator.preSharedKey().constData(), pskLength); + + return pskLength; +} + +bool QDtlsPrivateOpenSSL::verifyPeer() +{ + QList<QSslError> errors; + + // Check the whole chain for blacklisting (including root, as we check for + // subjectInfo and issuer) + const auto &peerCertificateChain = dtlsConfiguration.peerCertificateChain(); + for (const QSslCertificate &cert : peerCertificateChain) { + if (QSslCertificatePrivate::isBlacklisted(cert)) + errors << QSslError(QSslError::CertificateBlacklisted, cert); + } + + const auto peerCertificate = dtlsConfiguration.peerCertificate(); + if (peerCertificate.isNull()) { + errors << QSslError(QSslError::NoPeerCertificate); + } else if (mode == QSslSocket::SslClientMode) { + // Check the peer certificate itself. First try the subject's common name + // (CN) as a wildcard, then try all alternate subject name DNS entries the + // same way. + + // QSslSocket has a rather twisted logic: if verificationPeerName + // is empty, we call QAbstractSocket::peerName(), which returns + // either peerName (can be set by setPeerName) or host name + // (can be set as a result of connectToHost). + QString name = peerVfyName; + if (name.isEmpty()) { + Q_ASSERT(dtls.udpSocket); + name = dtls.udpSocket->peerName(); + } + + if (!QTlsPrivate::TlsCryptograph::isMatchingHostname(peerCertificate, name)) + errors << QSslError(QSslError::HostNameMismatch, peerCertificate); + } + + // Translate errors from the error list into QSslErrors + using CertClass = QTlsPrivate::X509CertificateOpenSSL; + errors.reserve(errors.size() + opensslErrors.size()); + for (const auto &error : std::as_const(opensslErrors)) { + const auto value = peerCertificateChain.value(error.depth); + errors << CertClass::openSSLErrorToQSslError(error.code, value); + } + + tlsErrors = errors; + return tlsErrors.isEmpty(); +} + +void QDtlsPrivateOpenSSL::storePeerCertificates() +{ + Q_ASSERT(dtls.tlsConnection.data()); + // Store the peer certificate and chain. For clients, the peer certificate + // chain includes the peer certificate; for servers, it doesn't. Both the + // peer certificate and the chain may be empty if the peer didn't present + // any certificate. + X509 *x509 = q_SSL_get_peer_certificate(dtls.tlsConnection.data()); + const auto peerCertificate = QTlsPrivate::X509CertificateOpenSSL::certificateFromX509(x509); + QTlsBackend::storePeerCertificate(dtlsConfiguration, peerCertificate); + q_X509_free(x509); + + auto peerCertificateChain = dtlsConfiguration.peerCertificateChain(); + if (peerCertificateChain.isEmpty()) { + auto stack = q_SSL_get_peer_cert_chain(dtls.tlsConnection.data()); + peerCertificateChain = QTlsPrivate::X509CertificateOpenSSL::stackOfX509ToQSslCertificates(stack); + if (!peerCertificate.isNull() && mode == QSslSocket::SslServerMode) + peerCertificateChain.prepend(peerCertificate); + QTlsBackend::storePeerCertificateChain(dtlsConfiguration, peerCertificateChain); + } +} + +bool QDtlsPrivateOpenSSL::tlsErrorsWereIgnored() const +{ + // check whether the errors we got are all in the list of expected errors + // (applies only if the method QDtlsConnection::ignoreTlsErrors(const + // QList<QSslError> &errors) was called) + for (const QSslError &error : tlsErrors) { + if (!tlsErrorsToIgnore.contains(error)) + return false; + } + + return !tlsErrorsToIgnore.empty(); +} + +void QDtlsPrivateOpenSSL::fetchNegotiatedParameters() +{ + Q_ASSERT(dtls.tlsConnection.data()); + + if (const SSL_CIPHER *cipher = q_SSL_get_current_cipher(dtls.tlsConnection.data())) + sessionCipher = QTlsBackendOpenSSL::qt_OpenSSL_cipher_to_QSslCipher(cipher); + else + sessionCipher = {}; + + // Note: cipher's protocol version will be reported as either TLS 1.0 or + // TLS 1.2, that's how it's set by OpenSSL (and that's what they are?). + + switch (q_SSL_version(dtls.tlsConnection.data())) { +QT_WARNING_PUSH +QT_WARNING_DISABLE_DEPRECATED + case DTLS1_VERSION: + sessionProtocol = QSsl::DtlsV1_0; + break; +QT_WARNING_POP + case DTLS1_2_VERSION: + sessionProtocol = QSsl::DtlsV1_2; + break; + default: + qCWarning(lcTlsBackend, "unknown protocol version"); + sessionProtocol = QSsl::UnknownProtocol; + } +} + +void QDtlsPrivateOpenSSL::reportTimeout() +{ + emit q->handshakeTimeout(); +} + +void QDtlsPrivateOpenSSL::resetDtls() +{ + dtls.reset(); + connectionEncrypted = false; + tlsErrors.clear(); + tlsErrorsToIgnore.clear(); + QTlsBackend::clearPeerCertificates(dtlsConfiguration); + connectionWasShutdown = false; + handshakeState = QDtls::HandshakeNotStarted; + sessionCipher = {}; + sessionProtocol = QSsl::UnknownProtocol; +} + +QT_END_NAMESPACE |