/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtNetwork module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the Technology Preview License Agreement accompanying ** this package. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain ** additional rights. These rights are described in the Nokia Qt LGPL ** Exception version 1.1, included in the file LGPL_EXCEPTION.txt in this ** package. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qsocks5socketengine_p.h" #ifndef QT_NO_SOCKS5 #include "qtcpsocket.h" #include "qudpsocket.h" #include "qtcpserver.h" #include "qdebug.h" #include "qhash.h" #include "qqueue.h" #include "qdatetime.h" #include "qmutex.h" #include "qthread.h" #include "qcoreapplication.h" #include "qurl.h" #include "qauthenticator.h" #include QT_BEGIN_NAMESPACE static const int MaxWriteBufferSize = 128*1024; //#define QSOCKS5SOCKETLAYER_DEBUG #define MAX_DATA_DUMP 256 #if !defined(Q_OS_WINCE) #define SOCKS5_BLOCKING_BIND_TIMEOUT 5000 #else #define SOCKS5_BLOCKING_BIND_TIMEOUT 10000 #endif #define Q_INIT_CHECK(returnValue) do { \ if (!d->data) { \ return returnValue; \ } } while (0) #define S5_VERSION_5 0x05 #define S5_CONNECT 0x01 #define S5_BIND 0x02 #define S5_UDP_ASSOCIATE 0x03 #define S5_IP_V4 0x01 #define S5_DOMAINNAME 0x03 #define S5_IP_V6 0x04 #define S5_SUCCESS 0x00 #define S5_R_ERROR_SOCKS_FAILURE 0x01 #define S5_R_ERROR_CON_NOT_ALLOWED 0x02 #define S5_R_ERROR_NET_UNREACH 0x03 #define S5_R_ERROR_HOST_UNREACH 0x04 #define S5_R_ERROR_CONN_REFUSED 0x05 #define S5_R_ERROR_TTL 0x06 #define S5_R_ERROR_CMD_NOT_SUPPORTED 0x07 #define S5_R_ERROR_ADD_TYPE_NOT_SUPORTED 0x08 #define S5_AUTHMETHOD_NONE 0x00 #define S5_AUTHMETHOD_PASSWORD 0x02 #define S5_AUTHMETHOD_NOTACCEPTABLE 0xFF #define S5_PASSWORDAUTH_VERSION 0x01 #ifdef QSOCKS5SOCKETLAYER_DEBUG # define QSOCKS5_Q_DEBUG qDebug() << this # define QSOCKS5_D_DEBUG qDebug() << q_ptr # define QSOCKS5_DEBUG qDebug() << "[QSocks5]" static QString s5StateToString(QSocks5SocketEnginePrivate::Socks5State s) { switch (s) { case QSocks5SocketEnginePrivate::Uninitialized: return QLatin1String("Uninitialized"); case QSocks5SocketEnginePrivate::ConnectError: return QLatin1String("ConnectError"); case QSocks5SocketEnginePrivate::AuthenticationMethodsSent: return QLatin1String("AuthenticationMethodsSent"); case QSocks5SocketEnginePrivate::Authenticating: return QLatin1String("Authenticating"); case QSocks5SocketEnginePrivate::AuthenticatingError: return QLatin1String("AuthenticatingError"); case QSocks5SocketEnginePrivate::RequestMethodSent: return QLatin1String("RequestMethodSent"); case QSocks5SocketEnginePrivate::RequestError: return QLatin1String("RequestError"); case QSocks5SocketEnginePrivate::Connected: return QLatin1String("Connected"); case QSocks5SocketEnginePrivate::UdpAssociateSuccess: return QLatin1String("UdpAssociateSuccess"); case QSocks5SocketEnginePrivate::BindSuccess: return QLatin1String("BindSuccess"); case QSocks5SocketEnginePrivate::ControlSocketError: return QLatin1String("ControlSocketError"); case QSocks5SocketEnginePrivate::SocksError: return QLatin1String("SocksError"); case QSocks5SocketEnginePrivate::HostNameLookupError: return QLatin1String("HostNameLookupError"); default: break; } return QLatin1String("unknown state"); } static QString dump(const QByteArray &buf) { QString data; for (int i = 0; i < qMin(MAX_DATA_DUMP, buf.size()); ++i) { if (i) data += QLatin1Char(' '); uint val = (unsigned char)buf.at(i); // data += QString("0x%1").arg(val, 3, 16, QLatin1Char('0')); data += QString::number(val); } if (buf.size() > MAX_DATA_DUMP) data += QLatin1String(" ..."); return QString::fromLatin1("size: %1 data: { %2 }").arg(buf.size()).arg(data); } #else # define QSOCKS5_DEBUG if (0) qDebug() # define QSOCKS5_Q_DEBUG if (0) qDebug() # define QSOCKS5_D_DEBUG if (0) qDebug() static inline QString s5StateToString(QSocks5SocketEnginePrivate::Socks5State) { return QString(); } static inline QString dump(const QByteArray &) { return QString(); } #endif /* inserts the host address in buf at pos and updates pos. if the func fails the data in buf and the vallue of pos is undefined */ static bool qt_socks5_set_host_address_and_port(const QHostAddress &address, quint16 port, QByteArray *pBuf) { QSOCKS5_DEBUG << "setting [" << address << ":" << port << "]"; union { quint16 port; quint32 ipv4; QIPv6Address ipv6; char ptr; } data; // add address if (address.protocol() == QAbstractSocket::IPv4Protocol) { data.ipv4 = qToBigEndian(address.toIPv4Address()); pBuf->append(S5_IP_V4); pBuf->append(QByteArray::fromRawData(&data.ptr, sizeof data.ipv4)); } else if (address.protocol() == QAbstractSocket::IPv6Protocol) { data.ipv6 = address.toIPv6Address(); pBuf->append(S5_IP_V6); pBuf->append(QByteArray::fromRawData(&data.ptr, sizeof data.ipv6)); } else { return false; } // add port data.port = qToBigEndian(port); pBuf->append(QByteArray::fromRawData(&data.ptr, sizeof data.port)); return true; } /* like above, but for a hostname */ static bool qt_socks5_set_host_name_and_port(const QString &hostname, quint16 port, QByteArray *pBuf) { QSOCKS5_DEBUG << "setting [" << hostname << ":" << port << "]"; QByteArray encodedHostName = QUrl::toAce(hostname); QByteArray &buf = *pBuf; if (encodedHostName.length() > 255) return false; buf.append(S5_DOMAINNAME); buf.append(uchar(encodedHostName.length())); buf.append(encodedHostName); // add port union { quint16 port; char ptr; } data; data.port = qToBigEndian(port); buf.append(QByteArray::fromRawData(&data.ptr, sizeof data.port)); return true; } /* retrives the host address in buf at pos and updates pos. if the func fails the value of the address and the pos is undefined */ static bool qt_socks5_get_host_address_and_port(const QByteArray &buf, QHostAddress *pAddress, quint16 *pPort, int *pPos) { bool ret = false; int pos = *pPos; const unsigned char *pBuf = reinterpret_cast(buf.constData()); QHostAddress address; quint16 port = 0; if (buf.size() - pos < 1) { QSOCKS5_DEBUG << "need more data address/port"; return false; } if (pBuf[pos] == S5_IP_V4) { pos++; if (buf.size() - pos < 4) { QSOCKS5_DEBUG << "need more data for ip4 address"; return false; } address.setAddress(qFromBigEndian(&pBuf[pos])); pos += 4; ret = true; } else if (pBuf[pos] == S5_IP_V6) { pos++; if (buf.size() - pos < 16) { QSOCKS5_DEBUG << "need more data for ip6 address"; return false; } QIPv6Address add; for (int i = 0; i < 16; ++i) add[i] = buf[pos++]; ret = true; } else if (pBuf[pos] == S5_DOMAINNAME){ // just skip it pos++; qDebug() << "skipping hostname of len" << uint(pBuf[pos]); pos += uchar(pBuf[pos]); } else { QSOCKS5_DEBUG << "invalid address type" << (int)pBuf[pos]; ret = false; } if (ret) { if (buf.size() - pos < 2) { QSOCKS5_DEBUG << "need more data for port"; return false; } port = qFromBigEndian(&pBuf[pos]); pos += 2; } if (ret) { QSOCKS5_DEBUG << "got [" << address << ":" << port << "]"; *pAddress = address; *pPort = port; *pPos = pos; } return ret; } /* Returns the difference between msecs and elapsed. If msecs is -1, however, -1 is returned. */ static int qt_timeout_value(int msecs, int elapsed) { if (msecs == -1) return -1; int timeout = msecs - elapsed; return timeout < 0 ? 0 : timeout; } struct QSocks5Data { QTcpSocket *controlSocket; QSocks5Authenticator *authenticator; }; struct QSocks5ConnectData : public QSocks5Data { QByteArray readBuffer; }; struct QSocks5BindData : public QSocks5Data { QHostAddress localAddress; quint16 localPort; QHostAddress peerAddress; quint16 peerPort; QDateTime timeStamp; }; struct QSocks5RevivedDatagram { QByteArray data; QHostAddress address; quint16 port; }; #ifndef QT_NO_UDPSOCKET struct QSocks5UdpAssociateData : public QSocks5Data { QUdpSocket *udpSocket; QHostAddress associateAddress; quint16 associatePort; QQueue pendingDatagrams; }; #endif // needs to be thread safe class QSocks5BindStore : public QObject { public: QSocks5BindStore(); ~QSocks5BindStore(); void add(int socketDescriptor, QSocks5BindData *bindData); bool contains(int socketDescriptor); QSocks5BindData *retrieve(int socketDescriptor); protected: void timerEvent(QTimerEvent * event); QMutex mutex; int sweepTimerId; //socket descriptor, data, timestamp QHash store; }; Q_GLOBAL_STATIC(QSocks5BindStore, socks5BindStore) QSocks5BindStore::QSocks5BindStore() : mutex(QMutex::Recursive) , sweepTimerId(-1) { QCoreApplication *app = QCoreApplication::instance(); if (app && app->thread() != thread()) moveToThread(app->thread()); } QSocks5BindStore::~QSocks5BindStore() { } void QSocks5BindStore::add(int socketDescriptor, QSocks5BindData *bindData) { QMutexLocker lock(&mutex); if (store.contains(socketDescriptor)) { // qDebug() << "delete it"; } bindData->timeStamp = QDateTime::currentDateTime(); store.insert(socketDescriptor, bindData); // start sweep timer if not started if (sweepTimerId == -1) sweepTimerId = startTimer(60000); } bool QSocks5BindStore::contains(int socketDescriptor) { QMutexLocker lock(&mutex); return store.contains(socketDescriptor); } QSocks5BindData *QSocks5BindStore::retrieve(int socketDescriptor) { QMutexLocker lock(&mutex); if (!store.contains(socketDescriptor)) return 0; QSocks5BindData *bindData = store.take(socketDescriptor); if (bindData) { if (bindData->controlSocket->thread() != QThread::currentThread()) { qWarning("Can not access socks5 bind data from different thread"); return 0; } } else { QSOCKS5_DEBUG << "__ERROR__ binddata == 0"; } // stop the sweep timer if not needed if (store.isEmpty()) { killTimer(sweepTimerId); sweepTimerId = -1; } return bindData; } void QSocks5BindStore::timerEvent(QTimerEvent * event) { QMutexLocker lock(&mutex); if (event->timerId() == sweepTimerId) { QSOCKS5_DEBUG << "QSocks5BindStore performing sweep"; QMutableHashIterator it(store); while (it.hasNext()) { it.next(); if (it.value()->timeStamp.secsTo(QDateTime::currentDateTime()) > 350) { QSOCKS5_DEBUG << "QSocks5BindStore removing JJJJ"; it.remove(); } } } } QSocks5Authenticator::QSocks5Authenticator() { } QSocks5Authenticator::~QSocks5Authenticator() { } char QSocks5Authenticator::methodId() { return 0x00; } bool QSocks5Authenticator::beginAuthenticate(QTcpSocket *socket, bool *completed) { Q_UNUSED(socket); *completed = true; return true; } bool QSocks5Authenticator::continueAuthenticate(QTcpSocket *socket, bool *completed) { Q_UNUSED(socket); *completed = true; return true; } bool QSocks5Authenticator::seal(const QByteArray buf, QByteArray *sealedBuf) { *sealedBuf = buf; return true; } bool QSocks5Authenticator::unSeal(const QByteArray sealedBuf, QByteArray *buf) { *buf = sealedBuf; return true; } bool QSocks5Authenticator::unSeal(QTcpSocket *sealedSocket, QByteArray *buf) { return unSeal(sealedSocket->readAll(), buf); } QSocks5PasswordAuthenticator::QSocks5PasswordAuthenticator(const QString &userName, const QString &password) { this->userName = userName; this->password = password; } char QSocks5PasswordAuthenticator::methodId() { return 0x02; } bool QSocks5PasswordAuthenticator::beginAuthenticate(QTcpSocket *socket, bool *completed) { *completed = false; QByteArray uname = userName.toLatin1(); QByteArray passwd = password.toLatin1(); QByteArray dataBuf(3 + uname.size() + passwd.size(), 0); char *buf = dataBuf.data(); int pos = 0; buf[pos++] = S5_PASSWORDAUTH_VERSION; buf[pos++] = uname.size(); memcpy(&buf[pos], uname.data(), uname.size()); pos += uname.size(); buf[pos++] = passwd.size(); memcpy(&buf[pos], passwd.data(), passwd.size()); return socket->write(dataBuf) == dataBuf.size(); } bool QSocks5PasswordAuthenticator::continueAuthenticate(QTcpSocket *socket, bool *completed) { *completed = false; if (socket->bytesAvailable() < 2) return true; QByteArray buf = socket->read(2); if (buf.at(0) == S5_PASSWORDAUTH_VERSION && buf.at(1) == 0x00) { *completed = true; return true; } // must disconnect socket->close(); return false; } QString QSocks5PasswordAuthenticator::errorString() { return QLatin1String("Socks5 user name or password incorrect"); } QSocks5SocketEnginePrivate::QSocks5SocketEnginePrivate() : socks5State(Uninitialized) , readNotificationEnabled(false) , writeNotificationEnabled(false) , exceptNotificationEnabled(false) , socketDescriptor(-1) , data(0) , connectData(0) #ifndef QT_NO_UDPSOCKET , udpData(0) #endif , bindData(0) , readNotificationActivated(false) , writeNotificationActivated(false) , readNotificationPending(false) , writeNotificationPending(false) , connectionNotificationPending(false) { mode = NoMode; } QSocks5SocketEnginePrivate::~QSocks5SocketEnginePrivate() { } void QSocks5SocketEnginePrivate::initialize(Socks5Mode socks5Mode) { Q_Q(QSocks5SocketEngine); mode = socks5Mode; if (mode == ConnectMode) { connectData = new QSocks5ConnectData; data = connectData; #ifndef QT_NO_UDPSOCKET } else if (mode == UdpAssociateMode) { udpData = new QSocks5UdpAssociateData; data = udpData; udpData->udpSocket = new QUdpSocket(q); udpData->udpSocket->setProxy(QNetworkProxy::NoProxy); QObject::connect(udpData->udpSocket, SIGNAL(readyRead()), q, SLOT(_q_udpSocketReadNotification()), Qt::DirectConnection); #endif // QT_NO_UDPSOCKET } else if (mode == BindMode) { bindData = new QSocks5BindData; data = bindData; } data->controlSocket = new QTcpSocket(q); data->controlSocket->setProxy(QNetworkProxy::NoProxy); QObject::connect(data->controlSocket, SIGNAL(connected()), q, SLOT(_q_controlSocketConnected()), Qt::DirectConnection); QObject::connect(data->controlSocket, SIGNAL(readyRead()), q, SLOT(_q_controlSocketReadNotification()), Qt::DirectConnection); QObject::connect(data->controlSocket, SIGNAL(bytesWritten(qint64)), q, SLOT(_q_controlSocketBytesWritten()), Qt::DirectConnection); QObject::connect(data->controlSocket, SIGNAL(error(QAbstractSocket::SocketError)), q, SLOT(_q_controlSocketError(QAbstractSocket::SocketError)), Qt::DirectConnection); QObject::connect(data->controlSocket, SIGNAL(disconnected()), q, SLOT(_q_controlSocketDisconnected()), Qt::DirectConnection); QObject::connect(data->controlSocket, SIGNAL(stateChanged(QAbstractSocket::SocketState)), q, SLOT(_q_controlSocketStateChanged(QAbstractSocket::SocketState)), Qt::DirectConnection); if (!proxyInfo.user().isEmpty() || !proxyInfo.password().isEmpty()) { QSOCKS5_D_DEBUG << "using username/password authentication; user =" << proxyInfo.user(); data->authenticator = new QSocks5PasswordAuthenticator(proxyInfo.user(), proxyInfo.password()); } else { QSOCKS5_D_DEBUG << "not using authentication"; data->authenticator = new QSocks5Authenticator(); } } void QSocks5SocketEnginePrivate::setErrorState(Socks5State state, const QString &extraMessage) { Q_Q(QSocks5SocketEngine); switch (state) { case Uninitialized: case Authenticating: case AuthenticationMethodsSent: case RequestMethodSent: case Connected: case UdpAssociateSuccess: case BindSuccess: // these aren't error states return; case ConnectError: case ControlSocketError: { QAbstractSocket::SocketError controlSocketError = data->controlSocket->error(); if (socks5State != Connected) { switch (controlSocketError) { case QAbstractSocket::ConnectionRefusedError: q->setError(QAbstractSocket::ProxyConnectionRefusedError, QSocks5SocketEngine::tr("Connection to proxy refused")); break; case QAbstractSocket::RemoteHostClosedError: q->setError(QAbstractSocket::ProxyConnectionClosedError, QSocks5SocketEngine::tr("Connection to proxy closed prematurely")); break; case QAbstractSocket::HostNotFoundError: q->setError(QAbstractSocket::ProxyNotFoundError, QSocks5SocketEngine::tr("Proxy host not found")); break; case QAbstractSocket::SocketTimeoutError: if (state == ConnectError) { q->setError(QAbstractSocket::ProxyConnectionTimeoutError, QSocks5SocketEngine::tr("Connection to proxy timed out")); break; } /* fall through */ default: q->setError(controlSocketError, data->controlSocket->errorString()); break; } } else { q->setError(controlSocketError, data->controlSocket->errorString()); } break; } case AuthenticatingError: q->setError(QAbstractSocket::ProxyAuthenticationRequiredError, extraMessage.isEmpty() ? QSocks5SocketEngine::tr("Proxy authentication failed") : QSocks5SocketEngine::tr("Proxy authentication failed: %1").arg(extraMessage)); break; case RequestError: // error code set by caller (overload) break; case SocksError: q->setError(QAbstractSocket::ProxyProtocolError, QSocks5SocketEngine::tr("SOCKS version 5 protocol error")); break; case HostNameLookupError: q->setError(QAbstractSocket::HostNotFoundError, QAbstractSocket::tr("Host not found")); break; } q->setState(QAbstractSocket::UnconnectedState); socks5State = state; } void QSocks5SocketEnginePrivate::setErrorState(Socks5State state, Socks5Error socks5error) { Q_Q(QSocks5SocketEngine); switch (socks5error) { case SocksFailure: q->setError(QAbstractSocket::NetworkError, QSocks5SocketEngine::tr("General SOCKSv5 server failure")); break; case ConnectionNotAllowed: q->setError(QAbstractSocket::SocketAccessError, QSocks5SocketEngine::tr("Connection not allowed by SOCKSv5 server")); break; case NetworkUnreachable: q->setError(QAbstractSocket::NetworkError, QAbstractSocket::tr("Network unreachable")); break; case HostUnreachable: q->setError(QAbstractSocket::HostNotFoundError, QAbstractSocket::tr("Host not found")); break; case ConnectionRefused: q->setError(QAbstractSocket::ConnectionRefusedError, QAbstractSocket::tr("Connection refused")); break; case TTLExpired: q->setError(QAbstractSocket::NetworkError, QSocks5SocketEngine::tr("TTL expired")); break; case CommandNotSupported: q->setError(QAbstractSocket::UnsupportedSocketOperationError, QSocks5SocketEngine::tr("SOCKSv5 command not supported")); break; case AddressTypeNotSupported: q->setError(QAbstractSocket::UnsupportedSocketOperationError, QSocks5SocketEngine::tr("Address type not supported")); break; default: q->setError(QAbstractSocket::UnknownSocketError, QSocks5SocketEngine::tr("Unknown SOCKSv5 proxy error code 0x%1").arg(int(socks5error), 16)); break; } setErrorState(state, QString()); } void QSocks5SocketEnginePrivate::reauthenticate() { Q_Q(QSocks5SocketEngine); // we require authentication QAuthenticator auth; emit q->proxyAuthenticationRequired(proxyInfo, &auth); if (!auth.user().isEmpty() || !auth.password().isEmpty()) { // we have new credentials, let's try again QSOCKS5_DEBUG << "authentication failure: retrying connection"; socks5State = QSocks5SocketEnginePrivate::Uninitialized; delete data->authenticator; proxyInfo.setUser(auth.user()); proxyInfo.setPassword(auth.password()); data->authenticator = new QSocks5PasswordAuthenticator(proxyInfo.user(), proxyInfo.password()); data->controlSocket->blockSignals(true); data->controlSocket->abort(); data->controlSocket->blockSignals(false); data->controlSocket->connectToHost(proxyInfo.hostName(), proxyInfo.port()); } else { // authentication failure setErrorState(AuthenticatingError); data->controlSocket->close(); emitConnectionNotification(); } } void QSocks5SocketEnginePrivate::parseAuthenticationMethodReply() { // not enough data to begin if (data->controlSocket->bytesAvailable() < 2) return; QByteArray buf = data->controlSocket->read(2); if (buf.at(0) != S5_VERSION_5) { QSOCKS5_D_DEBUG << "Socks5 version incorrect"; setErrorState(SocksError); data->controlSocket->close(); emitConnectionNotification(); return; } bool authComplete = false; if (uchar(buf.at(1)) == S5_AUTHMETHOD_NONE) { authComplete = true; } else if (uchar(buf.at(1)) == S5_AUTHMETHOD_NOTACCEPTABLE) { reauthenticate(); return; } else if (buf.at(1) != data->authenticator->methodId() || !data->authenticator->beginAuthenticate(data->controlSocket, &authComplete)) { setErrorState(AuthenticatingError, QLatin1String("Socks5 host did not support authentication method.")); socketError = QAbstractSocket::SocketAccessError; // change the socket error emitConnectionNotification(); return; } if (authComplete) sendRequestMethod(); else socks5State = Authenticating; } void QSocks5SocketEnginePrivate::parseAuthenticatingReply() { bool authComplete = false; if (!data->authenticator->continueAuthenticate(data->controlSocket, &authComplete)) { reauthenticate(); return; } if (authComplete) sendRequestMethod(); } void QSocks5SocketEnginePrivate::sendRequestMethod() { QHostAddress address; quint16 port = 0; char command = 0; if (mode == ConnectMode) { command = S5_CONNECT; address = peerAddress; port = peerPort; } else if (mode == BindMode) { command = S5_BIND; address = localAddress; port = localPort; } else { #ifndef QT_NO_UDPSOCKET command = S5_UDP_ASSOCIATE; address = localAddress; //data->controlSocket->localAddress(); port = localPort; #endif } QByteArray buf; buf.reserve(270); // big enough for domain name; buf[0] = S5_VERSION_5; buf[1] = command; buf[2] = 0x00; if (peerName.isEmpty() && !qt_socks5_set_host_address_and_port(address, port, &buf)) { QSOCKS5_DEBUG << "error setting address" << address << " : " << port; //### set error code .... return; } else if (!peerName.isEmpty() && !qt_socks5_set_host_name_and_port(peerName, port, &buf)) { QSOCKS5_DEBUG << "error setting address" << address << " : " << port; //### set error code .... return; } QSOCKS5_DEBUG << "sending" << dump(buf); QByteArray sealedBuf; if (!data->authenticator->seal(buf, &sealedBuf)) { // ### Handle this error. } data->controlSocket->write(sealedBuf); data->controlSocket->flush(); socks5State = RequestMethodSent; } void QSocks5SocketEnginePrivate::parseRequestMethodReply() { Q_Q(QSocks5SocketEngine); QSOCKS5_DEBUG << "parseRequestMethodReply()"; QByteArray inBuf; if (!data->authenticator->unSeal(data->controlSocket, &inBuf)) { // ### check error and not just not enough data QSOCKS5_DEBUG << "unSeal failed, needs more data"; return; } QSOCKS5_DEBUG << dump(inBuf); if (inBuf.size() < 2) { QSOCKS5_DEBUG << "need more data for request reply header .. put this data somewhere"; return; } QHostAddress address; quint16 port = 0; if (inBuf.at(0) != S5_VERSION_5 || inBuf.length() < 3 || inBuf.at(2) != 0x00) { QSOCKS5_DEBUG << "socks protocol error"; setErrorState(SocksError); } else if (inBuf.at(1) != S5_SUCCESS) { Socks5Error socks5Error = Socks5Error(inBuf.at(1)); QSOCKS5_DEBUG << "Request error :" << socks5Error; if ((socks5Error == SocksFailure || socks5Error == ConnectionNotAllowed) && !peerName.isEmpty()) { // Dante seems to use this error code to indicate hostname resolution failure setErrorState(HostNameLookupError); } else { setErrorState(RequestError, socks5Error); } } else { // connection success, retrieve the remote addresses int pos = 3; if (!qt_socks5_get_host_address_and_port(inBuf, &address, &port, &pos)) { QSOCKS5_DEBUG << "error getting address"; setErrorState(SocksError); } else { inBuf.remove(0, pos); for (int i = inBuf.size() - 1; i >= 0 ; --i) data->controlSocket->ungetChar(inBuf.at(i)); } } if (socks5State == RequestMethodSent) { // no error localAddress = address; localPort = port; if (mode == ConnectMode) { socks5State = Connected; // notify the upper layer that we're done q->setState(QAbstractSocket::ConnectedState); emitConnectionNotification(); } else if (mode == BindMode) { socks5State = BindSuccess; q->setState(QAbstractSocket::ListeningState); } else { socks5State = UdpAssociateSuccess; } } else if (socks5State == BindSuccess) { // no error and we got a connection bindData->peerAddress = address; bindData->peerPort = port; emitReadNotification(); } else { // got an error data->controlSocket->close(); emitConnectionNotification(); } } void QSocks5SocketEnginePrivate::_q_emitPendingReadNotification() { Q_Q(QSocks5SocketEngine); readNotificationPending = false; if (readNotificationEnabled) { QSOCKS5_D_DEBUG << "emitting readNotification"; QPointer qq = q; emit q->readNotification(); if (!qq) return; // check if there needs to be a new zero read notification if (data && data->controlSocket->state() == QAbstractSocket::UnconnectedState && data->controlSocket->error() == QAbstractSocket::RemoteHostClosedError) { connectData->readBuffer.clear(); emitReadNotification(); } } } void QSocks5SocketEnginePrivate::emitReadNotification() { Q_Q(QSocks5SocketEngine); readNotificationActivated = true; if (readNotificationEnabled && !readNotificationPending) { QSOCKS5_D_DEBUG << "queueing readNotification"; readNotificationPending = true; QMetaObject::invokeMethod(q, "_q_emitPendingReadNotification", Qt::QueuedConnection); } } void QSocks5SocketEnginePrivate::_q_emitPendingWriteNotification() { writeNotificationPending = false; Q_Q(QSocks5SocketEngine); if (writeNotificationEnabled) { QSOCKS5_D_DEBUG << "emitting writeNotification"; emit q->writeNotification(); } } void QSocks5SocketEnginePrivate::emitWriteNotification() { Q_Q(QSocks5SocketEngine); writeNotificationActivated = true; if (writeNotificationEnabled && !writeNotificationPending) { QSOCKS5_D_DEBUG << "queueing writeNotification"; writeNotificationPending = true; QMetaObject::invokeMethod(q, "_q_emitPendingWriteNotification", Qt::QueuedConnection); } } void QSocks5SocketEnginePrivate::_q_emitPendingConnectionNotification() { connectionNotificationPending = false; Q_Q(QSocks5SocketEngine); QSOCKS5_D_DEBUG << "emitting connectionNotification"; emit q->connectionNotification(); } void QSocks5SocketEnginePrivate::emitConnectionNotification() { Q_Q(QSocks5SocketEngine); QSOCKS5_D_DEBUG << "queueing connectionNotification"; connectionNotificationPending = true; QMetaObject::invokeMethod(q, "_q_emitPendingConnectionNotification", Qt::QueuedConnection); } QSocks5SocketEngine::QSocks5SocketEngine(QObject *parent) :QAbstractSocketEngine(*new QSocks5SocketEnginePrivate(), parent) { } QSocks5SocketEngine::~QSocks5SocketEngine() { Q_D(QSocks5SocketEngine); if (d->data) { delete d->data->authenticator; delete d->data->controlSocket; } if (d->connectData) delete d->connectData; #ifndef QT_NO_UDPSOCKET if (d->udpData) { delete d->udpData->udpSocket; delete d->udpData; } #endif if (d->bindData) delete d->bindData; } static QBasicAtomicInt descriptorCounter = Q_BASIC_ATOMIC_INITIALIZER(1); bool QSocks5SocketEngine::initialize(QAbstractSocket::SocketType type, QAbstractSocket::NetworkLayerProtocol protocol) { Q_D(QSocks5SocketEngine); d->socketDescriptor = descriptorCounter.fetchAndAddRelaxed(1); d->socketType = type; d->socketProtocol = protocol; return true; } bool QSocks5SocketEngine::initialize(int socketDescriptor, QAbstractSocket::SocketState socketState) { Q_D(QSocks5SocketEngine); QSOCKS5_Q_DEBUG << "initialize" << socketDescriptor; // this is only valid for the other side of a bind, nothing else is supported if (socketState != QAbstractSocket::ConnectedState) { //### must be connected state ??? return false; } QSocks5BindData *bindData = socks5BindStore()->retrieve(socketDescriptor); if (bindData) { d->socketState = QAbstractSocket::ConnectedState; d->socketType = QAbstractSocket::TcpSocket; d->connectData = new QSocks5ConnectData; d->data = d->connectData; d->mode = QSocks5SocketEnginePrivate::ConnectMode; d->data->controlSocket = bindData->controlSocket; bindData->controlSocket = 0; d->data->controlSocket->setParent(this); d->socketProtocol = d->data->controlSocket->localAddress().protocol(); d->data->authenticator = bindData->authenticator; bindData->authenticator = 0; d->localPort = bindData->localPort; d->localAddress = bindData->localAddress; d->peerPort = bindData->peerPort; d->peerAddress = bindData->peerAddress; delete bindData; QObject::connect(d->data->controlSocket, SIGNAL(connected()), this, SLOT(_q_controlSocketConnected()), Qt::DirectConnection); QObject::connect(d->data->controlSocket, SIGNAL(readyRead()), this, SLOT(_q_controlSocketReadNotification()), Qt::DirectConnection); QObject::connect(d->data->controlSocket, SIGNAL(bytesWritten(qint64)), this, SLOT(_q_controlSocketBytesWritten()), Qt::DirectConnection); QObject::connect(d->data->controlSocket, SIGNAL(error(QAbstractSocket::SocketError)), this, SLOT(_q_controlSocketError(QAbstractSocket::SocketError)), Qt::DirectConnection); QObject::connect(d->data->controlSocket, SIGNAL(disconnected()), this, SLOT(_q_controlSocketDisconnected()), Qt::DirectConnection); QObject::connect(d->data->controlSocket, SIGNAL(stateChanged(QAbstractSocket::SocketState)), this, SLOT(_q_controlSocketStateChanged(QAbstractSocket::SocketState)), Qt::DirectConnection); d->socks5State = QSocks5SocketEnginePrivate::Connected; if (d->data->controlSocket->bytesAvailable() != 0) d->_q_controlSocketReadNotification(); return true; } return false; } void QSocks5SocketEngine::setProxy(const QNetworkProxy &networkProxy) { Q_D(QSocks5SocketEngine); d->proxyInfo = networkProxy; } int QSocks5SocketEngine::socketDescriptor() const { Q_D(const QSocks5SocketEngine); return d->socketDescriptor; } bool QSocks5SocketEngine::isValid() const { Q_D(const QSocks5SocketEngine); return d->socketType != QAbstractSocket::UnknownSocketType && d->socks5State != QSocks5SocketEnginePrivate::SocksError && (d->socketError == QAbstractSocket::UnknownSocketError || d->socketError == QAbstractSocket::SocketTimeoutError || d->socketError == QAbstractSocket::UnfinishedSocketOperationError); } bool QSocks5SocketEngine::connectInternal() { Q_D(QSocks5SocketEngine); if (!d->data) { if (socketType() == QAbstractSocket::TcpSocket) { d->initialize(QSocks5SocketEnginePrivate::ConnectMode); #ifndef QT_NO_UDPSOCKET } else if (socketType() == QAbstractSocket::UdpSocket) { d->initialize(QSocks5SocketEnginePrivate::UdpAssociateMode); // all udp needs to be bound if (!bind(QHostAddress(QLatin1String("0.0.0.0")), 0)) return false; setState(QAbstractSocket::ConnectedState); return true; #endif } else { qFatal("QSocks5SocketEngine::connectToHost: in QTcpServer mode"); return false; } } if (d->socks5State == QSocks5SocketEnginePrivate::Uninitialized && d->socketState != QAbstractSocket::ConnectingState) { setState(QAbstractSocket::ConnectingState); d->data->controlSocket->connectToHost(d->proxyInfo.hostName(), d->proxyInfo.port()); return false; } return false; } bool QSocks5SocketEngine::connectToHost(const QHostAddress &address, quint16 port) { Q_D(QSocks5SocketEngine); QSOCKS5_DEBUG << "connectToHost" << address << ":" << port; setPeerAddress(address); setPeerPort(port); d->peerName.clear(); return connectInternal(); } bool QSocks5SocketEngine::connectToHostByName(const QString &hostname, quint16 port) { Q_D(QSocks5SocketEngine); setPeerAddress(QHostAddress()); setPeerPort(port); d->peerName = hostname; return connectInternal(); } void QSocks5SocketEnginePrivate::_q_controlSocketConnected() { QSOCKS5_DEBUG << "_q_controlSocketConnected"; QByteArray buf(3, 0); buf[0] = S5_VERSION_5; buf[1] = 0x01; buf[2] = data->authenticator->methodId(); data->controlSocket->write(buf); socks5State = AuthenticationMethodsSent; } void QSocks5SocketEnginePrivate::_q_controlSocketReadNotification() { QSOCKS5_D_DEBUG << "_q_controlSocketReadNotification socks5state" << s5StateToString(socks5State) << "bytes available" << data->controlSocket->bytesAvailable(); if (data->controlSocket->bytesAvailable() == 0) { QSOCKS5_D_DEBUG << "########## bogus read why do we get these ... on windows only"; return; } switch (socks5State) { case AuthenticationMethodsSent: parseAuthenticationMethodReply(); break; case Authenticating: parseAuthenticatingReply(); break; case RequestMethodSent: parseRequestMethodReply(); break; case Connected: { QByteArray buf; if (!data->authenticator->unSeal(data->controlSocket, &buf)) { // qDebug() << "unseal error maybe need to wait for more data"; } if (buf.size()) { QSOCKS5_DEBUG << dump(buf); connectData->readBuffer += buf; emitReadNotification(); } break; } case BindSuccess: // only get here if command is bind if (mode == BindMode) { parseRequestMethodReply(); break; } // fall through default: qWarning("QSocks5SocketEnginePrivate::_q_controlSocketReadNotification: " "Unexpectedly received data while in state=%d and mode=%d", socks5State, mode); break; }; } void QSocks5SocketEnginePrivate::_q_controlSocketBytesWritten() { QSOCKS5_DEBUG << "_q_controlSocketBytesWritten"; if (socks5State != Connected || (mode == ConnectMode && data->controlSocket->bytesToWrite())) return; if (data->controlSocket->bytesToWrite() < MaxWriteBufferSize) { emitWriteNotification(); writeNotificationActivated = false; } } void QSocks5SocketEnginePrivate::_q_controlSocketError(QAbstractSocket::SocketError error) { QSOCKS5_D_DEBUG << "controlSocketError" << error << data->controlSocket->errorString(); if (error == QAbstractSocket::SocketTimeoutError) return; // ignore this error -- comes from the waitFor* functions if (error == QAbstractSocket::RemoteHostClosedError && socks5State == Connected) { // clear the read buffer in connect mode so that bytes available returns 0 // if there already is a read notification pending then this will be processed first if (!readNotificationPending) connectData->readBuffer.clear(); emitReadNotification(); } else if (socks5State == Uninitialized || socks5State == AuthenticationMethodsSent || socks5State == Authenticating || socks5State == RequestMethodSent) { setErrorState(socks5State == Uninitialized ? ConnectError : ControlSocketError); data->controlSocket->close(); emitConnectionNotification(); } else { q_func()->setError(data->controlSocket->error(), data->controlSocket->errorString()); emitReadNotification(); } } void QSocks5SocketEnginePrivate::_q_controlSocketDisconnected() { QSOCKS5_D_DEBUG << "_q_controlSocketDisconnected"; } void QSocks5SocketEnginePrivate::_q_controlSocketStateChanged(QAbstractSocket::SocketState state) { QSOCKS5_D_DEBUG << "_q_controlSocketStateChanged" << state; } #ifndef QT_NO_UDPSOCKET void QSocks5SocketEnginePrivate::checkForDatagrams() const { // udp should be unbuffered so we need to do some polling at certain points if (udpData->udpSocket->hasPendingDatagrams()) const_cast(this)->_q_udpSocketReadNotification(); } void QSocks5SocketEnginePrivate::_q_udpSocketReadNotification() { QSOCKS5_D_DEBUG << "_q_udpSocketReadNotification()"; // check some state stuff if (!udpData->udpSocket->hasPendingDatagrams()) { QSOCKS5_D_DEBUG << "false read ??"; return; } while (udpData->udpSocket->hasPendingDatagrams()) { QByteArray sealedBuf(udpData->udpSocket->pendingDatagramSize(), 0); QSOCKS5_D_DEBUG << "new datagram"; udpData->udpSocket->readDatagram(sealedBuf.data(), sealedBuf.size()); QByteArray inBuf; if (!data->authenticator->unSeal(sealedBuf, &inBuf)) { QSOCKS5_D_DEBUG << "failed unsealing datagram discarding"; return; } QSOCKS5_DEBUG << dump(inBuf); int pos = 0; const char *buf = inBuf.constData(); if (inBuf.size() < 4) { QSOCKS5_D_DEBUG << "bugus udp data, discarding"; return; } QSocks5RevivedDatagram datagram; if (buf[pos++] != 0 || buf[pos++] != 0) { QSOCKS5_D_DEBUG << "invalid datagram discarding"; return; } if (buf[pos++] != 0) { //### add fragmentation reading support QSOCKS5_D_DEBUG << "don't support fragmentation yet disgarding"; return; } if (!qt_socks5_get_host_address_and_port(inBuf, &datagram.address, &datagram.port, &pos)) { QSOCKS5_D_DEBUG << "failed to get address from datagram disgarding"; return; } datagram.data = QByteArray(&buf[pos], inBuf.size() - pos); udpData->pendingDatagrams.enqueue(datagram); } emitReadNotification(); } #endif // QT_NO_UDPSOCKET bool QSocks5SocketEngine::bind(const QHostAddress &address, quint16 port) { Q_D(QSocks5SocketEngine); // when bind wee will block until the bind is finished as the info from the proxy server is needed if (!d->data) { if (socketType() == QAbstractSocket::TcpSocket) { d->initialize(QSocks5SocketEnginePrivate::BindMode); #ifndef QT_NO_UDPSOCKET } else if (socketType() == QAbstractSocket::UdpSocket) { d->initialize(QSocks5SocketEnginePrivate::UdpAssociateMode); #endif } else { //### something invalid return false; } } #ifndef QT_NO_UDPSOCKET if (d->mode == QSocks5SocketEnginePrivate::UdpAssociateMode) { if (!d->udpData->udpSocket->bind(address, port)) { QSOCKS5_Q_DEBUG << "local udp bind failed"; setError(d->udpData->udpSocket->error(), d->udpData->udpSocket->errorString()); return false; } d->localAddress = d->udpData->udpSocket->localAddress(); d->localPort = d->udpData->udpSocket->localPort(); } else #endif if (d->mode == QSocks5SocketEnginePrivate::BindMode) { d->localAddress = address; d->localPort = port; } else { //### something invalid return false; } int msecs = SOCKS5_BLOCKING_BIND_TIMEOUT; QTime stopWatch; stopWatch.start(); d->data->controlSocket->connectToHost(d->proxyInfo.hostName(), d->proxyInfo.port()); if (!d->waitForConnected(msecs, 0) || d->data->controlSocket->state() == QAbstractSocket::UnconnectedState) { // waitForConnected sets the error state and closes the socket QSOCKS5_Q_DEBUG << "waitForConnected to proxy server" << d->data->controlSocket->errorString(); return false; } if (d->socks5State == QSocks5SocketEnginePrivate::BindSuccess) { setState(QAbstractSocket::BoundState); return true; #ifndef QT_NO_UDPSOCKET } else if (d->socks5State == QSocks5SocketEnginePrivate::UdpAssociateSuccess) { setState(QAbstractSocket::BoundState); d->udpData->associateAddress = d->localAddress; d->localAddress = QHostAddress(); d->udpData->associatePort = d->localPort; d->localPort = 0; QUdpSocket dummy; dummy.setProxy(QNetworkProxy::NoProxy); if (!dummy.bind() || writeDatagram(0,0, d->data->controlSocket->localAddress(), dummy.localPort()) != 0 || !dummy.waitForReadyRead(qt_timeout_value(msecs, stopWatch.elapsed())) || dummy.readDatagram(0,0, &d->localAddress, &d->localPort) != 0) { QSOCKS5_DEBUG << "udp actual address and port lookup failed"; setState(QAbstractSocket::UnconnectedState); setError(dummy.error(), dummy.errorString()); d->data->controlSocket->close(); //### reset and error return false; } QSOCKS5_DEBUG << "udp actual address and port" << d->localAddress << ":" << d->localPort; return true; #endif // QT_NO_UDPSOCKET } // binding timed out setError(QAbstractSocket::SocketTimeoutError, QLatin1String(QT_TRANSLATE_NOOP("QSocks5SocketEngine", "Network operation timed out"))); ///### delete d->udpSocket; ///### d->udpSocket = 0; return false; } bool QSocks5SocketEngine::listen() { Q_D(QSocks5SocketEngine); QSOCKS5_Q_DEBUG << "listen()"; // check that we are in bound and then go to listening. if (d->socketState == QAbstractSocket::BoundState) { d->socketState = QAbstractSocket::ListeningState; // check if we already have a connection if (d->socks5State == QSocks5SocketEnginePrivate::BindSuccess) d->emitReadNotification(); return true; } return false; } int QSocks5SocketEngine::accept() { Q_D(QSocks5SocketEngine); // check we are listing --- QSOCKS5_Q_DEBUG << "accept()"; if (d->socks5State == QSocks5SocketEnginePrivate::BindSuccess) { QSOCKS5_Q_DEBUG << "BindSuccess adding" << d->socketDescriptor << "to the bind store"; d->data->controlSocket->disconnect(); d->data->controlSocket->setParent(0); d->bindData->localAddress = d->localAddress; d->bindData->localPort = d->localPort; int sd = d->socketDescriptor; socks5BindStore()->add(sd, d->bindData); d->data = 0; d->bindData = 0; d->socketDescriptor = 0; //### do something about this socket layer ... set it closed and an error about why ... // reset state and local port/address d->socks5State = QSocks5SocketEnginePrivate::Uninitialized; // ..?? d->socketState = QAbstractSocket::UnconnectedState; return sd; } return -1; } void QSocks5SocketEngine::close() { QSOCKS5_Q_DEBUG << "close()"; Q_D(QSocks5SocketEngine); if (d->data && d->data->controlSocket) { if (d->data->controlSocket->state() == QAbstractSocket::ConnectedState) { int msecs = 100; QTime stopWatch; stopWatch.start(); while (!d->data->controlSocket->bytesToWrite()) { if (!d->data->controlSocket->waitForBytesWritten(qt_timeout_value(msecs, stopWatch.elapsed()))) break; } } d->data->controlSocket->close(); } #ifndef QT_NO_UDPSOCKET if (d->udpData && d->udpData->udpSocket) d->udpData->udpSocket->close(); #endif } qint64 QSocks5SocketEngine::bytesAvailable() const { Q_D(const QSocks5SocketEngine); if (d->mode == QSocks5SocketEnginePrivate::ConnectMode) return d->connectData->readBuffer.size(); #ifndef QT_NO_UDPSOCKET else if (d->mode == QSocks5SocketEnginePrivate::UdpAssociateMode && !d->udpData->pendingDatagrams.isEmpty()) return d->udpData->pendingDatagrams.first().data.size(); #endif return 0; } qint64 QSocks5SocketEngine::read(char *data, qint64 maxlen) { Q_D(QSocks5SocketEngine); QSOCKS5_Q_DEBUG << "read( , maxlen = " << maxlen << ")"; if (d->mode == QSocks5SocketEnginePrivate::ConnectMode) { if (d->connectData->readBuffer.size() == 0) { if (d->data->controlSocket->state() == QAbstractSocket::UnconnectedState) { //imitate remote closed close(); setError(QAbstractSocket::RemoteHostClosedError, QLatin1String("Remote host closed connection###")); setState(QAbstractSocket::UnconnectedState); return -1; } else { return 0; // nothing to be read } } qint64 copy = qMin(d->connectData->readBuffer.size(), maxlen); memcpy(data, d->connectData->readBuffer.constData(), copy); d->connectData->readBuffer.remove(0, copy); QSOCKS5_DEBUG << "read" << dump(QByteArray(data, copy)); return copy; #ifndef QT_NO_UDPSOCKET } else if (d->mode == QSocks5SocketEnginePrivate::UdpAssociateMode) { return readDatagram(data, maxlen); #endif } return 0; } qint64 QSocks5SocketEngine::write(const char *data, qint64 len) { Q_D(QSocks5SocketEngine); QSOCKS5_Q_DEBUG << "write" << dump(QByteArray(data, len)); if (d->mode == QSocks5SocketEnginePrivate::ConnectMode) { // clamp down the amount of bytes to transfer at once len = qMin(len, MaxWriteBufferSize) - d->data->controlSocket->bytesToWrite(); if (len <= 0) return 0; QByteArray buf = QByteArray::fromRawData(data, len); QByteArray sealedBuf; if (!d->data->authenticator->seal(buf, &sealedBuf)) { // ### Handle this error. } d->data->controlSocket->write(sealedBuf); d->data->controlSocket->waitForBytesWritten(0); return len; #ifndef QT_NO_UDPSOCKET } else if (d->mode == QSocks5SocketEnginePrivate::UdpAssociateMode) { // send to connected address return writeDatagram(data, len, d->peerAddress, d->peerPort); #endif } //### set an error ??? return -1; } #ifndef QT_NO_UDPSOCKET qint64 QSocks5SocketEngine::readDatagram(char *data, qint64 maxlen, QHostAddress *addr, quint16 *port) { Q_D(QSocks5SocketEngine); d->checkForDatagrams(); if (d->udpData->pendingDatagrams.isEmpty()) return 0; QSocks5RevivedDatagram datagram = d->udpData->pendingDatagrams.dequeue(); int copyLen = qMin(maxlen, datagram.data.size()); memcpy(data, datagram.data.constData(), copyLen); if (addr) *addr = datagram.address; if (port) *port = datagram.port; return copyLen; } qint64 QSocks5SocketEngine::writeDatagram(const char *data, qint64 len, const QHostAddress &address, quint16 port) { Q_D(QSocks5SocketEngine); // it is possible to send with out first binding with udp, but socks5 requires a bind. if (!d->data) { d->initialize(QSocks5SocketEnginePrivate::UdpAssociateMode); // all udp needs to be bound if (!bind(QHostAddress(QLatin1String("0.0.0.0")), 0)) { //### set error return -1; } } QByteArray outBuf; outBuf.reserve(270 + len); outBuf[0] = 0x00; outBuf[1] = 0x00; outBuf[2] = 0x00; if (!qt_socks5_set_host_address_and_port(address, port, &outBuf)) { } outBuf += QByteArray(data, len); QSOCKS5_DEBUG << "sending" << dump(outBuf); QByteArray sealedBuf; if (!d->data->authenticator->seal(outBuf, &sealedBuf)) { QSOCKS5_DEBUG << "sealing data failed"; setError(QAbstractSocket::SocketAccessError, d->data->authenticator->errorString()); return -1; } if (d->udpData->udpSocket->writeDatagram(sealedBuf, d->udpData->associateAddress, d->udpData->associatePort) != sealedBuf.size()) { //### try frgamenting if (d->udpData->udpSocket->error() == QAbstractSocket::DatagramTooLargeError) setError(d->udpData->udpSocket->error(), d->udpData->udpSocket->errorString()); //### else maybe more serious error return -1; } return len; } bool QSocks5SocketEngine::hasPendingDatagrams() const { Q_D(const QSocks5SocketEngine); Q_INIT_CHECK(false); d->checkForDatagrams(); return !d->udpData->pendingDatagrams.isEmpty(); } qint64 QSocks5SocketEngine::pendingDatagramSize() const { Q_D(const QSocks5SocketEngine); d->checkForDatagrams(); if (!d->udpData->pendingDatagrams.isEmpty()) return d->udpData->pendingDatagrams.head().data.size(); return 0; } #endif // QT_NO_UDPSOCKET int QSocks5SocketEngine::option(SocketOption option) const { Q_UNUSED(option); return -1; } bool QSocks5SocketEngine::setOption(SocketOption option, int value) { Q_UNUSED(option); Q_UNUSED(value); return false; } bool QSocks5SocketEnginePrivate::waitForConnected(int msecs, bool *timedOut) { if (data->controlSocket->state() == QAbstractSocket::UnconnectedState) return false; const Socks5State wantedState = mode == ConnectMode ? Connected : mode == BindMode ? BindSuccess : UdpAssociateSuccess; QTime stopWatch; stopWatch.start(); while (socks5State != wantedState) { if (!data->controlSocket->waitForReadyRead(qt_timeout_value(msecs, stopWatch.elapsed()))) { if (data->controlSocket->state() == QAbstractSocket::UnconnectedState) return true; setErrorState(QSocks5SocketEnginePrivate::ControlSocketError); if (timedOut && data->controlSocket->error() == QAbstractSocket::SocketTimeoutError) *timedOut = true; return false; } } return true; } bool QSocks5SocketEngine::waitForRead(int msecs, bool *timedOut) { Q_D(QSocks5SocketEngine); QSOCKS5_DEBUG << "waitForRead" << msecs; d->readNotificationActivated = false; QTime stopWatch; stopWatch.start(); // are we connected yet? if (!d->waitForConnected(msecs, timedOut)) return false; if (d->data->controlSocket->state() == QAbstractSocket::UnconnectedState) return true; // we're connected if (d->mode == QSocks5SocketEnginePrivate::ConnectMode || d->mode == QSocks5SocketEnginePrivate::BindMode) { while (!d->readNotificationActivated) { if (!d->data->controlSocket->waitForReadyRead(qt_timeout_value(msecs, stopWatch.elapsed()))) { if (d->data->controlSocket->state() == QAbstractSocket::UnconnectedState) return true; setError(d->data->controlSocket->error(), d->data->controlSocket->errorString()); if (timedOut && d->data->controlSocket->error() == QAbstractSocket::SocketTimeoutError) *timedOut = true; return false; } } #ifndef QT_NO_UDPSOCKET } else { while (!d->readNotificationActivated) { if (!d->udpData->udpSocket->waitForReadyRead(qt_timeout_value(msecs, stopWatch.elapsed()))) { setError(d->udpData->udpSocket->error(), d->udpData->udpSocket->errorString()); if (timedOut && d->udpData->udpSocket->error() == QAbstractSocket::SocketTimeoutError) *timedOut = true; return false; } } #endif // QT_NO_UDPSOCKET } bool ret = d->readNotificationActivated; d->readNotificationActivated = false; QSOCKS5_DEBUG << "waitForRead returned" << ret; return ret; } bool QSocks5SocketEngine::waitForWrite(int msecs, bool *timedOut) { Q_D(QSocks5SocketEngine); QSOCKS5_DEBUG << "waitForWrite" << msecs; QTime stopWatch; stopWatch.start(); // are we connected yet? if (!d->waitForConnected(msecs, timedOut)) return false; if (d->data->controlSocket->state() == QAbstractSocket::UnconnectedState) return true; // we're connected // flush any bytes we may still have buffered in the time that we have left if (d->data->controlSocket->bytesToWrite()) d->data->controlSocket->waitForBytesWritten(qt_timeout_value(msecs, stopWatch.elapsed())); while ((msecs == -1 || stopWatch.elapsed() < msecs) && d->data->controlSocket->state() == QAbstractSocket::ConnectedState && d->data->controlSocket->bytesToWrite() >= MaxWriteBufferSize) d->data->controlSocket->waitForBytesWritten(qt_timeout_value(msecs, stopWatch.elapsed())); return d->data->controlSocket->bytesToWrite() < MaxWriteBufferSize; } bool QSocks5SocketEngine::waitForReadOrWrite(bool *readyToRead, bool *readyToWrite, bool checkRead, bool checkWrite, int msecs, bool *timedOut) { Q_UNUSED(checkRead); if (!checkWrite) { bool canRead = waitForRead(msecs, timedOut); if (readyToRead) *readyToRead = canRead; return canRead; } bool canWrite = waitForWrite(msecs, timedOut); if (readyToWrite) *readyToWrite = canWrite; return canWrite; } bool QSocks5SocketEngine::isReadNotificationEnabled() const { Q_D(const QSocks5SocketEngine); return d->readNotificationEnabled; } void QSocks5SocketEngine::setReadNotificationEnabled(bool enable) { Q_D(QSocks5SocketEngine); QSOCKS5_Q_DEBUG << "setReadNotificationEnabled(" << enable << ")"; bool emitSignal = false; if (!d->readNotificationEnabled && enable) { if (d->mode == QSocks5SocketEnginePrivate::ConnectMode) emitSignal = !d->connectData->readBuffer.isEmpty(); #ifndef QT_NO_UDPSOCKET else if (d->mode == QSocks5SocketEnginePrivate::UdpAssociateMode) emitSignal = !d->udpData->pendingDatagrams.isEmpty(); #endif else if (d->mode == QSocks5SocketEnginePrivate::BindMode && d->socketState == QAbstractSocket::ListeningState && d->socks5State == QSocks5SocketEnginePrivate::BindSuccess) emitSignal = true; } d->readNotificationEnabled = enable; if (emitSignal) d->emitReadNotification(); } bool QSocks5SocketEngine::isWriteNotificationEnabled() const { Q_D(const QSocks5SocketEngine); return d->writeNotificationEnabled; } void QSocks5SocketEngine::setWriteNotificationEnabled(bool enable) { Q_D(QSocks5SocketEngine); d->writeNotificationEnabled = enable; if (enable && d->socketState == QAbstractSocket::ConnectedState) { if (d->mode == QSocks5SocketEnginePrivate::ConnectMode && d->data->controlSocket->bytesToWrite()) return; // will be emitted as a result of bytes written d->emitWriteNotification(); d->writeNotificationActivated = false; } } bool QSocks5SocketEngine::isExceptionNotificationEnabled() const { Q_D(const QSocks5SocketEngine); return d->exceptNotificationEnabled; } void QSocks5SocketEngine::setExceptionNotificationEnabled(bool enable) { Q_D(QSocks5SocketEngine); d->exceptNotificationEnabled = enable; } QAbstractSocketEngine * QSocks5SocketEngineHandler::createSocketEngine(QAbstractSocket::SocketType socketType, const QNetworkProxy &proxy, QObject *parent) { Q_UNUSED(socketType); // proxy type must have been resolved by now if (proxy.type() != QNetworkProxy::Socks5Proxy) { QSOCKS5_DEBUG << "not proxying"; return 0; } QSocks5SocketEngine *engine = new QSocks5SocketEngine(parent); engine->setProxy(proxy); return engine; } QAbstractSocketEngine *QSocks5SocketEngineHandler::createSocketEngine(int socketDescriptor, QObject *parent) { QSOCKS5_DEBUG << "createSocketEngine" << socketDescriptor; if (socks5BindStore()->contains(socketDescriptor)) { QSOCKS5_DEBUG << "bind store contains" << socketDescriptor; return new QSocks5SocketEngine(parent); } return 0; } #endif // QT_NO_SOCKS5 QT_END_NAMESPACE