/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Copyright (C) 2016 Intel Corporation. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the QtNetwork module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 3 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL3 included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 3 requirements ** will be met: https://www.gnu.org/licenses/lgpl-3.0.html. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 2.0 or (at your option) the GNU General ** Public license version 3 or any later version approved by the KDE Free ** Qt Foundation. The licenses are as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL2 and LICENSE.GPL3 ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-2.0.html and ** https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ // Prevent windows system header files from defining min/max as macros. #define NOMINMAX 1 #include #include #include "qnativesocketengine_p.h" #include #include #include #include #include #include //#define QNATIVESOCKETENGINE_DEBUG #if defined(QNATIVESOCKETENGINE_DEBUG) # include # include #endif QT_BEGIN_NAMESPACE //Some distributions of mingw (including 4.7.2 from mingw.org) are missing this from headers. //Also microsoft headers don't include it when building on XP and earlier. #ifndef IPV6_V6ONLY #define IPV6_V6ONLY 27 #endif #ifndef IP_HOPLIMIT #define IP_HOPLIMIT 21 // Receive packet hop limit. #endif #if defined(QNATIVESOCKETENGINE_DEBUG) void verboseWSErrorDebug(int r) { switch (r) { case WSANOTINITIALISED : qDebug("WSA error : WSANOTINITIALISED"); break; case WSAEINTR: qDebug("WSA error : WSAEINTR"); break; case WSAEBADF: qDebug("WSA error : WSAEBADF"); break; case WSAEACCES: qDebug("WSA error : WSAEACCES"); break; case WSAEFAULT: qDebug("WSA error : WSAEFAULT"); break; case WSAEINVAL: qDebug("WSA error : WSAEINVAL"); break; case WSAEMFILE: qDebug("WSA error : WSAEMFILE"); break; case WSAEWOULDBLOCK: qDebug("WSA error : WSAEWOULDBLOCK"); break; case WSAEINPROGRESS: qDebug("WSA error : WSAEINPROGRESS"); break; case WSAEALREADY: qDebug("WSA error : WSAEALREADY"); break; case WSAENOTSOCK: qDebug("WSA error : WSAENOTSOCK"); break; case WSAEDESTADDRREQ: qDebug("WSA error : WSAEDESTADDRREQ"); break; case WSAEMSGSIZE: qDebug("WSA error : WSAEMSGSIZE"); break; case WSAEPROTOTYPE: qDebug("WSA error : WSAEPROTOTYPE"); break; case WSAENOPROTOOPT: qDebug("WSA error : WSAENOPROTOOPT"); break; case WSAEPROTONOSUPPORT: qDebug("WSA error : WSAEPROTONOSUPPORT"); break; case WSAESOCKTNOSUPPORT: qDebug("WSA error : WSAESOCKTNOSUPPORT"); break; case WSAEOPNOTSUPP: qDebug("WSA error : WSAEOPNOTSUPP"); break; case WSAEPFNOSUPPORT: qDebug("WSA error : WSAEPFNOSUPPORT"); break; case WSAEAFNOSUPPORT: qDebug("WSA error : WSAEAFNOSUPPORT"); break; case WSAEADDRINUSE: qDebug("WSA error : WSAEADDRINUSE"); break; case WSAEADDRNOTAVAIL: qDebug("WSA error : WSAEADDRNOTAVAIL"); break; case WSAENETDOWN: qDebug("WSA error : WSAENETDOWN"); break; case WSAENETUNREACH: qDebug("WSA error : WSAENETUNREACH"); break; case WSAENETRESET: qDebug("WSA error : WSAENETRESET"); break; case WSAECONNABORTED: qDebug("WSA error : WSAECONNABORTED"); break; case WSAECONNRESET: qDebug("WSA error : WSAECONNRESET"); break; case WSAENOBUFS: qDebug("WSA error : WSAENOBUFS"); break; case WSAEISCONN: qDebug("WSA error : WSAEISCONN"); break; case WSAENOTCONN: qDebug("WSA error : WSAENOTCONN"); break; case WSAESHUTDOWN: qDebug("WSA error : WSAESHUTDOWN"); break; case WSAETOOMANYREFS: qDebug("WSA error : WSAETOOMANYREFS"); break; case WSAETIMEDOUT: qDebug("WSA error : WSAETIMEDOUT"); break; case WSAECONNREFUSED: qDebug("WSA error : WSAECONNREFUSED"); break; case WSAELOOP: qDebug("WSA error : WSAELOOP"); break; case WSAENAMETOOLONG: qDebug("WSA error : WSAENAMETOOLONG"); break; case WSAEHOSTDOWN: qDebug("WSA error : WSAEHOSTDOWN"); break; case WSAEHOSTUNREACH: qDebug("WSA error : WSAEHOSTUNREACH"); break; case WSAENOTEMPTY: qDebug("WSA error : WSAENOTEMPTY"); break; case WSAEPROCLIM: qDebug("WSA error : WSAEPROCLIM"); break; case WSAEUSERS: qDebug("WSA error : WSAEUSERS"); break; case WSAEDQUOT: qDebug("WSA error : WSAEDQUOT"); break; case WSAESTALE: qDebug("WSA error : WSAESTALE"); break; case WSAEREMOTE: qDebug("WSA error : WSAEREMOTE"); break; case WSAEDISCON: qDebug("WSA error : WSAEDISCON"); break; default: qDebug("WSA error : Unknown"); break; } qErrnoWarning(r, "more details"); } /* Returns a human readable representation of the first \a len characters in \a data. */ static QByteArray qt_prettyDebug(const char *data, int len, int maxLength) { if (!data) return "(null)"; QByteArray out; for (int i = 0; i < len; ++i) { char c = data[i]; if (isprint(int(uchar(c)))) { out += c; } else switch (c) { case '\n': out += "\\n"; break; case '\r': out += "\\r"; break; case '\t': out += "\\t"; break; default: QString tmp; tmp.sprintf("\\%o", c); out += tmp.toLatin1().constData(); } } if (len < maxLength) out += "..."; return out; } #define WS_ERROR_DEBUG(x) verboseWSErrorDebug(x); #else #define WS_ERROR_DEBUG(x) Q_UNUSED(x) #endif #ifndef AF_INET6 #define AF_INET6 23 /* Internetwork Version 6 */ #endif #ifndef SO_EXCLUSIVEADDRUSE #define SO_EXCLUSIVEADDRUSE ((int)(~SO_REUSEADDR)) /* disallow local address reuse */ #endif /* Extracts the port and address from a sockaddr, and stores them in \a port and \a addr if they are non-null. */ static inline void qt_socket_getPortAndAddress(SOCKET socketDescriptor, const qt_sockaddr *sa, quint16 *port, QHostAddress *address) { if (sa->a.sa_family == AF_INET6) { const sockaddr_in6 *sa6 = &sa->a6; Q_IPV6ADDR tmp; for (int i = 0; i < 16; ++i) tmp.c[i] = sa6->sin6_addr.s6_addr[i]; if (address) { QHostAddress a; a.setAddress(tmp); if (sa6->sin6_scope_id) a.setScopeId(QString::number(sa6->sin6_scope_id)); *address = a; } if (port) WSANtohs(socketDescriptor, sa6->sin6_port, port); } else if (sa->a.sa_family == AF_INET) { const sockaddr_in *sa4 = &sa->a4; unsigned long addr; WSANtohl(socketDescriptor, sa4->sin_addr.s_addr, &addr); QHostAddress a; a.setAddress(addr); if (address) *address = a; if (port) WSANtohs(socketDescriptor, sa4->sin_port, port); } } static void convertToLevelAndOption(QNativeSocketEngine::SocketOption opt, QAbstractSocket::NetworkLayerProtocol socketProtocol, int &level, int &n) { n = -1; level = SOL_SOCKET; // default switch (opt) { case QNativeSocketEngine::NonBlockingSocketOption: // WSAIoctl case QNativeSocketEngine::TypeOfServiceOption: // not supported case QNativeSocketEngine::MaxStreamsSocketOption: Q_UNREACHABLE(); case QNativeSocketEngine::ReceiveBufferSocketOption: n = SO_RCVBUF; break; case QNativeSocketEngine::SendBufferSocketOption: n = SO_SNDBUF; break; case QNativeSocketEngine::BroadcastSocketOption: n = SO_BROADCAST; break; case QNativeSocketEngine::AddressReusable: n = SO_REUSEADDR; break; case QNativeSocketEngine::BindExclusively: n = SO_EXCLUSIVEADDRUSE; break; case QNativeSocketEngine::ReceiveOutOfBandData: n = SO_OOBINLINE; break; case QNativeSocketEngine::LowDelayOption: level = IPPROTO_TCP; n = TCP_NODELAY; break; case QNativeSocketEngine::KeepAliveOption: n = SO_KEEPALIVE; break; case QNativeSocketEngine::MulticastTtlOption: if (socketProtocol == QAbstractSocket::IPv6Protocol || socketProtocol == QAbstractSocket::AnyIPProtocol) { level = IPPROTO_IPV6; n = IPV6_MULTICAST_HOPS; } else { level = IPPROTO_IP; n = IP_MULTICAST_TTL; } break; case QNativeSocketEngine::MulticastLoopbackOption: if (socketProtocol == QAbstractSocket::IPv6Protocol || socketProtocol == QAbstractSocket::AnyIPProtocol) { level = IPPROTO_IPV6; n = IPV6_MULTICAST_LOOP; } else { level = IPPROTO_IP; n = IP_MULTICAST_LOOP; } break; case QNativeSocketEngine::ReceivePacketInformation: if (socketProtocol == QAbstractSocket::IPv6Protocol || socketProtocol == QAbstractSocket::AnyIPProtocol) { level = IPPROTO_IPV6; n = IPV6_PKTINFO; } else if (socketProtocol == QAbstractSocket::IPv4Protocol) { level = IPPROTO_IP; n = IP_PKTINFO; } break; case QNativeSocketEngine::ReceiveHopLimit: if (socketProtocol == QAbstractSocket::IPv6Protocol || socketProtocol == QAbstractSocket::AnyIPProtocol) { level = IPPROTO_IPV6; n = IPV6_HOPLIMIT; } else if (socketProtocol == QAbstractSocket::IPv4Protocol) { level = IPPROTO_IP; n = IP_HOPLIMIT; } break; case QAbstractSocketEngine::PathMtuInformation: break; // not supported on Windows } } /*! \internal */ static inline QAbstractSocket::SocketType qt_socket_getType(qintptr socketDescriptor) { int value = 0; QT_SOCKLEN_T valueSize = sizeof(value); if (::getsockopt(socketDescriptor, SOL_SOCKET, SO_TYPE, reinterpret_cast(&value), &valueSize) != 0) { WS_ERROR_DEBUG(WSAGetLastError()); } else { if (value == SOCK_STREAM) return QAbstractSocket::TcpSocket; else if (value == SOCK_DGRAM) return QAbstractSocket::UdpSocket; } return QAbstractSocket::UnknownSocketType; } // MS Transport Provider IOCTL to control // reporting PORT_UNREACHABLE messages // on UDP sockets via recv/WSARecv/etc. // Path TRUE in input buffer to enable (default if supported), // FALSE to disable. #ifndef SIO_UDP_CONNRESET # ifndef IOC_VENDOR # define IOC_VENDOR 0x18000000 # endif # ifndef _WSAIOW # define _WSAIOW(x,y) (IOC_IN|(x)|(y)) # endif # define SIO_UDP_CONNRESET _WSAIOW(IOC_VENDOR,12) #endif bool QNativeSocketEnginePrivate::createNewSocket(QAbstractSocket::SocketType socketType, QAbstractSocket::NetworkLayerProtocol &socketProtocol) { //### no ip6 support on winsocket 1.1 but we will try not to use this !!!!!!!!!!!!1 /* if (winsockVersion < 0x20 && socketProtocol == QAbstractSocket::IPv6Protocol) { //### no ip6 support return -1; } */ //### SCTP not implemented if (socketType == QAbstractSocket::SctpSocket) { setError(QAbstractSocket::UnsupportedSocketOperationError, ProtocolUnsupportedErrorString); return false; } //Windows XP and 2003 support IPv6 but not dual stack sockets int protocol = (socketProtocol == QAbstractSocket::IPv6Protocol || (socketProtocol == QAbstractSocket::AnyIPProtocol)) ? AF_INET6 : AF_INET; int type = (socketType == QAbstractSocket::UdpSocket) ? SOCK_DGRAM : SOCK_STREAM; // MSDN KB179942 states that on winnt 4 WSA_FLAG_OVERLAPPED is needed if socket is to be non blocking // and recomends alwasy doing it for cross windows version comapablity. // WSA_FLAG_NO_HANDLE_INHERIT is atomic (like linux O_CLOEXEC), but requires windows 7 SP 1 or later // SetHandleInformation is supported since W2K but isn't atomic #ifndef WSA_FLAG_NO_HANDLE_INHERIT #define WSA_FLAG_NO_HANDLE_INHERIT 0x80 #endif SOCKET socket = ::WSASocket(protocol, type, 0, NULL, 0, WSA_FLAG_NO_HANDLE_INHERIT | WSA_FLAG_OVERLAPPED); // previous call fails if the windows 7 service pack 1 or hot fix isn't installed. // Try the old API if the new one failed on Windows 7 if (socket == INVALID_SOCKET && QOperatingSystemVersion::current() < QOperatingSystemVersion::Windows8) { socket = ::WSASocket(protocol, type, 0, NULL, 0, WSA_FLAG_OVERLAPPED); #ifdef HANDLE_FLAG_INHERIT if (socket != INVALID_SOCKET) { // make non inheritable the old way BOOL handleFlags = SetHandleInformation(reinterpret_cast(socket), HANDLE_FLAG_INHERIT, 0); #ifdef QNATIVESOCKETENGINE_DEBUG qDebug() << "QNativeSocketEnginePrivate::createNewSocket - set inheritable" << handleFlags; #else Q_UNUSED(handleFlags); #endif } #endif } if (socket == INVALID_SOCKET) { int err = WSAGetLastError(); WS_ERROR_DEBUG(err); switch (err) { case WSANOTINITIALISED: //### break; case WSAEAFNOSUPPORT: case WSAESOCKTNOSUPPORT: case WSAEPROTOTYPE: case WSAEINVAL: setError(QAbstractSocket::UnsupportedSocketOperationError, ProtocolUnsupportedErrorString); break; case WSAEMFILE: case WSAENOBUFS: setError(QAbstractSocket::SocketResourceError, ResourceErrorString); break; default: break; } return false; } if (socketType == QAbstractSocket::UdpSocket) { // enable new behavior using // SIO_UDP_CONNRESET DWORD dwBytesReturned = 0; int bNewBehavior = 1; if (::WSAIoctl(socket, SIO_UDP_CONNRESET, &bNewBehavior, sizeof(bNewBehavior), NULL, 0, &dwBytesReturned, NULL, NULL) == SOCKET_ERROR) { // not to worry isBogusUdpReadNotification() should handle this otherwise int err = WSAGetLastError(); WS_ERROR_DEBUG(err); } } // get the pointer to sendmsg and recvmsg DWORD bytesReturned; GUID recvmsgguid = WSAID_WSARECVMSG; if (WSAIoctl(socket, SIO_GET_EXTENSION_FUNCTION_POINTER, &recvmsgguid, sizeof(recvmsgguid), &recvmsg, sizeof(recvmsg), &bytesReturned, NULL, NULL) == SOCKET_ERROR) recvmsg = 0; GUID sendmsgguid = WSAID_WSASENDMSG; if (WSAIoctl(socket, SIO_GET_EXTENSION_FUNCTION_POINTER, &sendmsgguid, sizeof(sendmsgguid), &sendmsg, sizeof(sendmsg), &bytesReturned, NULL, NULL) == SOCKET_ERROR) sendmsg = 0; socketDescriptor = socket; if (socket != INVALID_SOCKET) { this->socketProtocol = socketProtocol; this->socketType = socketType; } // Make the socket nonblocking. if (!setOption(QAbstractSocketEngine::NonBlockingSocketOption, 1)) { setError(QAbstractSocket::UnsupportedSocketOperationError, NonBlockingInitFailedErrorString); q_func()->close(); return false; } return true; } /*! \internal Returns the value of the socket option \a opt. */ int QNativeSocketEnginePrivate::option(QNativeSocketEngine::SocketOption opt) const { Q_Q(const QNativeSocketEngine); if (!q->isValid()) return -1; // handle non-getsockopt switch (opt) { case QNativeSocketEngine::NonBlockingSocketOption: { unsigned long buf = 0; if (WSAIoctl(socketDescriptor, FIONBIO, 0,0, &buf, sizeof(buf), 0,0,0) == 0) return buf; else return -1; break; } case QNativeSocketEngine::TypeOfServiceOption: case QNativeSocketEngine::MaxStreamsSocketOption: return -1; default: break; } #if Q_BYTE_ORDER != Q_LITTLE_ENDIAN #error code assumes windows is little endian #endif int n, level; int v = 0; //note: windows doesn't write to all bytes if the option type is smaller than int QT_SOCKOPTLEN_T len = sizeof(v); convertToLevelAndOption(opt, socketProtocol, level, n); if (n != -1) { if (getsockopt(socketDescriptor, level, n, (char *) &v, &len) == 0) return v; WS_ERROR_DEBUG(WSAGetLastError()); } return -1; } /*! \internal Sets the socket option \a opt to \a v. */ bool QNativeSocketEnginePrivate::setOption(QNativeSocketEngine::SocketOption opt, int v) { Q_Q(const QNativeSocketEngine); if (!q->isValid()) return false; // handle non-setsockopt options switch (opt) { case QNativeSocketEngine::SendBufferSocketOption: // see QTBUG-30478 SO_SNDBUF should not be used on Vista or later return false; case QNativeSocketEngine::NonBlockingSocketOption: { unsigned long buf = v; unsigned long outBuf; DWORD sizeWritten = 0; if (::WSAIoctl(socketDescriptor, FIONBIO, &buf, sizeof(unsigned long), &outBuf, sizeof(unsigned long), &sizeWritten, 0,0) == SOCKET_ERROR) { WS_ERROR_DEBUG(WSAGetLastError()); return false; } return true; break; } case QNativeSocketEngine::TypeOfServiceOption: case QNativeSocketEngine::MaxStreamsSocketOption: return false; default: break; } int n, level; convertToLevelAndOption(opt, socketProtocol, level, n); if (n == -1) return false; if (::setsockopt(socketDescriptor, level, n, (char*)&v, sizeof(v)) != 0) { WS_ERROR_DEBUG(WSAGetLastError()); return false; } return true; } /*! Fetches information about both ends of the connection: whatever is available. */ bool QNativeSocketEnginePrivate::fetchConnectionParameters() { localPort = 0; localAddress.clear(); peerPort = 0; peerAddress.clear(); inboundStreamCount = outboundStreamCount = 0; if (socketDescriptor == -1) return false; qt_sockaddr sa; QT_SOCKLEN_T sockAddrSize = sizeof(sa); // Determine local address memset(&sa, 0, sizeof(sa)); if (::getsockname(socketDescriptor, &sa.a, &sockAddrSize) == 0) { qt_socket_getPortAndAddress(socketDescriptor, &sa, &localPort, &localAddress); // Determine protocol family switch (sa.a.sa_family) { case AF_INET: socketProtocol = QAbstractSocket::IPv4Protocol; break; case AF_INET6: socketProtocol = QAbstractSocket::IPv6Protocol; break; default: socketProtocol = QAbstractSocket::UnknownNetworkLayerProtocol; break; } } else { int err = WSAGetLastError(); WS_ERROR_DEBUG(err); if (err == WSAENOTSOCK) { setError(QAbstractSocket::UnsupportedSocketOperationError, InvalidSocketErrorString); return false; } } // determine if local address is dual mode DWORD ipv6only = 0; QT_SOCKOPTLEN_T optlen = sizeof(ipv6only); if (localAddress == QHostAddress::AnyIPv6 && !getsockopt(socketDescriptor, IPPROTO_IPV6, IPV6_V6ONLY, (char*)&ipv6only, &optlen )) { if (!ipv6only) { socketProtocol = QAbstractSocket::AnyIPProtocol; localAddress = QHostAddress::Any; } } // Some Windows kernels return a v4-mapped QHostAddress::AnyIPv4 as a // local address of the socket which bound on both IPv4 and IPv6 interfaces. // This address does not match to any special address and should not be used // to send the data. So, replace it with QHostAddress::Any. if (socketProtocol == QAbstractSocket::IPv6Protocol) { bool ok = false; const quint32 localIPv4 = localAddress.toIPv4Address(&ok); if (ok && localIPv4 == INADDR_ANY) { socketProtocol = QAbstractSocket::AnyIPProtocol; localAddress = QHostAddress::Any; } } memset(&sa, 0, sizeof(sa)); if (::getpeername(socketDescriptor, &sa.a, &sockAddrSize) == 0) { qt_socket_getPortAndAddress(socketDescriptor, &sa, &peerPort, &peerAddress); inboundStreamCount = outboundStreamCount = 1; } else { WS_ERROR_DEBUG(WSAGetLastError()); } socketType = qt_socket_getType(socketDescriptor); #if defined (QNATIVESOCKETENGINE_DEBUG) QString socketProtocolStr = "UnknownProtocol"; if (socketProtocol == QAbstractSocket::IPv4Protocol) socketProtocolStr = "IPv4Protocol"; else if (socketProtocol == QAbstractSocket::IPv6Protocol) socketProtocolStr = "IPv6Protocol"; QString socketTypeStr = "UnknownSocketType"; if (socketType == QAbstractSocket::TcpSocket) socketTypeStr = "TcpSocket"; else if (socketType == QAbstractSocket::UdpSocket) socketTypeStr = "UdpSocket"; qDebug("QNativeSocketEnginePrivate::fetchConnectionParameters() localAddress == %s, localPort = %i, peerAddress == %s, peerPort = %i, socketProtocol == %s, socketType == %s", localAddress.toString().toLatin1().constData(), localPort, peerAddress.toString().toLatin1().constData(), peerPort, socketProtocolStr.toLatin1().constData(), socketTypeStr.toLatin1().constData()); #endif return true; } bool QNativeSocketEnginePrivate::nativeConnect(const QHostAddress &address, quint16 port) { #if defined (QNATIVESOCKETENGINE_DEBUG) qDebug("QNativeSocketEnginePrivate::nativeConnect() to %s :: %i", address.toString().toLatin1().constData(), port); #endif qt_sockaddr aa; QT_SOCKLEN_T sockAddrSize = 0; setPortAndAddress(port, address, &aa, &sockAddrSize); if ((socketProtocol == QAbstractSocket::IPv6Protocol || socketProtocol == QAbstractSocket::AnyIPProtocol) && address.toIPv4Address()) { //IPV6_V6ONLY option must be cleared to connect to a V4 mapped address DWORD ipv6only = 0; ipv6only = ::setsockopt(socketDescriptor, IPPROTO_IPV6, IPV6_V6ONLY, (char*)&ipv6only, sizeof(ipv6only) ); } forever { int connectResult = ::WSAConnect(socketDescriptor, &aa.a, sockAddrSize, 0,0,0,0); if (connectResult == SOCKET_ERROR) { int err = WSAGetLastError(); WS_ERROR_DEBUG(err); switch (err) { case WSANOTINITIALISED: //### break; case WSAEISCONN: socketState = QAbstractSocket::ConnectedState; break; case WSAEWOULDBLOCK: { // If WSAConnect returns WSAEWOULDBLOCK on the second // connection attempt, we have to check SO_ERROR's // value to detect ECONNREFUSED. If we don't get // ECONNREFUSED, we'll have to treat it as an // unfinished operation. int value = 0; QT_SOCKLEN_T valueSize = sizeof(value); bool tryAgain = false; bool errorDetected = false; int tries = 0; do { if (::getsockopt(socketDescriptor, SOL_SOCKET, SO_ERROR, (char *) &value, &valueSize) == 0) { if (value != NOERROR) { // MSDN says getsockopt with SO_ERROR clears the error, but it's not actually cleared // and this can affect all subsequent WSAConnect attempts, so clear it now. const int val = NO_ERROR; ::setsockopt(socketDescriptor, SOL_SOCKET, SO_ERROR, reinterpret_cast(&val), sizeof val); } if (value == WSAECONNREFUSED) { setError(QAbstractSocket::ConnectionRefusedError, ConnectionRefusedErrorString); socketState = QAbstractSocket::UnconnectedState; errorDetected = true; break; } if (value == WSAETIMEDOUT) { setError(QAbstractSocket::NetworkError, ConnectionTimeOutErrorString); socketState = QAbstractSocket::UnconnectedState; errorDetected = true; break; } if (value == WSAEHOSTUNREACH) { setError(QAbstractSocket::NetworkError, HostUnreachableErrorString); socketState = QAbstractSocket::UnconnectedState; errorDetected = true; break; } if (value == WSAEADDRNOTAVAIL) { setError(QAbstractSocket::NetworkError, AddressNotAvailableErrorString); socketState = QAbstractSocket::UnconnectedState; errorDetected = true; break; } if (value == NOERROR) { // When we get WSAEWOULDBLOCK the outcome was not known, so a // NOERROR might indicate that the result of the operation // is still unknown. We try again to increase the chance that we did // get the correct result. tryAgain = !tryAgain; } } tries++; } while (tryAgain && (tries < 2)); if (errorDetected) break; Q_FALLTHROUGH(); } case WSAEINPROGRESS: setError(QAbstractSocket::UnfinishedSocketOperationError, InvalidSocketErrorString); socketState = QAbstractSocket::ConnectingState; break; case WSAEADDRINUSE: setError(QAbstractSocket::NetworkError, AddressInuseErrorString); break; case WSAECONNREFUSED: setError(QAbstractSocket::ConnectionRefusedError, ConnectionRefusedErrorString); socketState = QAbstractSocket::UnconnectedState; break; case WSAETIMEDOUT: setError(QAbstractSocket::NetworkError, ConnectionTimeOutErrorString); break; case WSAEACCES: setError(QAbstractSocket::SocketAccessError, AccessErrorString); socketState = QAbstractSocket::UnconnectedState; break; case WSAEHOSTUNREACH: setError(QAbstractSocket::NetworkError, HostUnreachableErrorString); socketState = QAbstractSocket::UnconnectedState; break; case WSAENETUNREACH: setError(QAbstractSocket::NetworkError, NetworkUnreachableErrorString); socketState = QAbstractSocket::UnconnectedState; break; case WSAEINVAL: case WSAEALREADY: setError(QAbstractSocket::UnfinishedSocketOperationError, InvalidSocketErrorString); break; default: break; } if (socketState != QAbstractSocket::ConnectedState) { #if defined (QNATIVESOCKETENGINE_DEBUG) qDebug("QNativeSocketEnginePrivate::nativeConnect(%s, %i) == false (%s)", address.toString().toLatin1().constData(), port, socketState == QAbstractSocket::ConnectingState ? "Connection in progress" : socketErrorString.toLatin1().constData()); #endif return false; } } break; } #if defined (QNATIVESOCKETENGINE_DEBUG) qDebug("QNativeSocketEnginePrivate::nativeConnect(%s, %i) == true", address.toString().toLatin1().constData(), port); #endif socketState = QAbstractSocket::ConnectedState; return true; } bool QNativeSocketEnginePrivate::nativeBind(const QHostAddress &a, quint16 port) { QHostAddress address = a; if (address.protocol() == QAbstractSocket::IPv4Protocol) { if ((address.toIPv4Address() & 0xffff0000) == 0xefff0000) { // binding to a multicast address address = QHostAddress(QHostAddress::AnyIPv4); } } qt_sockaddr aa; QT_SOCKLEN_T sockAddrSize = 0; setPortAndAddress(port, address, &aa, &sockAddrSize); if (aa.a.sa_family == AF_INET6) { // The default may change in future, so set it explicitly int ipv6only = 0; if (address.protocol() == QAbstractSocket::IPv6Protocol) ipv6only = 1; ::setsockopt(socketDescriptor, IPPROTO_IPV6, IPV6_V6ONLY, (char*)&ipv6only, sizeof(ipv6only) ); } int bindResult = ::bind(socketDescriptor, &aa.a, sockAddrSize); if (bindResult == SOCKET_ERROR && WSAGetLastError() == WSAEAFNOSUPPORT && address.protocol() == QAbstractSocket::AnyIPProtocol) { // retry with v4 aa.a4.sin_family = AF_INET; aa.a4.sin_port = htons(port); aa.a4.sin_addr.s_addr = htonl(address.toIPv4Address()); sockAddrSize = sizeof(aa.a4); bindResult = ::bind(socketDescriptor, &aa.a, sockAddrSize); } if (bindResult == SOCKET_ERROR) { int err = WSAGetLastError(); WS_ERROR_DEBUG(err); switch (err) { case WSANOTINITIALISED: //### break; case WSAEADDRINUSE: case WSAEINVAL: setError(QAbstractSocket::AddressInUseError, AddressInuseErrorString); break; case WSAEACCES: setError(QAbstractSocket::SocketAccessError, AddressProtectedErrorString); break; case WSAEADDRNOTAVAIL: setError(QAbstractSocket::SocketAddressNotAvailableError, AddressNotAvailableErrorString); break; default: break; } #if defined (QNATIVESOCKETENGINE_DEBUG) qDebug("QNativeSocketEnginePrivate::nativeBind(%s, %i) == false (%s)", address.toString().toLatin1().constData(), port, socketErrorString.toLatin1().constData()); #endif return false; } #if defined (QNATIVESOCKETENGINE_DEBUG) qDebug("QNativeSocketEnginePrivate::nativeBind(%s, %i) == true", address.toString().toLatin1().constData(), port); #endif socketState = QAbstractSocket::BoundState; return true; } bool QNativeSocketEnginePrivate::nativeListen(int backlog) { if (::listen(socketDescriptor, backlog) == SOCKET_ERROR) { int err = WSAGetLastError(); WS_ERROR_DEBUG(err); switch (err) { case WSANOTINITIALISED: //### break; case WSAEADDRINUSE: setError(QAbstractSocket::AddressInUseError, PortInuseErrorString); break; default: break; } #if defined (QNATIVESOCKETENGINE_DEBUG) qDebug("QNativeSocketEnginePrivate::nativeListen(%i) == false (%s)", backlog, socketErrorString.toLatin1().constData()); #endif return false; } #if defined (QNATIVESOCKETENGINE_DEBUG) qDebug("QNativeSocketEnginePrivate::nativeListen(%i) == true", backlog); #endif socketState = QAbstractSocket::ListeningState; return true; } int QNativeSocketEnginePrivate::nativeAccept() { int acceptedDescriptor = WSAAccept(socketDescriptor, 0,0,0,0); if (acceptedDescriptor == -1) { int err = WSAGetLastError(); switch (err) { case WSAEACCES: setError(QAbstractSocket::SocketAccessError, AccessErrorString); break; case WSAECONNREFUSED: setError(QAbstractSocket::ConnectionRefusedError, ConnectionRefusedErrorString); break; case WSAECONNRESET: setError(QAbstractSocket::NetworkError, RemoteHostClosedErrorString); break; case WSAENETDOWN: setError(QAbstractSocket::NetworkError, NetworkUnreachableErrorString); break; case WSAENOTSOCK: setError(QAbstractSocket::SocketResourceError, NotSocketErrorString); break; case WSAEINVAL: case WSAEOPNOTSUPP: setError(QAbstractSocket::UnsupportedSocketOperationError, ProtocolUnsupportedErrorString); break; case WSAEFAULT: case WSAEMFILE: case WSAENOBUFS: setError(QAbstractSocket::SocketResourceError, ResourceErrorString); break; case WSAEWOULDBLOCK: setError(QAbstractSocket::TemporaryError, TemporaryErrorString); break; default: setError(QAbstractSocket::UnknownSocketError, UnknownSocketErrorString); break; } } else if (acceptedDescriptor != -1 && QAbstractEventDispatcher::instance()) { // Because of WSAAsyncSelect() WSAAccept returns a non blocking socket // with the same attributes as the listening socket including the current // WSAAsyncSelect(). To be able to change the socket to blocking mode the // WSAAsyncSelect() call must be cancled. QSocketNotifier n(acceptedDescriptor, QSocketNotifier::Read); n.setEnabled(true); n.setEnabled(false); } #if defined (QNATIVESOCKETENGINE_DEBUG) qDebug("QNativeSocketEnginePrivate::nativeAccept() == %i", acceptedDescriptor); #endif return acceptedDescriptor; } static bool multicastMembershipHelper(QNativeSocketEnginePrivate *d, int how6, int how4, const QHostAddress &groupAddress, const QNetworkInterface &iface) { int level = 0; int sockOpt = 0; char *sockArg; int sockArgSize; struct ip_mreq mreq4; struct ipv6_mreq mreq6; if (groupAddress.protocol() == QAbstractSocket::IPv6Protocol) { level = IPPROTO_IPV6; sockOpt = how6; sockArg = reinterpret_cast(&mreq6); sockArgSize = sizeof(mreq6); memset(&mreq6, 0, sizeof(mreq6)); Q_IPV6ADDR ip6 = groupAddress.toIPv6Address(); memcpy(&mreq6.ipv6mr_multiaddr, &ip6, sizeof(ip6)); mreq6.ipv6mr_interface = iface.index(); } else if (groupAddress.protocol() == QAbstractSocket::IPv4Protocol) { level = IPPROTO_IP; sockOpt = how4; sockArg = reinterpret_cast(&mreq4); sockArgSize = sizeof(mreq4); memset(&mreq4, 0, sizeof(mreq4)); mreq4.imr_multiaddr.s_addr = htonl(groupAddress.toIPv4Address()); if (iface.isValid()) { const QList addressEntries = iface.addressEntries(); bool found = false; for (const QNetworkAddressEntry &entry : addressEntries) { const QHostAddress ip = entry.ip(); if (ip.protocol() == QAbstractSocket::IPv4Protocol) { mreq4.imr_interface.s_addr = htonl(ip.toIPv4Address()); found = true; break; } } if (!found) { d->setError(QAbstractSocket::NetworkError, QNativeSocketEnginePrivate::NetworkUnreachableErrorString); return false; } } else { mreq4.imr_interface.s_addr = INADDR_ANY; } } else { // unreachable d->setError(QAbstractSocket::UnsupportedSocketOperationError, QNativeSocketEnginePrivate::ProtocolUnsupportedErrorString); return false; } int res = setsockopt(d->socketDescriptor, level, sockOpt, sockArg, sockArgSize); if (res == -1) { d->setError(QAbstractSocket::UnsupportedSocketOperationError, QNativeSocketEnginePrivate::OperationUnsupportedErrorString); return false; } return true; } bool QNativeSocketEnginePrivate::nativeJoinMulticastGroup(const QHostAddress &groupAddress, const QNetworkInterface &iface) { return multicastMembershipHelper(this, IPV6_JOIN_GROUP, IP_ADD_MEMBERSHIP, groupAddress, iface); } bool QNativeSocketEnginePrivate::nativeLeaveMulticastGroup(const QHostAddress &groupAddress, const QNetworkInterface &iface) { return multicastMembershipHelper(this, IPV6_LEAVE_GROUP, IP_DROP_MEMBERSHIP, groupAddress, iface); } QNetworkInterface QNativeSocketEnginePrivate::nativeMulticastInterface() const { if (socketProtocol == QAbstractSocket::IPv6Protocol || socketProtocol == QAbstractSocket::AnyIPProtocol) { uint v; QT_SOCKOPTLEN_T sizeofv = sizeof(v); if (::getsockopt(socketDescriptor, IPPROTO_IPV6, IPV6_MULTICAST_IF, (char *) &v, &sizeofv) == -1) return QNetworkInterface(); return QNetworkInterface::interfaceFromIndex(v); } struct in_addr v; v.s_addr = 0; QT_SOCKOPTLEN_T sizeofv = sizeof(v); if (::getsockopt(socketDescriptor, IPPROTO_IP, IP_MULTICAST_IF, (char *) &v, &sizeofv) == -1) return QNetworkInterface(); if (v.s_addr != 0 && sizeofv >= QT_SOCKOPTLEN_T(sizeof(v))) { QHostAddress ipv4(ntohl(v.s_addr)); QList ifaces = QNetworkInterface::allInterfaces(); for (int i = 0; i < ifaces.count(); ++i) { const QNetworkInterface &iface = ifaces.at(i); if (!(iface.flags() & QNetworkInterface::CanMulticast)) continue; QList entries = iface.addressEntries(); for (int j = 0; j < entries.count(); ++j) { const QNetworkAddressEntry &entry = entries.at(j); if (entry.ip() == ipv4) return iface; } } } return QNetworkInterface(); } bool QNativeSocketEnginePrivate::nativeSetMulticastInterface(const QNetworkInterface &iface) { if (socketProtocol == QAbstractSocket::IPv6Protocol || socketProtocol == QAbstractSocket::AnyIPProtocol) { uint v = iface.isValid() ? iface.index() : 0; return (::setsockopt(socketDescriptor, IPPROTO_IPV6, IPV6_MULTICAST_IF, (char *) &v, sizeof(v)) != -1); } struct in_addr v; if (iface.isValid()) { QList entries = iface.addressEntries(); for (int i = 0; i < entries.count(); ++i) { const QNetworkAddressEntry &entry = entries.at(i); const QHostAddress &ip = entry.ip(); if (ip.protocol() == QAbstractSocket::IPv4Protocol) { v.s_addr = htonl(ip.toIPv4Address()); int r = ::setsockopt(socketDescriptor, IPPROTO_IP, IP_MULTICAST_IF, (char *) &v, sizeof(v)); if (r != -1) return true; } } return false; } v.s_addr = INADDR_ANY; return (::setsockopt(socketDescriptor, IPPROTO_IP, IP_MULTICAST_IF, (char *) &v, sizeof(v)) != -1); } qint64 QNativeSocketEnginePrivate::nativeBytesAvailable() const { unsigned long nbytes = 0; unsigned long dummy = 0; DWORD sizeWritten = 0; if (::WSAIoctl(socketDescriptor, FIONREAD, &dummy, sizeof(dummy), &nbytes, sizeof(nbytes), &sizeWritten, 0,0) == SOCKET_ERROR) { WS_ERROR_DEBUG(WSAGetLastError()); return -1; } // ioctlsocket sometimes reports 1 byte available for datagrams // while the following recvfrom returns -1 and claims connection // was reset (udp is connectionless). so we peek one byte to // catch this case and return 0 bytes available if recvfrom // fails. if (nbytes == 1 && socketType == QAbstractSocket::UdpSocket) { char c; WSABUF buf; buf.buf = &c; buf.len = sizeof(c); DWORD bytesReceived; DWORD flags = MSG_PEEK; if (::WSARecvFrom(socketDescriptor, &buf, 1, &bytesReceived, &flags, 0,0,0,0) == SOCKET_ERROR) { int err = WSAGetLastError(); if (err != WSAECONNRESET && err != WSAENETRESET) return 0; } else { return bytesReceived; } } return nbytes; } bool QNativeSocketEnginePrivate::nativeHasPendingDatagrams() const { // Create a sockaddr struct and reset its port number. qt_sockaddr storage; QT_SOCKLEN_T storageSize = sizeof(storage); memset(&storage, 0, storageSize); bool result = false; // Peek 0 bytes into the next message. The size of the message may // well be 0, so we check if there was a sender. char c; WSABUF buf; buf.buf = &c; buf.len = sizeof(c); DWORD available = 0; DWORD flags = MSG_PEEK; int ret = ::WSARecvFrom(socketDescriptor, &buf, 1, &available, &flags, &storage.a, &storageSize,0,0); int err = WSAGetLastError(); if (ret == SOCKET_ERROR && err != WSAEMSGSIZE) { WS_ERROR_DEBUG(err); result = (err == WSAECONNRESET || err == WSAENETRESET); } else { // If there's no error, or if our buffer was too small, there must be // a pending datagram. result = true; } #if defined (QNATIVESOCKETENGINE_DEBUG) qDebug("QNativeSocketEnginePrivate::nativeHasPendingDatagrams() == %s", result ? "true" : "false"); #endif return result; } qint64 QNativeSocketEnginePrivate::nativePendingDatagramSize() const { qint64 ret = -1; int recvResult = 0; DWORD flags; // We start at 1500 bytes (the MTU for Ethernet V2), which should catch // almost all uses (effective MTU for UDP under IPv4 is 1468), except // for localhost datagrams and those reassembled by the IP layer. char udpMessagePeekBuffer[1500]; std::vector buf; for (;;) { buf.resize(buf.size() + 5, {sizeof(udpMessagePeekBuffer), udpMessagePeekBuffer}); flags = MSG_PEEK; DWORD bytesRead = 0; recvResult = ::WSARecv(socketDescriptor, buf.data(), DWORD(buf.size()), &bytesRead, &flags, nullptr, nullptr); int err = WSAGetLastError(); if (recvResult != SOCKET_ERROR) { ret = qint64(bytesRead); break; } else { switch (err) { case WSAEMSGSIZE: continue; case WSAECONNRESET: case WSAENETRESET: ret = 0; break; default: WS_ERROR_DEBUG(err); ret = -1; break; } break; } } #if defined (QNATIVESOCKETENGINE_DEBUG) qDebug("QNativeSocketEnginePrivate::nativePendingDatagramSize() == %lli", ret); #endif return ret; } qint64 QNativeSocketEnginePrivate::nativeReceiveDatagram(char *data, qint64 maxLength, QIpPacketHeader *header, QAbstractSocketEngine::PacketHeaderOptions options) { union { char cbuf[WSA_CMSG_SPACE(sizeof(struct in6_pktinfo)) + WSA_CMSG_SPACE(sizeof(int))]; WSACMSGHDR align; // only to ensure alignment }; WSAMSG msg; WSABUF buf; qt_sockaddr aa; char c; memset(&msg, 0, sizeof(msg)); memset(&aa, 0, sizeof(aa)); // we need to receive at least one byte, even if our user isn't interested in it buf.buf = maxLength ? data : &c; buf.len = maxLength ? maxLength : 1; msg.lpBuffers = &buf; msg.dwBufferCount = 1; msg.name = reinterpret_cast(&aa); msg.namelen = sizeof(aa); msg.Control.buf = cbuf; msg.Control.len = sizeof(cbuf); DWORD flags = 0; DWORD bytesRead = 0; qint64 ret; if (recvmsg) ret = recvmsg(socketDescriptor, &msg, &bytesRead, 0,0); else ret = ::WSARecvFrom(socketDescriptor, &buf, 1, &bytesRead, &flags, msg.name, &msg.namelen,0,0); if (ret == SOCKET_ERROR) { int err = WSAGetLastError(); if (err == WSAEMSGSIZE) { // it is ok the buffer was to small if bytesRead is larger than // maxLength then assume bytes read is really maxLenth ret = qint64(bytesRead) > maxLength ? maxLength : qint64(bytesRead); if (options & QNativeSocketEngine::WantDatagramSender) qt_socket_getPortAndAddress(socketDescriptor, &aa, &header->senderPort, &header->senderAddress); } else { WS_ERROR_DEBUG(err); switch (err) { case WSAENETRESET: setError(QAbstractSocket::NetworkError, NetworkDroppedConnectionErrorString); break; case WSAECONNRESET: setError(QAbstractSocket::ConnectionRefusedError, ConnectionResetErrorString); break; default: setError(QAbstractSocket::NetworkError, ReceiveDatagramErrorString); break; } ret = -1; if (header) header->clear(); } } else { ret = qint64(bytesRead); if (options & QNativeSocketEngine::WantDatagramSender) qt_socket_getPortAndAddress(socketDescriptor, &aa, &header->senderPort, &header->senderAddress); } if (ret != -1 && recvmsg && options != QAbstractSocketEngine::WantNone) { // get the ancillary data header->destinationPort = localPort; WSACMSGHDR *cmsgptr; for (cmsgptr = WSA_CMSG_FIRSTHDR(&msg); cmsgptr != NULL; cmsgptr = WSA_CMSG_NXTHDR(&msg, cmsgptr)) { if (cmsgptr->cmsg_level == IPPROTO_IPV6 && cmsgptr->cmsg_type == IPV6_PKTINFO && cmsgptr->cmsg_len >= WSA_CMSG_LEN(sizeof(in6_pktinfo))) { in6_pktinfo *info = reinterpret_cast(WSA_CMSG_DATA(cmsgptr)); header->destinationAddress.setAddress(reinterpret_cast(&info->ipi6_addr)); header->ifindex = info->ipi6_ifindex; if (header->ifindex) header->destinationAddress.setScopeId(QString::number(info->ipi6_ifindex)); } if (cmsgptr->cmsg_level == IPPROTO_IP && cmsgptr->cmsg_type == IP_PKTINFO && cmsgptr->cmsg_len >= WSA_CMSG_LEN(sizeof(in_pktinfo))) { in_pktinfo *info = reinterpret_cast(WSA_CMSG_DATA(cmsgptr)); u_long addr; WSANtohl(socketDescriptor, info->ipi_addr.s_addr, &addr); header->destinationAddress.setAddress(addr); header->ifindex = info->ipi_ifindex; } if (cmsgptr->cmsg_len == WSA_CMSG_LEN(sizeof(int)) && ((cmsgptr->cmsg_level == IPPROTO_IPV6 && cmsgptr->cmsg_type == IPV6_HOPLIMIT) || (cmsgptr->cmsg_level == IPPROTO_IP && cmsgptr->cmsg_type == IP_TTL))) { header->hopLimit = *reinterpret_cast(WSA_CMSG_DATA(cmsgptr)); } } } #if defined (QNATIVESOCKETENGINE_DEBUG) bool printSender = (ret != -1 && (options & QNativeSocketEngine::WantDatagramSender) != 0); qDebug("QNativeSocketEnginePrivate::nativeReceiveDatagram(%p \"%s\", %lli, %s, %i) == %lli", data, qt_prettyDebug(data, qMin(ret, 16), ret).data(), maxLength, printSender ? header->senderAddress.toString().toLatin1().constData() : "(unknown)", printSender ? header->senderPort : 0, ret); #endif return ret; } qint64 QNativeSocketEnginePrivate::nativeSendDatagram(const char *data, qint64 len, const QIpPacketHeader &header) { union { char cbuf[WSA_CMSG_SPACE(sizeof(struct in6_pktinfo)) + WSA_CMSG_SPACE(sizeof(int))]; WSACMSGHDR align; // ensures alignment }; WSACMSGHDR *cmsgptr = &align; WSAMSG msg; WSABUF buf; qt_sockaddr aa; memset(&msg, 0, sizeof(msg)); memset(&aa, 0, sizeof(aa)); buf.buf = len ? (char*)data : 0; msg.lpBuffers = &buf; msg.dwBufferCount = 1; msg.name = &aa.a; buf.len = len; setPortAndAddress(header.destinationPort, header.destinationAddress, &aa, &msg.namelen); uint oldIfIndex = 0; bool mustSetIpv6MulticastIf = false; if (msg.namelen == sizeof(aa.a6)) { // sending IPv6 if (header.hopLimit != -1) { msg.Control.len += WSA_CMSG_SPACE(sizeof(int)); cmsgptr->cmsg_len = WSA_CMSG_LEN(sizeof(int)); cmsgptr->cmsg_level = IPPROTO_IPV6; cmsgptr->cmsg_type = IPV6_HOPLIMIT; memcpy(WSA_CMSG_DATA(cmsgptr), &header.hopLimit, sizeof(int)); cmsgptr = reinterpret_cast(reinterpret_cast(cmsgptr) + WSA_CMSG_SPACE(sizeof(int))); } if (!header.senderAddress.isNull()) { struct in6_pktinfo *data = reinterpret_cast(WSA_CMSG_DATA(cmsgptr)); memset(data, 0, sizeof(*data)); msg.Control.len += WSA_CMSG_SPACE(sizeof(*data)); cmsgptr->cmsg_len = WSA_CMSG_LEN(sizeof(*data)); cmsgptr->cmsg_level = IPPROTO_IPV6; cmsgptr->cmsg_type = IPV6_PKTINFO; data->ipi6_ifindex = header.ifindex; Q_IPV6ADDR tmp = header.senderAddress.toIPv6Address(); memcpy(&data->ipi6_addr, &tmp, sizeof(tmp)); cmsgptr = reinterpret_cast(reinterpret_cast(cmsgptr) + WSA_CMSG_SPACE(sizeof(*data))); } else if (header.ifindex != 0) { // Unlike other operating systems, setting the interface index in the in6_pktinfo // structure above and leaving the ipi6_addr set to :: will cause the packets to be // sent with source address ::. So we have to use IPV6_MULTICAST_IF, which MSDN is // quite clear that "This option does not change the default interface for receiving // IPv6 multicast traffic." QT_SOCKOPTLEN_T len = sizeof(oldIfIndex); if (::getsockopt(socketDescriptor, IPPROTO_IPV6, IPV6_MULTICAST_IF, reinterpret_cast(&oldIfIndex), &len) == -1 || ::setsockopt(socketDescriptor, IPPROTO_IPV6, IPV6_MULTICAST_IF, reinterpret_cast(&header.ifindex), sizeof(header.ifindex)) == -1) { setError(QAbstractSocket::NetworkError, SendDatagramErrorString); return -1; } mustSetIpv6MulticastIf = true; } } else { // sending IPv4 if (header.hopLimit != -1) { msg.Control.len += WSA_CMSG_SPACE(sizeof(int)); cmsgptr->cmsg_len = WSA_CMSG_LEN(sizeof(int)); cmsgptr->cmsg_level = IPPROTO_IP; cmsgptr->cmsg_type = IP_TTL; memcpy(WSA_CMSG_DATA(cmsgptr), &header.hopLimit, sizeof(int)); cmsgptr = reinterpret_cast(reinterpret_cast(cmsgptr) + WSA_CMSG_SPACE(sizeof(int))); } if (header.ifindex != 0 || !header.senderAddress.isNull()) { struct in_pktinfo *data = reinterpret_cast(WSA_CMSG_DATA(cmsgptr)); memset(data, 0, sizeof(*data)); msg.Control.len += WSA_CMSG_SPACE(sizeof(*data)); cmsgptr->cmsg_len = WSA_CMSG_LEN(sizeof(*data)); cmsgptr->cmsg_level = IPPROTO_IP; cmsgptr->cmsg_type = IP_PKTINFO; data->ipi_ifindex = header.ifindex; WSAHtonl(socketDescriptor, header.senderAddress.toIPv4Address(), &data->ipi_addr.s_addr); cmsgptr = reinterpret_cast(reinterpret_cast(cmsgptr) + WSA_CMSG_SPACE(sizeof(*data))); } } if (msg.Control.len != 0) msg.Control.buf = cbuf; DWORD flags = 0; DWORD bytesSent = 0; qint64 ret = -1; if (sendmsg) { ret = sendmsg(socketDescriptor, &msg, flags, &bytesSent, 0,0); } else { ret = ::WSASendTo(socketDescriptor, &buf, 1, &bytesSent, flags, msg.name, msg.namelen, 0,0); } if (ret == SOCKET_ERROR) { int err = WSAGetLastError(); WS_ERROR_DEBUG(err); switch (err) { case WSAEMSGSIZE: setError(QAbstractSocket::DatagramTooLargeError, DatagramTooLargeErrorString); break; default: setError(QAbstractSocket::NetworkError, SendDatagramErrorString); break; } ret = -1; } else { ret = qint64(bytesSent); } if (mustSetIpv6MulticastIf) { // undo what we did above ::setsockopt(socketDescriptor, IPPROTO_IPV6, IPV6_MULTICAST_IF, reinterpret_cast(&oldIfIndex), sizeof(oldIfIndex)); } #if defined (QNATIVESOCKETENGINE_DEBUG) qDebug("QNativeSocketEnginePrivate::nativeSendDatagram(%p \"%s\", %lli, \"%s\", %i) == %lli", data, qt_prettyDebug(data, qMin(len, 16), len).data(), len, header.destinationAddress.toString().toLatin1().constData(), header.destinationPort, ret); #endif return ret; } qint64 QNativeSocketEnginePrivate::nativeWrite(const char *data, qint64 len) { Q_Q(QNativeSocketEngine); qint64 ret = 0; qint64 bytesToSend = len; for (;;) { WSABUF buf; buf.buf = const_cast(data) + ret; buf.len = bytesToSend; DWORD flags = 0; DWORD bytesWritten = 0; int socketRet = ::WSASend(socketDescriptor, &buf, 1, &bytesWritten, flags, 0,0); ret += qint64(bytesWritten); int err; if (socketRet != SOCKET_ERROR) { if (ret == len) break; else continue; } else if ((err = WSAGetLastError()) == WSAEWOULDBLOCK) { break; } else if (err == WSAENOBUFS) { // this function used to not send more than 49152 per call to WSASendTo // to avoid getting a WSAENOBUFS. However this is a performance regression // and we think it only appears with old windows versions. We now handle the // WSAENOBUFS and hope it never appears anyway. // just go on, the next loop run we will try a smaller number } else { WS_ERROR_DEBUG(err); switch (err) { case WSAECONNRESET: case WSAECONNABORTED: ret = -1; setError(QAbstractSocket::NetworkError, WriteErrorString); q->close(); break; default: break; } break; } // for next send: bytesToSend = qMin(49152, len - ret); } #if defined (QNATIVESOCKETENGINE_DEBUG) qDebug("QNativeSocketEnginePrivate::nativeWrite(%p \"%s\", %li) == %li", data, qt_prettyDebug(data, qMin((int)ret, 16), (int)ret).data(), (int)len, (int)ret); #endif return ret; } qint64 QNativeSocketEnginePrivate::nativeRead(char *data, qint64 maxLength) { qint64 ret = -1; WSABUF buf; buf.buf = data; buf.len = maxLength; DWORD flags = 0; DWORD bytesRead = 0; if (::WSARecv(socketDescriptor, &buf, 1, &bytesRead, &flags, 0,0) == SOCKET_ERROR) { int err = WSAGetLastError(); WS_ERROR_DEBUG(err); switch (err) { case WSAEWOULDBLOCK: ret = -2; break; case WSAEBADF: case WSAEINVAL: //error string is now set in read(), not here in nativeRead() break; case WSAECONNRESET: case WSAECONNABORTED: // for tcp sockets this will be handled in QNativeSocketEngine::read ret = 0; break; default: break; } } else { if (WSAGetLastError() == WSAEWOULDBLOCK) ret = -2; else ret = qint64(bytesRead); } #if defined (QNATIVESOCKETENGINE_DEBUG) if (ret != -2) { qDebug("QNativeSocketEnginePrivate::nativeRead(%p \"%s\", %li) == %li", data, qt_prettyDebug(data, qMin((int)bytesRead, 16), (int)bytesRead).data(), (int)maxLength, (int)ret); } else { qDebug("QNativeSocketEnginePrivate::nativeRead(%p, %li) == -2 (WOULD BLOCK)", data, int(maxLength)); } #endif return ret; } int QNativeSocketEnginePrivate::nativeSelect(int timeout, bool selectForRead) const { bool readEnabled = selectForRead && readNotifier && readNotifier->isEnabled(); if (readEnabled) readNotifier->setEnabled(false); fd_set fds; int ret = 0; memset(&fds, 0, sizeof(fd_set)); fds.fd_count = 1; fds.fd_array[0] = (SOCKET)socketDescriptor; struct timeval tv; tv.tv_sec = timeout / 1000; tv.tv_usec = (timeout % 1000) * 1000; if (selectForRead) { ret = select(0, &fds, 0, 0, timeout < 0 ? 0 : &tv); } else { // select for write // Windows needs this to report errors when connecting a socket ... fd_set fdexception; FD_ZERO(&fdexception); FD_SET((SOCKET)socketDescriptor, &fdexception); ret = select(0, 0, &fds, &fdexception, timeout < 0 ? 0 : &tv); // ... but if it is actually set, pretend it did not happen if (ret > 0 && FD_ISSET((SOCKET)socketDescriptor, &fdexception)) ret--; } if (readEnabled) readNotifier->setEnabled(true); return ret; } int QNativeSocketEnginePrivate::nativeSelect(int timeout, bool checkRead, bool checkWrite, bool *selectForRead, bool *selectForWrite) const { bool readEnabled = checkRead && readNotifier && readNotifier->isEnabled(); if (readEnabled) readNotifier->setEnabled(false); fd_set fdread; fd_set fdwrite; fd_set fdexception; int ret = 0; memset(&fdread, 0, sizeof(fd_set)); if (checkRead) { fdread.fd_count = 1; fdread.fd_array[0] = (SOCKET)socketDescriptor; } memset(&fdwrite, 0, sizeof(fd_set)); FD_ZERO(&fdexception); if (checkWrite) { fdwrite.fd_count = 1; fdwrite.fd_array[0] = (SOCKET)socketDescriptor; // Windows needs this to report errors when connecting a socket FD_SET((SOCKET)socketDescriptor, &fdexception); } struct timeval tv; tv.tv_sec = timeout / 1000; tv.tv_usec = (timeout % 1000) * 1000; ret = select(socketDescriptor + 1, &fdread, &fdwrite, &fdexception, timeout < 0 ? 0 : &tv); //... but if it is actually set, pretend it did not happen if (ret > 0 && FD_ISSET((SOCKET)socketDescriptor, &fdexception)) ret--; if (readEnabled) readNotifier->setEnabled(true); if (ret <= 0) return ret; *selectForRead = FD_ISSET((SOCKET)socketDescriptor, &fdread); *selectForWrite = FD_ISSET((SOCKET)socketDescriptor, &fdwrite); return ret; } void QNativeSocketEnginePrivate::nativeClose() { #if defined (QTCPSOCKETENGINE_DEBUG) qDebug("QNativeSocketEnginePrivate::nativeClose()"); #endif // We were doing a setsockopt here before with SO_DONTLINGER. (However with kind of wrong // usage of parameters, it wants a BOOL but we used a struct and pretended it to be bool). // We don't think setting this option should be done here, if a user wants it she/he can // do it manually with socketDescriptor()/setSocketDescriptor(); ::closesocket(socketDescriptor); } QT_END_NAMESPACE