/**************************************************************************** ** ** Copyright (C) 2012 Nokia Corporation and/or its subsidiary(-ies). ** Contact: http://www.qt-project.org/ ** ** This file is part of the QtNetwork module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** GNU Lesser General Public License Usage ** 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. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU General ** Public License version 3.0 as published by the Free Software Foundation ** and appearing in the file LICENSE.GPL included in the packaging of this ** file. Please review the following information to ensure the GNU General ** Public License version 3.0 requirements will be met: ** http://www.gnu.org/copyleft/gpl.html. ** ** Other Usage ** Alternatively, this file may be used in accordance with the terms and ** conditions contained in a signed written agreement between you and Nokia. ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qnetworkreplyimpl_p.h" #include "qnetworkaccessbackend_p.h" #include "qnetworkcookie.h" #include "qnetworkcookiejar.h" #include "qabstractnetworkcache.h" #include "QtCore/qcoreapplication.h" #include "QtCore/qdatetime.h" #include "QtNetwork/qsslconfiguration.h" #include "QtNetwork/qnetworksession.h" #include "qnetworkaccessmanager_p.h" #include Q_DECLARE_METATYPE(QSharedPointer) QT_BEGIN_NAMESPACE inline QNetworkReplyImplPrivate::QNetworkReplyImplPrivate() : backend(0), outgoingData(0), copyDevice(0), cacheEnabled(false), cacheSaveDevice(0), notificationHandlingPaused(false), bytesDownloaded(0), lastBytesDownloaded(-1), bytesUploaded(-1), preMigrationDownloaded(-1), httpStatusCode(0), state(Idle) , downloadBufferReadPosition(0) , downloadBufferCurrentSize(0) , downloadBufferMaximumSize(0) , downloadBuffer(0) { } void QNetworkReplyImplPrivate::_q_startOperation() { // ensure this function is only being called once if (state == Working || state == Finished) { qDebug("QNetworkReplyImpl::_q_startOperation was called more than once"); return; } state = Working; // note: if that method is called directly, it cannot happen that the backend is 0, // because we just checked via a qobject_cast that we got a http backend (see // QNetworkReplyImplPrivate::setup()) if (!backend) { error(QNetworkReplyImpl::ProtocolUnknownError, QCoreApplication::translate("QNetworkReply", "Protocol \"%1\" is unknown").arg(url.scheme())); // not really true!; finished(); return; } if (!backend->start()) { #ifndef QT_NO_BEARERMANAGEMENT // backend failed to start because the session state is not Connected. // QNetworkAccessManager will call _q_startOperation again for us when the session // state changes. state = WaitingForSession; QNetworkSession *session = manager->d_func()->networkSession.data(); if (session) { Q_Q(QNetworkReplyImpl); QObject::connect(session, SIGNAL(error(QNetworkSession::SessionError)), q, SLOT(_q_networkSessionFailed())); if (!session->isOpen()) session->open(); } else { qWarning("Backend is waiting for QNetworkSession to connect, but there is none!"); state = Working; error(QNetworkReplyImpl::UnknownNetworkError, QCoreApplication::translate("QNetworkReply", "Network session error.")); finished(); } #else qWarning("Backend start failed"); state = Working; error(QNetworkReplyImpl::UnknownNetworkError, QCoreApplication::translate("QNetworkReply", "backend start error.")); finished(); #endif return; } if (backend && backend->isSynchronous()) { state = Finished; q_func()->setFinished(true); } else { if (state != Finished) { if (operation == QNetworkAccessManager::GetOperation) pendingNotifications.append(NotifyDownstreamReadyWrite); handleNotifications(); } } } void QNetworkReplyImplPrivate::_q_copyReadyRead() { Q_Q(QNetworkReplyImpl); if (state != Working) return; if (!copyDevice || !q->isOpen()) return; // FIXME Optimize to use download buffer if it is a QBuffer. // Needs to be done where sendCacheContents() (?) of HTTP is emitting // metaDataChanged ? forever { qint64 bytesToRead = nextDownstreamBlockSize(); if (bytesToRead == 0) // we'll be called again, eventually break; bytesToRead = qBound(1, bytesToRead, copyDevice->bytesAvailable()); QByteArray byteData; byteData.resize(bytesToRead); qint64 bytesActuallyRead = copyDevice->read(byteData.data(), byteData.size()); if (bytesActuallyRead == -1) { byteData.clear(); backendNotify(NotifyCopyFinished); break; } byteData.resize(bytesActuallyRead); readBuffer.append(byteData); if (!copyDevice->isSequential() && copyDevice->atEnd()) { backendNotify(NotifyCopyFinished); bytesDownloaded += bytesActuallyRead; break; } bytesDownloaded += bytesActuallyRead; } if (bytesDownloaded == lastBytesDownloaded) { // we didn't read anything return; } lastBytesDownloaded = bytesDownloaded; QVariant totalSize = cookedHeaders.value(QNetworkRequest::ContentLengthHeader); if (preMigrationDownloaded != Q_INT64_C(-1)) totalSize = totalSize.toLongLong() + preMigrationDownloaded; pauseNotificationHandling(); // emit readyRead before downloadProgress incase this will cause events to be // processed and we get into a recursive call (as in QProgressDialog). emit q->readyRead(); emit q->downloadProgress(bytesDownloaded, totalSize.isNull() ? Q_INT64_C(-1) : totalSize.toLongLong()); resumeNotificationHandling(); } void QNetworkReplyImplPrivate::_q_copyReadChannelFinished() { _q_copyReadyRead(); } void QNetworkReplyImplPrivate::_q_bufferOutgoingDataFinished() { Q_Q(QNetworkReplyImpl); // make sure this is only called once, ever. //_q_bufferOutgoingData may call it or the readChannelFinished emission if (state != Buffering) return; // disconnect signals QObject::disconnect(outgoingData, SIGNAL(readyRead()), q, SLOT(_q_bufferOutgoingData())); QObject::disconnect(outgoingData, SIGNAL(readChannelFinished()), q, SLOT(_q_bufferOutgoingDataFinished())); // finally, start the request QMetaObject::invokeMethod(q, "_q_startOperation", Qt::QueuedConnection); } void QNetworkReplyImplPrivate::_q_bufferOutgoingData() { Q_Q(QNetworkReplyImpl); if (!outgoingDataBuffer) { // first call, create our buffer outgoingDataBuffer = QSharedPointer(new QRingBuffer()); QObject::connect(outgoingData, SIGNAL(readyRead()), q, SLOT(_q_bufferOutgoingData())); QObject::connect(outgoingData, SIGNAL(readChannelFinished()), q, SLOT(_q_bufferOutgoingDataFinished())); } qint64 bytesBuffered = 0; qint64 bytesToBuffer = 0; // read data into our buffer forever { bytesToBuffer = outgoingData->bytesAvailable(); // unknown? just try 2 kB, this also ensures we always try to read the EOF if (bytesToBuffer <= 0) bytesToBuffer = 2*1024; char *dst = outgoingDataBuffer->reserve(bytesToBuffer); bytesBuffered = outgoingData->read(dst, bytesToBuffer); if (bytesBuffered == -1) { // EOF has been reached. outgoingDataBuffer->chop(bytesToBuffer); _q_bufferOutgoingDataFinished(); break; } else if (bytesBuffered == 0) { // nothing read right now, just wait until we get called again outgoingDataBuffer->chop(bytesToBuffer); break; } else { // don't break, try to read() again outgoingDataBuffer->chop(bytesToBuffer - bytesBuffered); } } } #ifndef QT_NO_BEARERMANAGEMENT void QNetworkReplyImplPrivate::_q_networkSessionConnected() { Q_Q(QNetworkReplyImpl); if (manager.isNull()) return; QNetworkSession *session = manager->d_func()->networkSession.data(); if (!session) return; if (session->state() != QNetworkSession::Connected) return; switch (state) { case QNetworkReplyImplPrivate::Buffering: case QNetworkReplyImplPrivate::Working: case QNetworkReplyImplPrivate::Reconnecting: // Migrate existing downloads to new network connection. migrateBackend(); break; case QNetworkReplyImplPrivate::WaitingForSession: // Start waiting requests. QMetaObject::invokeMethod(q, "_q_startOperation", Qt::QueuedConnection); break; default: ; } } void QNetworkReplyImplPrivate::_q_networkSessionFailed() { // Abort waiting and working replies. if (state == WaitingForSession || state == Working) { state = Working; error(QNetworkReplyImpl::UnknownNetworkError, QCoreApplication::translate("QNetworkReply", "Network session error.")); finished(); } } #endif void QNetworkReplyImplPrivate::setup(QNetworkAccessManager::Operation op, const QNetworkRequest &req, QIODevice *data) { Q_Q(QNetworkReplyImpl); outgoingData = data; request = req; url = request.url(); operation = op; q->QIODevice::open(QIODevice::ReadOnly); // Internal code that does a HTTP reply for the synchronous Ajax // in QtWebKit. QVariant synchronousHttpAttribute = req.attribute( static_cast(QNetworkRequest::SynchronousRequestAttribute)); // The synchronous HTTP is a corner case, we will put all upload data in one big QByteArray in the outgoingDataBuffer. // Yes, this is not the most efficient thing to do, but on the other hand synchronous XHR needs to die anyway. if (synchronousHttpAttribute.toBool() && outgoingData) { outgoingDataBuffer = QSharedPointer(new QRingBuffer()); qint64 previousDataSize = 0; do { previousDataSize = outgoingDataBuffer->size(); outgoingDataBuffer->append(outgoingData->readAll()); } while (outgoingDataBuffer->size() != previousDataSize); } if (backend) backend->setSynchronous(synchronousHttpAttribute.toBool()); if (outgoingData && backend && !backend->isSynchronous()) { // there is data to be uploaded, e.g. HTTP POST. if (!backend->needsResetableUploadData() || !outgoingData->isSequential()) { // backend does not need upload buffering or // fixed size non-sequential // just start the operation QMetaObject::invokeMethod(q, "_q_startOperation", Qt::QueuedConnection); } else { bool bufferingDisallowed = req.attribute(QNetworkRequest::DoNotBufferUploadDataAttribute, false).toBool(); if (bufferingDisallowed) { // if a valid content-length header for the request was supplied, we can disable buffering // if not, we will buffer anyway if (req.header(QNetworkRequest::ContentLengthHeader).isValid()) { QMetaObject::invokeMethod(q, "_q_startOperation", Qt::QueuedConnection); } else { state = Buffering; QMetaObject::invokeMethod(q, "_q_bufferOutgoingData", Qt::QueuedConnection); } } else { // _q_startOperation will be called when the buffering has finished. state = Buffering; QMetaObject::invokeMethod(q, "_q_bufferOutgoingData", Qt::QueuedConnection); } } } else { // for HTTP, we want to send out the request as fast as possible to the network, without // invoking methods in a QueuedConnection #ifndef QT_NO_HTTP if (backend && backend->isSynchronous()) { _q_startOperation(); } else { QMetaObject::invokeMethod(q, "_q_startOperation", Qt::QueuedConnection); } #else if (backend && backend->isSynchronous()) _q_startOperation(); else QMetaObject::invokeMethod(q, "_q_startOperation", Qt::QueuedConnection); #endif // QT_NO_HTTP } } void QNetworkReplyImplPrivate::backendNotify(InternalNotifications notification) { Q_Q(QNetworkReplyImpl); if (!pendingNotifications.contains(notification)) pendingNotifications.enqueue(notification); if (pendingNotifications.size() == 1) QCoreApplication::postEvent(q, new QEvent(QEvent::NetworkReplyUpdated)); } void QNetworkReplyImplPrivate::handleNotifications() { if (notificationHandlingPaused) return; NotificationQueue current = pendingNotifications; pendingNotifications.clear(); if (state != Working) return; while (state == Working && !current.isEmpty()) { InternalNotifications notification = current.dequeue(); switch (notification) { case NotifyDownstreamReadyWrite: if (copyDevice) _q_copyReadyRead(); else backend->downstreamReadyWrite(); break; case NotifyCloseDownstreamChannel: backend->closeDownstreamChannel(); break; case NotifyCopyFinished: { QIODevice *dev = copyDevice; copyDevice = 0; backend->copyFinished(dev); break; } } } } // Do not handle the notifications while we are emitting downloadProgress // or readyRead void QNetworkReplyImplPrivate::pauseNotificationHandling() { notificationHandlingPaused = true; } // Resume notification handling void QNetworkReplyImplPrivate::resumeNotificationHandling() { Q_Q(QNetworkReplyImpl); notificationHandlingPaused = false; if (pendingNotifications.size() >= 1) QCoreApplication::postEvent(q, new QEvent(QEvent::NetworkReplyUpdated)); } QAbstractNetworkCache *QNetworkReplyImplPrivate::networkCache() const { if (!backend) return 0; return backend->networkCache(); } void QNetworkReplyImplPrivate::createCache() { // check if we can save and if we're allowed to if (!networkCache() || !request.attribute(QNetworkRequest::CacheSaveControlAttribute, true).toBool() || request.attribute(QNetworkRequest::CacheLoadControlAttribute, QNetworkRequest::PreferNetwork).toInt() == QNetworkRequest::AlwaysNetwork) return; cacheEnabled = true; } bool QNetworkReplyImplPrivate::isCachingEnabled() const { return (cacheEnabled && networkCache() != 0); } void QNetworkReplyImplPrivate::setCachingEnabled(bool enable) { if (!enable && !cacheEnabled) return; // nothing to do if (enable && cacheEnabled) return; // nothing to do either! if (enable) { if (bytesDownloaded) { // refuse to enable in this case qCritical("QNetworkReplyImpl: backend error: caching was enabled after some bytes had been written"); return; } createCache(); } else { // someone told us to turn on, then back off? // ok... but you should make up your mind qDebug("QNetworkReplyImpl: setCachingEnabled(true) called after setCachingEnabled(false) -- " "backend %s probably needs to be fixed", backend->metaObject()->className()); networkCache()->remove(url); cacheSaveDevice = 0; cacheEnabled = false; } } void QNetworkReplyImplPrivate::completeCacheSave() { if (cacheEnabled && errorCode != QNetworkReplyImpl::NoError) { networkCache()->remove(url); } else if (cacheEnabled && cacheSaveDevice) { networkCache()->insert(cacheSaveDevice); } cacheSaveDevice = 0; cacheEnabled = false; } void QNetworkReplyImplPrivate::emitUploadProgress(qint64 bytesSent, qint64 bytesTotal) { Q_Q(QNetworkReplyImpl); bytesUploaded = bytesSent; pauseNotificationHandling(); emit q->uploadProgress(bytesSent, bytesTotal); resumeNotificationHandling(); } qint64 QNetworkReplyImplPrivate::nextDownstreamBlockSize() const { enum { DesiredBufferSize = 32 * 1024 }; if (readBufferMaxSize == 0) return DesiredBufferSize; return qMax(0, readBufferMaxSize - readBuffer.byteAmount()); } void QNetworkReplyImplPrivate::initCacheSaveDevice() { Q_Q(QNetworkReplyImpl); // The disk cache does not support partial content, so don't even try to // save any such content into the cache. if (q->attribute(QNetworkRequest::HttpStatusCodeAttribute).toInt() == 206) { cacheEnabled = false; return; } // save the meta data QNetworkCacheMetaData metaData; metaData.setUrl(url); metaData = backend->fetchCacheMetaData(metaData); // save the redirect request also in the cache QVariant redirectionTarget = q->attribute(QNetworkRequest::RedirectionTargetAttribute); if (redirectionTarget.isValid()) { QNetworkCacheMetaData::AttributesMap attributes = metaData.attributes(); attributes.insert(QNetworkRequest::RedirectionTargetAttribute, redirectionTarget); metaData.setAttributes(attributes); } cacheSaveDevice = networkCache()->prepare(metaData); if (!cacheSaveDevice || (cacheSaveDevice && !cacheSaveDevice->isOpen())) { if (cacheSaveDevice && !cacheSaveDevice->isOpen()) qCritical("QNetworkReplyImpl: network cache returned a device that is not open -- " "class %s probably needs to be fixed", networkCache()->metaObject()->className()); networkCache()->remove(url); cacheSaveDevice = 0; cacheEnabled = false; } } // we received downstream data and send this to the cache // and to our readBuffer (which in turn gets read by the user of QNetworkReply) void QNetworkReplyImplPrivate::appendDownstreamData(QByteDataBuffer &data) { Q_Q(QNetworkReplyImpl); if (!q->isOpen()) return; if (cacheEnabled && !cacheSaveDevice) { initCacheSaveDevice(); } qint64 bytesWritten = 0; for (int i = 0; i < data.bufferCount(); i++) { QByteArray const &item = data[i]; if (cacheSaveDevice) cacheSaveDevice->write(item.constData(), item.size()); readBuffer.append(item); bytesWritten += item.size(); } data.clear(); bytesDownloaded += bytesWritten; lastBytesDownloaded = bytesDownloaded; appendDownstreamDataSignalEmissions(); } void QNetworkReplyImplPrivate::appendDownstreamDataSignalEmissions() { Q_Q(QNetworkReplyImpl); QVariant totalSize = cookedHeaders.value(QNetworkRequest::ContentLengthHeader); if (preMigrationDownloaded != Q_INT64_C(-1)) totalSize = totalSize.toLongLong() + preMigrationDownloaded; pauseNotificationHandling(); // important: At the point of this readyRead(), the data parameter list must be empty, // else implicit sharing will trigger memcpy when the user is reading data! emit q->readyRead(); // emit readyRead before downloadProgress incase this will cause events to be // processed and we get into a recursive call (as in QProgressDialog). emit q->downloadProgress(bytesDownloaded, totalSize.isNull() ? Q_INT64_C(-1) : totalSize.toLongLong()); resumeNotificationHandling(); // do we still have room in the buffer? if (nextDownstreamBlockSize() > 0) backendNotify(QNetworkReplyImplPrivate::NotifyDownstreamReadyWrite); } // this is used when it was fetched from the cache, right? void QNetworkReplyImplPrivate::appendDownstreamData(QIODevice *data) { Q_Q(QNetworkReplyImpl); if (!q->isOpen()) return; // read until EOF from data if (copyDevice) { qCritical("QNetworkReplyImpl: copy from QIODevice already in progress -- " "backend probly needs to be fixed"); return; } copyDevice = data; q->connect(copyDevice, SIGNAL(readyRead()), SLOT(_q_copyReadyRead())); q->connect(copyDevice, SIGNAL(readChannelFinished()), SLOT(_q_copyReadChannelFinished())); // start the copy: _q_copyReadyRead(); } void QNetworkReplyImplPrivate::appendDownstreamData(const QByteArray &data) { Q_UNUSED(data) // TODO implement // TODO call qFatal("QNetworkReplyImplPrivate::appendDownstreamData not implemented"); } static void downloadBufferDeleter(char *ptr) { delete[] ptr; } char* QNetworkReplyImplPrivate::getDownloadBuffer(qint64 size) { Q_Q(QNetworkReplyImpl); if (!downloadBuffer) { // We are requested to create it // Check attribute() if allocating a buffer of that size can be allowed QVariant bufferAllocationPolicy = request.attribute(QNetworkRequest::MaximumDownloadBufferSizeAttribute); if (bufferAllocationPolicy.isValid() && bufferAllocationPolicy.toLongLong() >= size) { downloadBufferCurrentSize = 0; downloadBufferMaximumSize = size; downloadBuffer = new char[downloadBufferMaximumSize]; // throws if allocation fails downloadBufferPointer = QSharedPointer(downloadBuffer, downloadBufferDeleter); q->setAttribute(QNetworkRequest::DownloadBufferAttribute, qVariantFromValue > (downloadBufferPointer)); } } return downloadBuffer; } void QNetworkReplyImplPrivate::setDownloadBuffer(QSharedPointer sp, qint64 size) { Q_Q(QNetworkReplyImpl); downloadBufferPointer = sp; downloadBuffer = downloadBufferPointer.data(); downloadBufferCurrentSize = 0; downloadBufferMaximumSize = size; q->setAttribute(QNetworkRequest::DownloadBufferAttribute, qVariantFromValue > (downloadBufferPointer)); } void QNetworkReplyImplPrivate::appendDownstreamDataDownloadBuffer(qint64 bytesReceived, qint64 bytesTotal) { Q_Q(QNetworkReplyImpl); if (!q->isOpen()) return; if (cacheEnabled && !cacheSaveDevice) initCacheSaveDevice(); if (cacheSaveDevice && bytesReceived == bytesTotal) { // if (lastBytesDownloaded == -1) // lastBytesDownloaded = 0; // cacheSaveDevice->write(downloadBuffer + lastBytesDownloaded, bytesReceived - lastBytesDownloaded); // Write everything in one go if we use a download buffer. might be more performant. cacheSaveDevice->write(downloadBuffer, bytesTotal); } bytesDownloaded = bytesReceived; lastBytesDownloaded = bytesReceived; downloadBufferCurrentSize = bytesReceived; // Only emit readyRead when actual data is there // emit readyRead before downloadProgress incase this will cause events to be // processed and we get into a recursive call (as in QProgressDialog). if (bytesDownloaded > 0) emit q->readyRead(); emit q->downloadProgress(bytesDownloaded, bytesTotal); } void QNetworkReplyImplPrivate::finished() { Q_Q(QNetworkReplyImpl); if (state == Finished || state == Aborted || state == WaitingForSession) return; pauseNotificationHandling(); QVariant totalSize = cookedHeaders.value(QNetworkRequest::ContentLengthHeader); if (preMigrationDownloaded != Q_INT64_C(-1)) totalSize = totalSize.toLongLong() + preMigrationDownloaded; if (!manager.isNull()) { #ifndef QT_NO_BEARERMANAGEMENT QNetworkSession *session = manager->d_func()->networkSession.data(); if (session && session->state() == QNetworkSession::Roaming && state == Working && errorCode != QNetworkReply::OperationCanceledError) { // only content with a known size will fail with a temporary network failure error if (!totalSize.isNull()) { if (bytesDownloaded != totalSize) { if (migrateBackend()) { // either we are migrating or the request is finished/aborted if (state == Reconnecting || state == WaitingForSession) { resumeNotificationHandling(); return; // exit early if we are migrating. } } else { error(QNetworkReply::TemporaryNetworkFailureError, QNetworkReply::tr("Temporary network failure.")); } } } } #endif } resumeNotificationHandling(); state = Finished; q->setFinished(true); pendingNotifications.clear(); pauseNotificationHandling(); if (totalSize.isNull() || totalSize == -1) { emit q->downloadProgress(bytesDownloaded, bytesDownloaded); } if (bytesUploaded == -1 && (outgoingData || outgoingDataBuffer)) emit q->uploadProgress(0, 0); resumeNotificationHandling(); // if we don't know the total size of or we received everything save the cache if (totalSize.isNull() || totalSize == -1 || bytesDownloaded == totalSize) completeCacheSave(); // note: might not be a good idea, since users could decide to delete us // which would delete the backend too... // maybe we should protect the backend pauseNotificationHandling(); emit q->readChannelFinished(); emit q->finished(); resumeNotificationHandling(); } void QNetworkReplyImplPrivate::error(QNetworkReplyImpl::NetworkError code, const QString &errorMessage) { Q_Q(QNetworkReplyImpl); // Can't set and emit multiple errors. if (errorCode != QNetworkReply::NoError) { qWarning( "QNetworkReplyImplPrivate::error: Internal problem, this method must only be called once."); return; } errorCode = code; q->setErrorString(errorMessage); // note: might not be a good idea, since users could decide to delete us // which would delete the backend too... // maybe we should protect the backend emit q->error(code); } void QNetworkReplyImplPrivate::metaDataChanged() { Q_Q(QNetworkReplyImpl); // 1. do we have cookies? // 2. are we allowed to set them? if (cookedHeaders.contains(QNetworkRequest::SetCookieHeader) && !manager.isNull() && (static_cast (request.attribute(QNetworkRequest::CookieSaveControlAttribute, QNetworkRequest::Automatic).toInt()) == QNetworkRequest::Automatic)) { QList cookies = qvariant_cast >(cookedHeaders.value(QNetworkRequest::SetCookieHeader)); QNetworkCookieJar *jar = manager->cookieJar(); if (jar) jar->setCookiesFromUrl(cookies, url); } emit q->metaDataChanged(); } void QNetworkReplyImplPrivate::redirectionRequested(const QUrl &target) { attributes.insert(QNetworkRequest::RedirectionTargetAttribute, target); } void QNetworkReplyImplPrivate::sslErrors(const QList &errors) { #ifndef QT_NO_OPENSSL Q_Q(QNetworkReplyImpl); emit q->sslErrors(errors); #else Q_UNUSED(errors); #endif } QNetworkReplyImpl::QNetworkReplyImpl(QObject *parent) : QNetworkReply(*new QNetworkReplyImplPrivate, parent) { } QNetworkReplyImpl::~QNetworkReplyImpl() { Q_D(QNetworkReplyImpl); // This code removes the data from the cache if it was prematurely aborted. // See QNetworkReplyImplPrivate::completeCacheSave(), we disable caching there after the cache // save had been properly finished. So if it is still enabled it means we got deleted/aborted. if (d->isCachingEnabled()) d->networkCache()->remove(url()); } void QNetworkReplyImpl::abort() { Q_D(QNetworkReplyImpl); if (d->state == QNetworkReplyImplPrivate::Finished || d->state == QNetworkReplyImplPrivate::Aborted) return; // stop both upload and download if (d->outgoingData) disconnect(d->outgoingData, 0, this, 0); if (d->copyDevice) disconnect(d->copyDevice, 0, this, 0); QNetworkReply::close(); if (d->state != QNetworkReplyImplPrivate::Finished) { // call finished which will emit signals d->error(OperationCanceledError, tr("Operation canceled")); if (d->state == QNetworkReplyImplPrivate::WaitingForSession) d->state = QNetworkReplyImplPrivate::Working; d->finished(); } d->state = QNetworkReplyImplPrivate::Aborted; // finished may access the backend if (d->backend) { d->backend->deleteLater(); d->backend = 0; } } void QNetworkReplyImpl::close() { Q_D(QNetworkReplyImpl); if (d->state == QNetworkReplyImplPrivate::Aborted || d->state == QNetworkReplyImplPrivate::Finished) return; // stop the download if (d->backend) d->backend->closeDownstreamChannel(); if (d->copyDevice) disconnect(d->copyDevice, 0, this, 0); QNetworkReply::close(); // call finished which will emit signals d->error(OperationCanceledError, tr("Operation canceled")); d->finished(); } bool QNetworkReplyImpl::canReadLine () const { Q_D(const QNetworkReplyImpl); return QNetworkReply::canReadLine() || d->readBuffer.canReadLine(); } /*! Returns the number of bytes available for reading with QIODevice::read(). The number of bytes available may grow until the finished() signal is emitted. */ qint64 QNetworkReplyImpl::bytesAvailable() const { // Special case for the "zero copy" download buffer Q_D(const QNetworkReplyImpl); if (d->downloadBuffer) { qint64 maxAvail = d->downloadBufferCurrentSize - d->downloadBufferReadPosition; return QNetworkReply::bytesAvailable() + maxAvail; } return QNetworkReply::bytesAvailable() + d_func()->readBuffer.byteAmount(); } void QNetworkReplyImpl::setReadBufferSize(qint64 size) { Q_D(QNetworkReplyImpl); if (size > d->readBufferMaxSize && size > d->readBuffer.byteAmount()) d->backendNotify(QNetworkReplyImplPrivate::NotifyDownstreamReadyWrite); QNetworkReply::setReadBufferSize(size); if (d->backend) d->backend->setDownstreamLimited(d->readBufferMaxSize > 0); } #ifndef QT_NO_OPENSSL void QNetworkReplyImpl::sslConfigurationImplementation(QSslConfiguration &configuration) const { Q_D(const QNetworkReplyImpl); if (d->backend) d->backend->fetchSslConfiguration(configuration); } void QNetworkReplyImpl::setSslConfigurationImplementation(const QSslConfiguration &config) { Q_D(QNetworkReplyImpl); if (d->backend && !config.isNull()) d->backend->setSslConfiguration(config); } void QNetworkReplyImpl::ignoreSslErrors() { Q_D(QNetworkReplyImpl); if (d->backend) d->backend->ignoreSslErrors(); } void QNetworkReplyImpl::ignoreSslErrorsImplementation(const QList &errors) { Q_D(QNetworkReplyImpl); if (d->backend) d->backend->ignoreSslErrors(errors); } #endif // QT_NO_OPENSSL /*! \internal */ qint64 QNetworkReplyImpl::readData(char *data, qint64 maxlen) { Q_D(QNetworkReplyImpl); // Special case code if we have the "zero copy" download buffer if (d->downloadBuffer) { qint64 maxAvail = qMin(d->downloadBufferCurrentSize - d->downloadBufferReadPosition, maxlen); if (maxAvail == 0) return d->state == QNetworkReplyImplPrivate::Finished ? -1 : 0; // FIXME what about "Aborted" state? qMemCopy(data, d->downloadBuffer + d->downloadBufferReadPosition, maxAvail); d->downloadBufferReadPosition += maxAvail; return maxAvail; } if (d->readBuffer.isEmpty()) return d->state == QNetworkReplyImplPrivate::Finished ? -1 : 0; // FIXME what about "Aborted" state? d->backendNotify(QNetworkReplyImplPrivate::NotifyDownstreamReadyWrite); if (maxlen == 1) { // optimization for getChar() *data = d->readBuffer.getChar(); return 1; } maxlen = qMin(maxlen, d->readBuffer.byteAmount()); return d->readBuffer.read(data, maxlen); } /*! \internal Reimplemented for internal purposes */ bool QNetworkReplyImpl::event(QEvent *e) { if (e->type() == QEvent::NetworkReplyUpdated) { d_func()->handleNotifications(); return true; } return QObject::event(e); } /* Migrates the backend of the QNetworkReply to a new network connection if required. Returns true if the reply is migrated or it is not required; otherwise returns false. */ bool QNetworkReplyImplPrivate::migrateBackend() { Q_Q(QNetworkReplyImpl); // Network reply is already finished or aborted, don't need to migrate. if (state == Finished || state == Aborted) return true; // Request has outgoing data, not migrating. if (outgoingData) return false; // Request is serviced from the cache, don't need to migrate. if (copyDevice) return true; // Backend does not support resuming download. if (!backend->canResume()) return false; state = QNetworkReplyImplPrivate::Reconnecting; if (backend) { delete backend; backend = 0; } cookedHeaders.clear(); rawHeaders.clear(); preMigrationDownloaded = bytesDownloaded; backend = manager->d_func()->findBackend(operation, request); if (backend) { backend->setParent(q); backend->reply = this; backend->setResumeOffset(bytesDownloaded); } #ifndef QT_NO_HTTP QMetaObject::invokeMethod(q, "_q_startOperation", Qt::QueuedConnection); #else QMetaObject::invokeMethod(q, "_q_startOperation", Qt::QueuedConnection); #endif // QT_NO_HTTP return true; } #ifndef QT_NO_BEARERMANAGEMENT QDisabledNetworkReply::QDisabledNetworkReply(QObject *parent, const QNetworkRequest &req, QNetworkAccessManager::Operation op) : QNetworkReply(parent) { setRequest(req); setUrl(req.url()); setOperation(op); qRegisterMetaType("QNetworkReply::NetworkError"); QString msg = QCoreApplication::translate("QNetworkAccessManager", "Network access is disabled."); setError(UnknownNetworkError, msg); QMetaObject::invokeMethod(this, "error", Qt::QueuedConnection, Q_ARG(QNetworkReply::NetworkError, UnknownNetworkError)); QMetaObject::invokeMethod(this, "finished", Qt::QueuedConnection); } QDisabledNetworkReply::~QDisabledNetworkReply() { } #endif QT_END_NAMESPACE #include "moc_qnetworkreplyimpl_p.cpp"