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path: root/src/network/access/qnetworkreplyimpl.cpp
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/****************************************************************************
**
** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies).
** All rights reserved.
** 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 "qnetworkreplyimpl_p.h"
#include "qnetworkaccessbackend_p.h"
#include "qnetworkcookie.h"
#include "qabstractnetworkcache.h"
#include "QtCore/qcoreapplication.h"
#include "QtCore/qdatetime.h"
#include "QtNetwork/qsslconfiguration.h"
#include "QtNetwork/qnetworksession.h"
#include "qnetworkaccesshttpbackend_p.h"
#include "qnetworkaccessmanager_p.h"

#include <QtCore/QCoreApplication>

Q_DECLARE_METATYPE(QSharedPointer<char>)

QT_BEGIN_NAMESPACE

inline QNetworkReplyImplPrivate::QNetworkReplyImplPrivate()
    : backend(0), outgoingData(0), outgoingDataBuffer(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) {
        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;
    }

#ifndef QT_NO_BEARERMANAGEMENT
    if (!backend->start()) { // ### we should call that method even if bearer is not used
        // backend failed to start because the session state is not Connected.
        // QNetworkAccessManager will call reply->backend->start() 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!");
        }

        return;
    }
#endif

    if (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<qint64>(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 q->downloadProgress(bytesDownloaded,
                             totalSize.isNull() ? Q_INT64_C(-1) : totalSize.toLongLong());
    emit q->readyRead();
    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 = 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 replies.
    if (state == WaitingForSession) {
        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::Attribute>(QNetworkRequest::DownloadBufferAttribute + 1));
    if (synchronousHttpAttribute.toBool()) {
        backend->setSynchronous(true);
        if (outgoingData && outgoingData->isSequential()) {
            outgoingDataBuffer = new QRingBuffer();
            QByteArray data;
            do {
                data = outgoingData->readAll();
                if (data.isEmpty())
                    break;
                outgoingDataBuffer->append(data);
            } while (1);
        }
    }
    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 {
        // No outgoing data (e.g. HTTP GET request)
        // or no backend
        // if no backend, _q_startOperation will handle the error of this

        // 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 (qobject_cast<QNetworkAccessHttpBackend *>(backend) || (backend && backend->isSynchronous())) {
            _q_startOperation();
        } else {
            QMetaObject::invokeMethod(q, "_q_startOperation", Qt::QueuedConnection);
        }
#else
        if (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<qint64>(0, readBufferMaxSize - readBuffer.byteAmount());
}

void QNetworkReplyImplPrivate::initCacheSaveDevice()
{
    Q_Q(QNetworkReplyImpl);

    // 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();
    emit q->downloadProgress(bytesDownloaded,
                             totalSize.isNull() ? Q_INT64_C(-1) : totalSize.toLongLong());
    // 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();

    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);

    // Check attribute() if allocating a buffer of that size can be allowed
    if (!downloadBuffer) {
        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<char>(downloadBuffer, downloadBufferDeleter);

            q->setAttribute(QNetworkRequest::DownloadBufferAttribute, qVariantFromValue<QSharedPointer<char> > (downloadBufferPointer));
        }
    }

    return downloadBuffer;
}

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;

    emit q->downloadProgress(bytesDownloaded, bytesTotal);
    // Only emit readyRead when actual data is there
    if (bytesDownloaded > 0)
        emit q->readyRead();
}

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);

    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<QNetworkRequest::LoadControl>
            (request.attribute(QNetworkRequest::CookieSaveControlAttribute,
                               QNetworkRequest::Automatic).toInt()) == QNetworkRequest::Automatic)) {
        QList<QNetworkCookie> cookies =
            qvariant_cast<QList<QNetworkCookie> >(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<QSslError> &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());

    if (d->outgoingDataBuffer)
        delete d->outgoingDataBuffer;
}

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"));
        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
QSslConfiguration QNetworkReplyImpl::sslConfigurationImplementation() const
{
    Q_D(const QNetworkReplyImpl);
    QSslConfiguration config;
    if (d->backend)
        d->backend->fetchSslConfiguration(config);
    return config;
}

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<QSslError> &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<qint64>(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<qint64>(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;

    // Backend does not support resuming download.
    if (!backend->canResume())
        return false;

    // 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;

    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
    if (qobject_cast<QNetworkAccessHttpBackend *>(backend)) {
        _q_startOperation();
    } else {
        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>("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"