path: root/src/network/access/qnetworkaccessbackend.cpp

// Copyright (C) 2020 The Qt Company Ltd.
// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR LGPL-3.0-only OR GPL-2.0-only OR GPL-3.0-only

#include "qnetworkaccessbackend_p.h"
#include "qnetworkreplyimpl_p.h"
#include "qnetworkaccessmanager_p.h"
#include "qnetworkrequest.h"
#include "qnetworkreply.h"
#include "qnetworkreply_p.h"
#include "QtCore/qmutex.h"
#include "QtCore/qstringlist.h"

#include "qnetworkaccesscachebackend_p.h"
#include "qabstractnetworkcache.h"
#include "qhostinfo.h"

#include "private/qnoncontiguousbytedevice_p.h"

QT_BEGIN_NAMESPACE

class QNetworkAccessBackendFactoryData: public QList<QNetworkAccessBackendFactory *>
{
public:
    QNetworkAccessBackendFactoryData()
    {
        valid.ref();
    }
    ~QNetworkAccessBackendFactoryData()
    {
        QMutexLocker locker(&mutex); // why do we need to lock?
        valid.deref();
    }

    QRecursiveMutex mutex;
    //this is used to avoid (re)constructing factory data from destructors of other global classes
    static QBasicAtomicInt valid;
};
Q_GLOBAL_STATIC(QNetworkAccessBackendFactoryData, factoryData)
Q_CONSTINIT QBasicAtomicInt QNetworkAccessBackendFactoryData::valid = Q_BASIC_ATOMIC_INITIALIZER(0);

class QNetworkAccessBackendPrivate : public QObjectPrivate
{
public:
    QNetworkAccessBackend::TargetTypes m_targetTypes;
    QNetworkAccessBackend::SecurityFeatures m_securityFeatures;
    QNetworkAccessBackend::IOFeatures m_ioFeatures;
    std::shared_ptr<QNonContiguousByteDevice> uploadByteDevice;
    QIODevice *wrappedUploadByteDevice = nullptr;
    QNetworkReplyImplPrivate *m_reply = nullptr;
    QNetworkAccessManagerPrivate *m_manager = nullptr;

    bool m_canCache = false;
    bool m_isSynchronous = false;
};

QNetworkAccessBackend *
QNetworkAccessManagerPrivate::findBackend(QNetworkAccessManager::Operation op,
                                          const QNetworkRequest &request)
{
    if (QNetworkAccessBackendFactoryData::valid.loadRelaxed()) {
        QMutexLocker locker(&factoryData()->mutex);
        QNetworkAccessBackendFactoryData::ConstIterator it = factoryData()->constBegin(),
                                                           end = factoryData()->constEnd();
        while (it != end) {
            QNetworkAccessBackend *backend = (*it)->create(op, request);
            if (backend) {
                backend->setManagerPrivate(this);
                return backend; // found a factory that handled our request
            }
            ++it;
        }
    }
    return nullptr;
}

QStringList QNetworkAccessManagerPrivate::backendSupportedSchemes() const
{
    if (QNetworkAccessBackendFactoryData::valid.loadRelaxed()) {
        QMutexLocker locker(&factoryData()->mutex);
        QNetworkAccessBackendFactoryData::ConstIterator it = factoryData()->constBegin();
        QNetworkAccessBackendFactoryData::ConstIterator end = factoryData()->constEnd();
        QStringList schemes;
        while (it != end) {
            schemes += (*it)->supportedSchemes();
            ++it;
        }
        return schemes;
    }
    return QStringList();
}

/*!
    \class QNetworkAccessBackendFactory
    \brief QNetworkAccessBackendFactory is the base class to inherit
    from for Qt to instantiate and query your QNetworkAccessBackend
    plugin.
    \since 6.0
    \internal

//! [semi-private-notice]
    The class is considered semi-private and as such requires linking
    to "NetworkPrivate" to access the header. Furthermore it means
    the class is not under the same binary compatibility restrictions
    as the rest of Qt. While we still try to avoid breakage it may
    still occur. The class is primarily meant to be used by plugins
    which would be recompiled every time Qt is updated.
//! [semi-private-notice]

    This class acts as the primary interface to the plugin and must
    be derived from. It deals with both querying supported schemes
    and the creation of QNetworkAccessBackend

    Since they are both abstract function you are required to
    implement supportedSchemes() and create().
*/

/*!
    \fn QStringList QNetworkAccessBackendFactory::supportedSchemes() const

    Override this method in your own derived class to let Qt know
    what schemes your class can handle.
*/

/*!
    \fn QNetworkAccessBackendFactory::create(QNetworkAccessManager::Operation op, const QNetworkRequest &request) const

    Override this method in your own class and return a
    heap-allocated instance of your class derived from
    QNetworkAccessBackend.

    If \a op or a property of \a request is not supported (for
    example the URL's scheme) then you must return \nullptr.

    \sa QNetworkRequest::attribute(), QNetworkRequest::url(), QUrl::scheme()
*/

/*!
    \class QNetworkAccessBackend
    \brief QNetworkAccessBackend is the base class for implementing
    support for schemes used by QNetworkAccessManager.
    \since 6.0
    \internal

    \include access/qnetworkaccessbackend.cpp semi-private-notice

    This class can be derived from to add support for further schemes
    in QNetworkAccessManager.

    The design of QNetworkAccessBackend makes it possible to specialize
    behavior as needed for certain backends.
    This was done using the (currently) 3 enums TargetType,
    SecurityFeatures and IOFeatures. For example while only open()
    and close() are abstract functions you are also required to
    implement either read() or readPointer() and advanceReadPointer()
    depending on whether you enable IOFeature::ZeroCopy or not.
    Read more about it in the documentation for each of the
    enumerators.

    \sa TargetType, SecurityFeatures, IOFeatures
*/

/*!
    \enum QNetworkAccessBackend::TargetType

    Use the values in this enum to specify what type of target
    the plugin supports. Setting the right type can be important,
    for example: proxyList() is only available for a Networked
    plugin.

    \value Networked
        The plugin supports and expect to connect to networked
        resources. E.g. over TCP, UDP or similar.
    \value Local
        The plugin supports and expects to access local files,
        generate data and/or locally connected devices.
*/

/*!
    \enum QNetworkAccessBackend::SecurityFeature

    Use the values in this enum to specify what type of security
    features the plugin may utilize. Setting the right type(s)
    can be important, for example: setSslConfiguration() may not
    be called for any plugin that do not claim to support TLS.

    \value None
        No specific features are claimed to be supported.
    \value TLS
        The plugin supports and expects to use TLS.
*/

/*!
    \enum QNetworkAccessBackend::IOFeature

    Use the values in this enum to specify what type of IO
    features the plugin may utilize.

    \value None
        No specific features are claimed to be supported.
    \value ZeroCopy
        The plugin will have raw data available in contiguous
        segments and can return a pointer to the data at request.
        Claiming to support this requires implementing readPointer()
        and advanceReadPointer().
    \value NeedResetableUpload
        The plugin may encounter scenarios where data to upload that
        has already been consumed needs to be restored and re-sent.
        E.g. some data was consumed and sent before a redirect
        response was received, and after the redirect the
        previously-consumed data needs to be re-sent.
    \omitvalue SupportsSynchronousMode
*/

/*!
    Constructs the QNetworkAccessBackend.
    You can opt in to specific backend behaviors with \a targetTypes,
    \a securityFeatures and \a ioFeatures.
    See their respective enums and values for more information.

    \sa TargetType, SecurityFeature, IOFeature
*/
QNetworkAccessBackend::QNetworkAccessBackend(TargetTypes targetTypes,
                                             SecurityFeatures securityFeatures,
                                             IOFeatures ioFeatures)
    : QObject(*(new QNetworkAccessBackendPrivate), nullptr)
{
    Q_D(QNetworkAccessBackend);
    d->m_targetTypes = targetTypes;
    d->m_securityFeatures = securityFeatures;
    d->m_ioFeatures = ioFeatures;
}

/*!
    \overload
*/
QNetworkAccessBackend::QNetworkAccessBackend(TargetTypes targetTypes)
    : QNetworkAccessBackend(targetTypes, SecurityFeature::None, IOFeature::None)
{
}

/*!
    \overload
*/
QNetworkAccessBackend::QNetworkAccessBackend(TargetTypes targetTypes,
                                             SecurityFeatures securityFeatures)
    : QNetworkAccessBackend(targetTypes, securityFeatures, IOFeature::None)
{
}

/*!
    \overload
*/
QNetworkAccessBackend::QNetworkAccessBackend(TargetTypes targetTypes, IOFeatures ioFeatures)
    : QNetworkAccessBackend(targetTypes, SecurityFeature::None, ioFeatures)
{
}

/*!
    Destructs the QNetworkAccessBackend base class.
*/
QNetworkAccessBackend::~QNetworkAccessBackend() { }

/*!
    Returns the security related features that the backend claims to
    support.

    \sa SecurityFeature
*/
QNetworkAccessBackend::SecurityFeatures QNetworkAccessBackend::securityFeatures() const noexcept
{
    return d_func()->m_securityFeatures;
}

/*!
    Returns the TargetTypes that the backend claims to target.

    \sa TargetType
*/
QNetworkAccessBackend::TargetTypes QNetworkAccessBackend::targetTypes() const noexcept
{
    return d_func()->m_targetTypes;
}

/*!
    Returns the I/O features that the backend claims to support.

    \sa IOFeature
*/
QNetworkAccessBackend::IOFeatures QNetworkAccessBackend::ioFeatures() const noexcept
{
    return d_func()->m_ioFeatures;
}

/*!
    Prepares the backend and calls open().
    E.g. for TargetType::Networked it will prepare proxyList().

    \sa TargetType, targetTypes
*/
bool QNetworkAccessBackend::start()
{
    Q_D(QNetworkAccessBackend);
#ifndef QT_NO_NETWORKPROXY
    if (targetTypes() & QNetworkAccessBackend::TargetType::Networked)
        d->m_reply->proxyList = d->m_manager->queryProxy(QNetworkProxyQuery(url()));
#endif

    // now start the request
    open();
    return true;
}

/*!
    \fn void QNetworkAccessBackend::open() = 0

    You must implement this in your derived class.
    During this call you must open the connection and begin the request
    (see: request()).

    As the connection progresses you must call the various public and
    protected slots on QNetworkAccessBackend. As an example, when you have
    received some data you must call readyRead(). And when all the data has been
    received you must call finished(). This could, for example, be done by
    binding signals inside your own implementation to the slots, or by calling
    them directly.

    \sa close()
*/

/*!
    \fn void QNetworkAccessBackend::close() = 0

    You must implement this function in your derived class.
    This function gets called when the QNetworkReply is closed or aborted.

    You should not emit an error or call finished() during this call since
    QtNetwork will set and emit the \c{QNetworkReply::OperationCanceledError}
    error by itself after control flow returns from this function.
*/

/*!
    \fn qint64 QNetworkAccessBackend::bytesAvailable() const = 0

    You must implement this function in your derived class.
    This function is called at various times. It may be called because the user
    called QNetworkReply::bytesAvailable(), and it may be called before an
    attempt to read is made.

    While this function doesn't technically need to return an accurate number,
    it may result in reduced performance if it does not. This function must
    return zero if there are no bytes available.
*/

#if QT_CONFIG(ssl)
/*!
    Passes a \a configuration with the user's desired TLS
    configuration. If you don't have the TLS security feature this
    may not be called.

    \sa SecurityFeature, securityFeatures
*/
void QNetworkAccessBackend::setSslConfiguration(const QSslConfiguration &configuration)
{
    Q_UNUSED(configuration);
    if (securityFeatures() & SecurityFeature::TLS) {
        qWarning("Backend (%s) claiming to use TLS hasn't overridden setSslConfiguration.",
                 metaObject()->className());
    }
}

/*!
    Override this and return the QSslConfiguration used if you
    have the TLS security feature

    \sa SecurityFeature, securityFeatures
*/
QSslConfiguration QNetworkAccessBackend::sslConfiguration() const
{
    if (securityFeatures() & SecurityFeature::TLS) {
        qWarning("Backend (%s) claiming to use TLS hasn't overridden sslConfiguration.",
                 metaObject()->className());
    }
    return {};
}
#endif

/*!
    This function will be called when the user wants to ignore
    all TLS handshake errors. Derive this function if TLS is
    supported.

    \sa SecurityFeature, securityFeatures
*/
void QNetworkAccessBackend::ignoreSslErrors()
{
    if (securityFeatures() & SecurityFeature::TLS) {
        qWarning("Backend (%s) claiming to use TLS hasn't overridden ignoreSslErrors.",
                 metaObject()->className());
    }
}

/*!
    This function will be called when the user wants to ignore
    specific \a errors. Derive this function if TLS is supported.

    \sa SecurityFeature, securityFeatures
*/
void QNetworkAccessBackend::ignoreSslErrors(const QList<QSslError> &errors)
{
    Q_UNUSED(errors);
    if (securityFeatures() & SecurityFeature::TLS) {
        qWarning("Backend (%s) claiming to use TLS hasn't overridden ignoreSslErrors.",
                 metaObject()->className());
    }
}

/*!
    The data which the returned value views must stay valid until
    at least the next call to a non-const function. advanceReadPointer
    will be called if any of the data was used.

    Note: This will only be called if IOFeature::ZeroCopy was
    specified in the call to the constructor.

    \sa advanceReadPointer, read
*/
QByteArrayView QNetworkAccessBackend::readPointer()
{
    if (ioFeatures() & IOFeature::ZeroCopy) {
        qWarning("Backend (%s) claiming to support ZeroCopy hasn't overridden readPointer.",
                 metaObject()->className());
    }
    return {};
}

/*!
    This function is to notify your class that \a distance
    bytes have been read using readPointer and next time
    readPointer() is called those bytes should not be included.

    Note: This will only be called if IOFeature::ZeroCopy was
    specified in the call to the constructor.

    \sa readPointer
*/
void QNetworkAccessBackend::advanceReadPointer(qint64 distance)
{
    Q_UNUSED(distance);
    if (ioFeatures() & IOFeature::ZeroCopy) {
        qWarning("Backend (%s) claiming to support ZeroCopy hasn't overridden advanceReadPointer.",
                 metaObject()->className());
    }
}

/*!
    Implement this function to support reading from the resource
    made available by your plugin.
    Store data in \a data, up to a maximum of \a maxlen bytes.
    Then return the total amount of bytes that was copied.

    \sa readPointer, wantToRead
*/
qint64 QNetworkAccessBackend::read(char *data, qint64 maxlen)
{
    Q_UNUSED(data);
    Q_UNUSED(maxlen);
    if ((ioFeatures() & IOFeature::ZeroCopy) == 0) {
        qWarning("Backend (%s) is not ZeroCopy and has not implemented read(...)!",
                 metaObject()->className());
    }
    return 0;
}

/*!
    This is called before we read if there are no bytes available
    and we are ready to read more. Return \c true if new data was
    made available.

    \sa read, readPointer
*/
bool QNetworkAccessBackend::wantToRead()
{
    // Base implementation does nothing
    return false;
}

#if QT_CONFIG(networkproxy)
/*!
    Returns a list of proxies configured for the URL returned by
    url().

    It is only valid to call this function if TargetType::Networked
    was specified in the call to the constructor.
*/
QList<QNetworkProxy> QNetworkAccessBackend::proxyList() const
{
    Q_ASSERT(targetTypes() & TargetType::Networked);
    return d_func()->m_reply->proxyList;
}
#endif

/*!
    Returns the current URL of the reply
*/
QUrl QNetworkAccessBackend::url() const
{
    return d_func()->m_reply->url;
}

/*!
    Sets the URL of the reply. This could e.g. be needed if a
    redirect or similar was performed.
*/
void QNetworkAccessBackend::setUrl(const QUrl &url)
{
    d_func()->m_reply->url = url;
}

/*!
    Returns the value of the \a header.
    If no such header was known it returns a default-constructed
    QVariant.

    \sa setHeader, rawHeader, setRawHeader
*/
QVariant QNetworkAccessBackend::header(QNetworkRequest::KnownHeaders header) const
{
    return d_func()->m_reply->cookedHeaders.value(header);
}

/*!
    Sets the value of the \a header to \a value.
    This can be queried on the QNetworkReply instance which was
    returned when calling one of the appropriate functions on
    QNetworkAccessManager.

    \sa header, rawHeader, setRawHeader
*/
void QNetworkAccessBackend::setHeader(QNetworkRequest::KnownHeaders header, const QVariant &value)
{
    d_func()->m_reply->setCookedHeader(header, value);
}

/*!
    Returns the value of the \a header.
    If no such header was known it returns a default-constructed
    QVariant.

    \sa setHeader, rawHeader, setRawHeader
*/
QByteArray QNetworkAccessBackend::rawHeader(const QByteArray &header) const
{
    return d_func()->m_reply->q_func()->rawHeader(header);
}

/*!
    Sets the value of the \a header to \a value.

    This value is accessible on the QNetworkReply instance which was
    returned when calling one of the appropriate functions on
    QNetworkAccessManager.

    \sa header, rawHeader, setRawHeader
*/
void QNetworkAccessBackend::setRawHeader(const QByteArray &header, const QByteArray &value)
{
    d_func()->m_reply->setRawHeader(header, value);
}

/*!
    \since 6.8

    Returns headers that are set in this QNetworkAccessBackend instance.

    \sa setHeaders()
*/
QHttpHeaders QNetworkAccessBackend::headers() const
{
    return d_func()->m_reply->headers();
}

/*!
    \since 6.8

    Sets \a newHeaders as headers, overriding any previously set headers.

    These headers are accessible on the QNetworkReply instance which was
    returned when calling one of the appropriate functions on
    QNetworkAccessManager.

    \sa headers()
*/
void QNetworkAccessBackend::setHeaders(QHttpHeaders &&newHeaders)
{
    d_func()->m_reply->setHeaders(std::move(newHeaders));
}

/*!
    \overload
    \since 6.8
*/
void QNetworkAccessBackend::setHeaders(const QHttpHeaders &newHeaders)
{
    d_func()->m_reply->setHeaders(newHeaders);
}

/*!
    Returns the operation which was requested when calling
    QNetworkAccessManager.
*/
QNetworkAccessManager::Operation QNetworkAccessBackend::operation() const
{
    return d_func()->m_reply->operation;
}

/*!
    Returns \c true if setCachingEnabled was previously called with \c true.
    Returns \c false otherwise, which is the default value.

    \sa setCachingEnabled
*/
bool QNetworkAccessBackend::isCachingEnabled() const
{
    return d_func()->m_canCache;
}

/*!
    If \a canCache is \c true then this hints to us that we can cache
    the reply that is created.

    \sa isCachingEnabled
*/
void QNetworkAccessBackend::setCachingEnabled(bool canCache)
{
    d_func()->m_canCache = canCache;
}

/*!
    Set \a attribute to \a value. If \c{value.isValid()} returns
    \c false then the attribute is unset.

    This value is accessible on the QNetworkReply instance which was
    returned when calling one of the appropriate functions on
    QNetworkAccessManager.
*/
void QNetworkAccessBackend::setAttribute(QNetworkRequest::Attribute attribute,
                                         const QVariant &value)
{
    Q_D(QNetworkAccessBackend);
    if (value.isValid())
        d->m_reply->attributes.insert(attribute, value);
    else
        d->m_reply->attributes.remove(attribute);
}

/*!
    Creates a QIODevice for the data provided to upload, if any.

    Emission of upload progress is handled internally as the device
    gets read from.

    Returns a pointer to a device with data or nullptr if there was
    no data to upload.
*/
QIODevice *QNetworkAccessBackend::createUploadByteDevice()
{
    Q_D(QNetworkAccessBackend);

    if (d->m_reply->outgoingDataBuffer)
        d->uploadByteDevice =
                QNonContiguousByteDeviceFactory::createShared(d->m_reply->outgoingDataBuffer);
    else if (d->m_reply->outgoingData) {
        d->uploadByteDevice =
                QNonContiguousByteDeviceFactory::createShared(d->m_reply->outgoingData);
    } else {
        return nullptr;
    }

    // We want signal emissions only for normal asynchronous uploads
    if (!isSynchronous()) {
        connect(d->uploadByteDevice.get(), &QNonContiguousByteDevice::readProgress, this,
                [this](qint64 a, qint64 b) {
                    Q_D(QNetworkAccessBackend);
                    if (!d->m_reply->isFinished)
                        d->m_reply->emitUploadProgress(a, b);
                });
    }

    d->wrappedUploadByteDevice = QNonContiguousByteDeviceFactory::wrap(d->uploadByteDevice.get());
    return d->wrappedUploadByteDevice;
}

/*!
    Returns the upload byte device associated with the current
    request. This does not create the request but simply returns
    the pointer stored in this base class so it doesn't need to be
    stored in the subclass too.
*/
QIODevice *QNetworkAccessBackend::uploadByteDevice()
{
    return d_func()->wrappedUploadByteDevice;
}

/*!
    \internal
    Returns \c true if synchronous mode is enabled.
    If it is disabled or not supported it will return \c {false}.
*/
bool QNetworkAccessBackend::isSynchronous() const
{
    return d_func()->m_isSynchronous;
}

/*!
    \internal
    Enables or disables synchronous mode depending on \a synchronous
    if the backend supports it. Otherwise it will always be disabled.
*/
void QNetworkAccessBackend::setSynchronous(bool synchronous)
{
    if ((ioFeatures() & IOFeature::SupportsSynchronousMode) == 0)
        return;
    d_func()->m_isSynchronous = synchronous;
}

/*!
    Call this slot when you have more data available to notify
    the backend that we can attempt to read again.
*/
void QNetworkAccessBackend::readyRead()
{
    d_func()->m_reply->backendNotify(QNetworkReplyImplPrivate::NotifyDownstreamReadyWrite);
}

/*!
    Call this slot when there will be no more data available,
    regardless of whether the transfer was successful or unsuccessful.
    For unsuccessful transfers make sure to call error() first!
*/
void QNetworkAccessBackend::finished()
{
    d_func()->m_reply->finished();
}

/*!
    Call this slot if an error occurs. An error would be something
    you cannot recover from (e.g. the file requested is missing).
    The \a code and \a errorString is transferred to and stored in
    the QNetworkReply and the \a code is emitted through the
    QNetworkReply::errorOccurred() signal.
*/
void QNetworkAccessBackend::error(QNetworkReply::NetworkError code, const QString &errorString)
{
    Q_ASSERT(!d_func()->m_reply->isFinished);
    d_func()->m_reply->error(code, errorString);
}

#ifndef QT_NO_NETWORKPROXY
/*!
    Call this slot if, when connecting through a proxy, it requests
    authentication. This may cause the
    QNetworkAccessManager::proxyAuthenticationRequired() signal to be
    emitted if the credentials are not already stored in an internal
    cache.
    To be able to make the lookup in the cache and potentially the
    subsequent request the \a proxy needs to be known. The credentials
    will be stored in \a authenticator. While \a authenticator is a
    pointer, passing \c nullptr is invalid.
*/
void QNetworkAccessBackend::proxyAuthenticationRequired(const QNetworkProxy &proxy,
                                                        QAuthenticator *authenticator)
{
    Q_D(QNetworkAccessBackend);
    Q_ASSERT(authenticator);
    d->m_manager->proxyAuthenticationRequired(QUrl(), proxy, isSynchronous(), authenticator,
                                              &d->m_reply->lastProxyAuthentication);
}
#endif

/*!
    Call this slot if the remote resource requests authentication.
    This may cause the
    QNetworkAccessManager::authenticationRequired() signal to be
    emitted if the credentials are not already stored in an internal
    cache.
    The credentials will be stored in \a authenticator. While
    \a authenticator is a pointer, passing \c nullptr is invalid.
*/
void QNetworkAccessBackend::authenticationRequired(QAuthenticator *authenticator)
{
    Q_D(QNetworkAccessBackend);
    Q_ASSERT(authenticator);
    d->m_manager->authenticationRequired(authenticator, d->m_reply->q_func(), isSynchronous(),
                                         d->m_reply->url, &d->m_reply->urlForLastAuthentication);
}

/*!
    Call this slot, if appropriate, after having processed and
    updated metadata (e.g. headers).
*/
void QNetworkAccessBackend::metaDataChanged()
{
    d_func()->m_reply->metaDataChanged();
}

/*!
    Call this slot if, when connecting to the resource, a redirect
    to \a destination was requested.
*/
void QNetworkAccessBackend::redirectionRequested(const QUrl &destination)
{
    d_func()->m_reply->redirectionRequested(destination);
}

/*!
    \internal
*/
void QNetworkAccessBackend::setReplyPrivate(QNetworkReplyImplPrivate *reply)
{
    d_func()->m_reply = reply;
}

/*!
    \internal
*/
void QNetworkAccessBackend::setManagerPrivate(QNetworkAccessManagerPrivate *manager)
{
    d_func()->m_manager = manager;
}

/*!
    Returns the network cache object that was available when the
    request was started. Returns \c nullptr if none was available.
*/
QAbstractNetworkCache *QNetworkAccessBackend::networkCache() const
{
    return d_func()->m_manager->networkCache;
}

// -- QNetworkAccessBackendFactory
/*!
    Constructs QNetworkAccessBackendFactory
*/
QNetworkAccessBackendFactory::QNetworkAccessBackendFactory()
{
    if (factoryData())
        factoryData->append(this);
}

/*!
    Destructs QNetworkAccessBackendFactory
*/
QNetworkAccessBackendFactory::~QNetworkAccessBackendFactory()
{
    if (factoryData.exists())
        factoryData->removeAll(this);
};

QT_END_NAMESPACE

#include "moc_qnetworkaccessbackend_p.cpp"