Beispiel #1
0
/*!
    Returns a new QNetworkReply object to handle the operation \a op
    and request \a req. The device \a outgoingData is always 0 for Get and
    Head requests, but is the value passed to post() and put() in
    those operations (the QByteArray variants will pass a QBuffer
    object).

    The default implementation calls QNetworkCookieJar::cookiesForUrl()
    on the cookie jar set with setCookieJar() to obtain the cookies to
    be sent to the remote server.

    The returned object must be in an open state.
*/
QNetworkReply *QNetworkAccessManager::createRequest(QNetworkAccessManager::Operation op,
                                                    const QNetworkRequest &req,
                                                    QIODevice *outgoingData)
{
    Q_D(QNetworkAccessManager);
    QNetworkRequest request = req;
    if (!request.header(QNetworkRequest::ContentLengthHeader).isValid() &&
        outgoingData && !outgoingData->isSequential()) {
        // request has no Content-Length
        // but the data that is outgoing is random-access
        request.setHeader(QNetworkRequest::ContentLengthHeader, outgoingData->size());
    }
    if (d->cookieJar) {
        QList<QNetworkCookie> cookies = d->cookieJar->cookiesForUrl(request.url());
        if (!cookies.isEmpty())
            request.setHeader(QNetworkRequest::CookieHeader, qVariantFromValue(cookies));
    }

    // first step: create the reply
    QUrl url = request.url();
    QNetworkReplyImpl *reply = new QNetworkReplyImpl(this);
    QNetworkReplyImplPrivate *priv = reply->d_func();
    priv->manager = this;

    // second step: fetch cached credentials
    QNetworkAuthenticationCredential *cred = d->fetchCachedCredentials(url);
    if (cred) {
        url.setUserName(cred->user);
        url.setPassword(cred->password);
        priv->urlForLastAuthentication = url;
    }

    // third step: setup the reply
    priv->setup(op, request, outgoingData);
    if (request.attribute(QNetworkRequest::CacheLoadControlAttribute, QNetworkRequest::PreferNetwork).toInt() !=
        QNetworkRequest::AlwaysNetwork)
        priv->setNetworkCache(d->networkCache);
#ifndef QT_NO_NETWORKPROXY
    QList<QNetworkProxy> proxyList = d->queryProxy(QNetworkProxyQuery(request.url()));
    priv->proxyList = proxyList;
#endif

    // fourth step: find a backend
    priv->backend = d->findBackend(op, request);
    if (priv->backend) {
        priv->backend->setParent(reply);
        priv->backend->reply = priv;
    }

#ifndef QT_NO_OPENSSL
    reply->setSslConfiguration(request.sslConfiguration());
#endif
    return reply;
}
Beispiel #2
0
/*!
    Returns a new QNetworkReply object to handle the operation \a op
    and request \a req. The device \a outgoingData is always 0 for Get and
    Head requests, but is the value passed to post() and put() in
    those operations (the QByteArray variants will pass a QBuffer
    object).

    The default implementation calls QNetworkCookieJar::cookiesForUrl()
    on the cookie jar set with setCookieJar() to obtain the cookies to
    be sent to the remote server.

    The returned object must be in an open state.
*/
QNetworkReply *QNetworkAccessManager::createRequest(QNetworkAccessManager::Operation op,
                                                    const QNetworkRequest &req,
                                                    QIODevice *outgoingData)
{
    Q_D(QNetworkAccessManager);

    bool isLocalFile = req.url().isLocalFile();
    QString scheme = req.url().scheme().toLower();

    // fast path for GET on file:// URLs
    // The QNetworkAccessFileBackend will right now only be used for PUT
    if ((op == QNetworkAccessManager::GetOperation || op == QNetworkAccessManager::HeadOperation)
        && (isLocalFile || scheme == QLatin1String("qrc"))) {
        return new QNetworkReplyFileImpl(this, req, op);
    }

    if ((op == QNetworkAccessManager::GetOperation || op == QNetworkAccessManager::HeadOperation)
            && scheme == QLatin1String("data")) {
        return new QNetworkReplyDataImpl(this, req, op);
    }

    // A request with QNetworkRequest::AlwaysCache does not need any bearer management
    QNetworkRequest::CacheLoadControl mode =
        static_cast<QNetworkRequest::CacheLoadControl>(
            req.attribute(QNetworkRequest::CacheLoadControlAttribute,
                              QNetworkRequest::PreferNetwork).toInt());
    if (mode == QNetworkRequest::AlwaysCache
        && (op == QNetworkAccessManager::GetOperation
        || op == QNetworkAccessManager::HeadOperation)) {
        // FIXME Implement a QNetworkReplyCacheImpl instead, see QTBUG-15106
        QNetworkReplyImpl *reply = new QNetworkReplyImpl(this);
        QNetworkReplyImplPrivate *priv = reply->d_func();
        priv->manager = this;
        priv->backend = new QNetworkAccessCacheBackend();
        priv->backend->manager = this->d_func();
        priv->backend->setParent(reply);
        priv->backend->reply = priv;
        priv->setup(op, req, outgoingData);
        return reply;
    }

#ifndef QT_NO_BEARERMANAGEMENT
    // Return a disabled network reply if network access is disabled.
    // Except if the scheme is empty or file://.
    if (!d->networkAccessible && !isLocalFile) {
        return new QDisabledNetworkReply(this, req, op);
    }

    if (!d->networkSession && (d->initializeSession || !d->networkConfiguration.isEmpty())) {
        QNetworkConfigurationManager manager;
        if (!d->networkConfiguration.isEmpty()) {
            d->createSession(manager.configurationFromIdentifier(d->networkConfiguration));
        } else {
            if (manager.capabilities() & QNetworkConfigurationManager::NetworkSessionRequired)
                d->createSession(manager.defaultConfiguration());
            else
                d->initializeSession = false;
        }
    }

    if (d->networkSession)
        d->networkSession->setSessionProperty(QLatin1String("AutoCloseSessionTimeout"), -1);
#endif

    QNetworkRequest request = req;
    if (!request.header(QNetworkRequest::ContentLengthHeader).isValid() &&
        outgoingData && !outgoingData->isSequential()) {
        // request has no Content-Length
        // but the data that is outgoing is random-access
        request.setHeader(QNetworkRequest::ContentLengthHeader, outgoingData->size());
    }

    if (static_cast<QNetworkRequest::LoadControl>
        (request.attribute(QNetworkRequest::CookieLoadControlAttribute,
                           QNetworkRequest::Automatic).toInt()) == QNetworkRequest::Automatic) {
        if (d->cookieJar) {
            QList<QNetworkCookie> cookies = d->cookieJar->cookiesForUrl(request.url());
            if (!cookies.isEmpty())
                request.setHeader(QNetworkRequest::CookieHeader, QVariant::fromValue(cookies));
        }
    }

    // first step: create the reply
    QUrl url = request.url();
    QNetworkReplyImpl *reply = new QNetworkReplyImpl(this);
#ifndef QT_NO_BEARERMANAGEMENT
    if (!isLocalFile) {
        connect(this, SIGNAL(networkSessionConnected()),
                reply, SLOT(_q_networkSessionConnected()));
    }
#endif
    QNetworkReplyImplPrivate *priv = reply->d_func();
    priv->manager = this;

    // second step: fetch cached credentials
    // This is not done for the time being, we should use signal emissions to request
    // the credentials from cache.

    // third step: find a backend
    priv->backend = d->findBackend(op, request);

    if (priv->backend) {
        priv->backend->setParent(reply);
        priv->backend->reply = priv;
    }

#ifndef QT_NO_OPENSSL
    reply->setSslConfiguration(request.sslConfiguration());
#endif

    // fourth step: setup the reply
    priv->setup(op, request, outgoingData);

    return reply;
}
Beispiel #3
0
/*!
    Returns a new QNetworkReply object to handle the operation \a op
    and request \a req. The device \a outgoingData is always 0 for Get and
    Head requests, but is the value passed to post() and put() in
    those operations (the QByteArray variants will pass a QBuffer
    object).

    The default implementation calls QNetworkCookieJar::cookiesForUrl()
    on the cookie jar set with setCookieJar() to obtain the cookies to
    be sent to the remote server.

    The returned object must be in an open state.
*/
QNetworkReply *QNetworkAccessManager::createRequest(QNetworkAccessManager::Operation op,
                                                    const QNetworkRequest &req,
                                                    QIODevice *outgoingData)
{
    Q_D(QNetworkAccessManager);

    // fast path for GET on file:// URLs
    // Also if the scheme is empty we consider it a file.
    // The QNetworkAccessFileBackend will right now only be used
    // for PUT or qrc://
    if ((op == QNetworkAccessManager::GetOperation || op == QNetworkAccessManager::HeadOperation)
         && (req.url().scheme() == QLatin1String("file")
             || req.url().scheme().isEmpty())) {
        return new QFileNetworkReply(this, req, op);
    }

#ifndef QT_NO_BEARERMANAGEMENT
    // Return a disabled network reply if network access is disabled.
    // Except if the scheme is empty or file://.
    if (!d->networkAccessible && !(req.url().scheme() == QLatin1String("file") ||
                                      req.url().scheme().isEmpty())) {
        return new QDisabledNetworkReply(this, req, op);
    }

    if (!d->networkSession && (d->initializeSession || !d->networkConfiguration.isEmpty())) {
        QNetworkConfigurationManager manager;
        if (!d->networkConfiguration.isEmpty()) {
            d->createSession(manager.configurationFromIdentifier(d->networkConfiguration));
        } else {
            if (manager.capabilities() & QNetworkConfigurationManager::NetworkSessionRequired)
                d->createSession(manager.defaultConfiguration());
            else
                d->initializeSession = false;
        }
    }

    if (d->networkSession)
        d->networkSession->setSessionProperty(QLatin1String("AutoCloseSessionTimeout"), -1);
#endif

    QNetworkRequest request = req;
    if (!request.header(QNetworkRequest::ContentLengthHeader).isValid() &&
        outgoingData && !outgoingData->isSequential()) {
        // request has no Content-Length
        // but the data that is outgoing is random-access
        request.setHeader(QNetworkRequest::ContentLengthHeader, outgoingData->size());
    }
    if (d->cookieJar) {
        QList<QNetworkCookie> cookies = d->cookieJar->cookiesForUrl(request.url());
        if (!cookies.isEmpty())
            request.setHeader(QNetworkRequest::CookieHeader, qVariantFromValue(cookies));
    }

    // first step: create the reply
    QUrl url = request.url();
    QNetworkReplyImpl *reply = new QNetworkReplyImpl(this);
#ifndef QT_NO_BEARERMANAGEMENT
    if (req.url().scheme() != QLatin1String("file") && !req.url().scheme().isEmpty()) {
        connect(this, SIGNAL(networkSessionConnected()),
                reply, SLOT(_q_networkSessionConnected()));
    }
#endif
    QNetworkReplyImplPrivate *priv = reply->d_func();
    priv->manager = this;

    // second step: fetch cached credentials
    QNetworkAuthenticationCredential *cred = d->fetchCachedCredentials(url);
    if (cred) {
        url.setUserName(cred->user);
        url.setPassword(cred->password);
        priv->urlForLastAuthentication = url;
    }

    // third step: find a backend
    priv->backend = d->findBackend(op, request);

#ifndef QT_NO_NETWORKPROXY
    QList<QNetworkProxy> proxyList = d->queryProxy(QNetworkProxyQuery(request.url()));
    priv->proxyList = proxyList;
#endif
    if (priv->backend) {
        priv->backend->setParent(reply);
        priv->backend->reply = priv;
    }
    // fourth step: setup the reply
    priv->setup(op, request, outgoingData);

#ifndef QT_NO_OPENSSL
    reply->setSslConfiguration(request.sslConfiguration());
#endif
    return reply;
}