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These rights are described in the Digia 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. ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qnetworkaccessmanager.h" #include "qnetworkaccessmanager_p.h" #include "qnetworkrequest.h" #include "qnetworkreply.h" #include "qnetworkreply_p.h" #include "qnetworkcookie.h" #include "qabstractnetworkcache.h" #include "qnetworkaccesshttpbackend_p.h" #include "qnetworkaccessftpbackend_p.h" #include "qnetworkaccessfilebackend_p.h" #include "qnetworkaccessdatabackend_p.h" #include "qnetworkaccessdebugpipebackend_p.h" #include "QtCore/qbuffer.h" #include "QtCore/qurl.h" #include "QtCore/qvector.h" #include "QtNetwork/qauthenticator.h" #include "QtNetwork/qsslconfiguration.h" QT_BEGIN_NAMESPACE #ifndef QT_NO_HTTP Q_GLOBAL_STATIC(QNetworkAccessHttpBackendFactory, httpBackend) #endif // QT_NO_HTTP Q_GLOBAL_STATIC(QNetworkAccessFileBackendFactory, fileBackend) Q_GLOBAL_STATIC(QNetworkAccessDataBackendFactory, dataBackend) #ifndef QT_NO_FTP Q_GLOBAL_STATIC(QNetworkAccessFtpBackendFactory, ftpBackend) #endif // QT_NO_FTP #ifdef QT_BUILD_INTERNAL Q_GLOBAL_STATIC(QNetworkAccessDebugPipeBackendFactory, debugpipeBackend) #endif static void ensureInitialized() { #ifndef QT_NO_HTTP (void) httpBackend(); #endif // QT_NO_HTTP (void) dataBackend(); #ifndef QT_NO_FTP (void) ftpBackend(); #endif #ifdef QT_BUILD_INTERNAL (void) debugpipeBackend(); #endif // leave this one last since it will query the special QAbstractFileEngines (void) fileBackend(); } /*! \class QNetworkAccessManager \brief The QNetworkAccessManager class allows the application to post network requests and receive replies \since 4.4 \inmodule QtNetwork \reentrant The Network Access API is constructed around one QNetworkAccessManager object, which holds the common configuration and settings for the requests it sends. It contains the proxy and cache configuration, as well as the signals related to such issues, and reply signals that can be used to monitor the progress of a network operation. Once a QNetworkAccessManager object has been created, the application can use it to send requests over the network. A group of standard functions are supplied that take a request and optional data, and each return a QNetworkReply object. The returned object is used to obtain any data returned in response to the corresponding request. A simple download off the network could be accomplished with: \snippet doc/src/snippets/code/src_network_access_qnetworkaccessmanager.cpp 0 When the \tt replyFinished slot above is called, the parameter it takes is the QNetworkReply object containing the downloaded data as well as meta-data (headers, etc.). \note After the request has finished, it is the responsibility of the user to delete the QNetworkReply object at an appropriate time. Do not directly delete it inside the slot connected to finished(). You can use the deleteLater() function. A more involved example, assuming the manager is already existent, can be: \snippet doc/src/snippets/code/src_network_access_qnetworkaccessmanager.cpp 1 \sa QNetworkRequest, QNetworkReply, QNetworkProxy */ /*! \enum QNetworkAccessManager::Operation Indicates the operation this reply is processing. \value HeadOperation retrieve headers operation (created with head()) \value GetOperation retrieve headers and download contents (created with get()) \value PutOperation upload contents operation (created with put()) \value PostOperation send the contents of an HTML form for processing via HTTP POST (created with post()) \omitvalue UnknownOperation \sa QNetworkReply::operation() */ /*! \fn void QNetworkAccessManager::proxyAuthenticationRequired(const QNetworkProxy &proxy, QAuthenticator *authenticator) This signal is emitted whenever a proxy requests authentication and QNetworkAccessManager cannot find a valid, cached credential. The slot connected to this signal should fill in the credentials for the proxy \a proxy in the \a authenticator object. QNetworkAccessManager will cache the credentials internally. The next time the proxy requests authentication, QNetworkAccessManager will automatically send the same credential without emitting the proxyAuthenticationRequired signal again. If the proxy rejects the credentials, QNetworkAccessManager will emit the signal again. \sa proxy(), setProxy(), authenticationRequired() */ /*! \fn void QNetworkAccessManager::authenticationRequired(QNetworkReply *reply, QAuthenticator *authenticator) This signal is emitted whenever a final server requests authentication before it delivers the requested contents. The slot connected to this signal should fill the credentials for the contents (which can be determined by inspecting the \a reply object) in the \a authenticator object. QNetworkAccessManager will cache the credentials internally and will send the same values if the server requires authentication again, without emitting the authenticationRequired() signal. If it rejects the credentials, this signal will be emitted again. \sa proxyAuthenticationRequired() */ /*! \fn void QNetworkAccessManager::finished(QNetworkReply *reply) This signal is emitted whenever a pending network reply is finished. The \a reply parameter will contain a pointer to the reply that has just finished. This signal is emitted in tandem with the QNetworkReply::finished() signal. See QNetworkReply::finished() for information on the status that the object will be in. \note Do not delete the \a reply object in the slot connected to this signal. Use deleteLater(). \sa QNetworkReply::finished(), QNetworkReply::error() */ /*! \fn void QNetworkAccessManager::sslErrors(QNetworkReply *reply, const QList &errors) This signal is emitted if the SSL/TLS session encountered errors during the set up, including certificate verification errors. The \a errors parameter contains the list of errors and \a reply is the QNetworkReply that is encountering these errors. To indicate that the errors are not fatal and that the connection should proceed, the QNetworkReply::ignoreSslErrors() function should be called from the slot connected to this signal. If it is not called, the SSL session will be torn down before any data is exchanged (including the URL). This signal can be used to display an error message to the user indicating that security may be compromised and display the SSL settings (see sslConfiguration() to obtain it). If the user decides to proceed after analyzing the remote certificate, the slot should call ignoreSslErrors(). \sa QSslSocket::sslErrors(), QNetworkReply::sslErrors(), QNetworkReply::sslConfiguration(), QNetworkReply::ignoreSslErrors() */ class QNetworkAuthenticationCredential { public: QString domain; QString user; QString password; }; Q_DECLARE_TYPEINFO(QNetworkAuthenticationCredential, Q_MOVABLE_TYPE); inline bool operator<(const QNetworkAuthenticationCredential &t1, const QString &t2) { return t1.domain < t2; } class QNetworkAuthenticationCache: private QVector, public QNetworkAccessCache::CacheableObject { public: QNetworkAuthenticationCache() { setExpires(false); setShareable(true); reserve(1); } QNetworkAuthenticationCredential *findClosestMatch(const QString &domain) { iterator it = qLowerBound(begin(), end(), domain); if (it == end() && !isEmpty()) --it; if (it == end() || !domain.startsWith(it->domain)) return 0; return &*it; } void insert(const QString &domain, const QString &user, const QString &password) { QNetworkAuthenticationCredential *closestMatch = findClosestMatch(domain); if (closestMatch && closestMatch->domain == domain) { // we're overriding the current credentials closestMatch->user = user; closestMatch->password = password; } else { QNetworkAuthenticationCredential newCredential; newCredential.domain = domain; newCredential.user = user; newCredential.password = password; if (closestMatch) QVector::insert(++closestMatch, newCredential); else QVector::insert(end(), newCredential); } } virtual void dispose() { delete this; } }; #ifndef QT_NO_NETWORKPROXY static QByteArray proxyAuthenticationKey(const QNetworkProxy &proxy, const QString &realm) { QUrl key; switch (proxy.type()) { case QNetworkProxy::Socks5Proxy: key.setScheme(QLatin1String("proxy-socks5")); break; case QNetworkProxy::HttpProxy: case QNetworkProxy::HttpCachingProxy: key.setScheme(QLatin1String("proxy-http")); break; case QNetworkProxy::FtpCachingProxy: key.setScheme(QLatin1String("proxy-ftp")); case QNetworkProxy::DefaultProxy: case QNetworkProxy::NoProxy: // shouldn't happen return QByteArray(); // no default: // let there be errors if a new proxy type is added in the future } if (key.scheme().isEmpty()) // proxy type not handled return QByteArray(); key.setUserName(proxy.user()); key.setHost(proxy.hostName()); key.setPort(proxy.port()); key.setFragment(realm); return "auth:" + key.toEncoded(); } #endif static inline QByteArray authenticationKey(const QUrl &url, const QString &realm) { QUrl copy = url; copy.setFragment(realm); return "auth:" + copy.toEncoded(QUrl::RemovePassword | QUrl::RemovePath | QUrl::RemoveQuery); } /*! Constructs a QNetworkAccessManager object that is the center of the Network Access API and sets \a parent as the parent object. */ QNetworkAccessManager::QNetworkAccessManager(QObject *parent) : QObject(*new QNetworkAccessManagerPrivate, parent) { ensureInitialized(); } /*! Destroys the QNetworkAccessManager object and frees up any resources. Note that QNetworkReply objects that are returned from this class have this object set as their parents, which means that they will be deleted along with it if you don't call QObject::setParent() on them. */ QNetworkAccessManager::~QNetworkAccessManager() { #ifndef QT_NO_NETWORKPROXY delete d_func()->proxyFactory; #endif } #ifndef QT_NO_NETWORKPROXY /*! Returns the QNetworkProxy that the requests sent using this QNetworkAccessManager object will use. The default value for the proxy is QNetworkProxy::DefaultProxy. \sa setProxy(), setProxyFactory(), proxyAuthenticationRequired() */ QNetworkProxy QNetworkAccessManager::proxy() const { return d_func()->proxy; } /*! Sets the proxy to be used in future requests to be \a proxy. This does not affect requests that have already been sent. The proxyAuthenticationRequired() signal will be emitted if the proxy requests authentication. A proxy set with this function will be used for all requests issued by QNetworkAccessManager. In some cases, it might be necessary to select different proxies depending on the type of request being sent or the destination host. If that's the case, you should consider using setProxyFactory(). \sa proxy(), proxyAuthenticationRequired() */ void QNetworkAccessManager::setProxy(const QNetworkProxy &proxy) { Q_D(QNetworkAccessManager); delete d->proxyFactory; d->proxy = proxy; d->proxyFactory = 0; } /*! \fn QNetworkProxyFactory *QNetworkAccessManager::proxyFactory() const \since 4.5 Returns the proxy factory that this QNetworkAccessManager object is using to determine the proxies to be used for requests. Note that the pointer returned by this function is managed by QNetworkAccessManager and could be deleted at any time. \sa setProxyFactory(), proxy() */ QNetworkProxyFactory *QNetworkAccessManager::proxyFactory() const { return d_func()->proxyFactory; } /*! \since 4.5 Sets the proxy factory for this class to be \a factory. A proxy factory is used to determine a more specific list of proxies to be used for a given request, instead of trying to use the same proxy value for all requests. All queries sent by QNetworkAccessManager will have type QNetworkProxyQuery::UrlRequest. For example, a proxy factory could apply the following rules: \list \o if the target address is in the local network (for example, if the hostname contains no dots or if it's an IP address in the organization's range), return QNetworkProxy::NoProxy \o if the request is FTP, return an FTP proxy \o if the request is HTTP or HTTPS, then return an HTTP proxy \o otherwise, return a SOCKSv5 proxy server \endlist The lifetime of the object \a factory will be managed by QNetworkAccessManager. It will delete the object when necessary. \note If a specific proxy is set with setProxy(), the factory will not be used. \sa proxyFactory(), setProxy(), QNetworkProxyQuery */ void QNetworkAccessManager::setProxyFactory(QNetworkProxyFactory *factory) { Q_D(QNetworkAccessManager); delete d->proxyFactory; d->proxyFactory = factory; d->proxy = QNetworkProxy(); } #endif /*! \since 4.5 Returns the cache that is used to store data obtained from the network. \sa setCache() */ QAbstractNetworkCache *QNetworkAccessManager::cache() const { Q_D(const QNetworkAccessManager); return d->networkCache; } /*! \since 4.5 Sets the manager's network cache to be the \a cache specified. The cache is used for all requests dispatched by the manager. Use this function to set the network cache object to a class that implements additional features, like saving the cookies to permanent storage. \note QNetworkAccessManager takes ownership of the \a cache object. QNetworkAccessManager by default does not have a set cache. Qt provides a simple disk cache, QNetworkDiskCache, which can be used. \sa cache(), QNetworkRequest::CacheLoadControl */ void QNetworkAccessManager::setCache(QAbstractNetworkCache *cache) { Q_D(QNetworkAccessManager); if (d->networkCache != cache) { delete d->networkCache; d->networkCache = cache; if (d->networkCache) d->networkCache->setParent(this); } } /*! Returns the QNetworkCookieJar that is used to store cookies obtained from the network as well as cookies that are about to be sent. \sa setCookieJar() */ QNetworkCookieJar *QNetworkAccessManager::cookieJar() const { Q_D(const QNetworkAccessManager); if (!d->cookieJar) d->createCookieJar(); return d->cookieJar; } /*! Sets the manager's cookie jar to be the \a cookieJar specified. The cookie jar is used by all requests dispatched by the manager. Use this function to set the cookie jar object to a class that implements additional features, like saving the cookies to permanent storage. \note QNetworkAccessManager takes ownership of the \a cookieJar object. QNetworkAccessManager will set the parent of the \a cookieJar passed to itself, so that the cookie jar is deleted when this object is deleted as well. If you want to share cookie jars between different QNetworkAccessManager objects, you may want to set the cookie jar's parent to 0 after calling this function. QNetworkAccessManager by default does not implement any cookie policy of its own: it accepts all cookies sent by the server, as long as they are well formed and meet the minimum security requirements (cookie domain matches the request's and cookie path matches the request's). In order to implement your own security policy, override the QNetworkCookieJar::cookiesForUrl() and QNetworkCookieJar::setCookiesFromUrl() virtual functions. Those functions are called by QNetworkAccessManager when it detects a new cookie. \sa cookieJar(), QNetworkCookieJar::cookiesForUrl(), QNetworkCookieJar::setCookiesFromUrl() */ void QNetworkAccessManager::setCookieJar(QNetworkCookieJar *cookieJar) { Q_D(QNetworkAccessManager); d->cookieJarCreated = true; if (d->cookieJar != cookieJar) { if (d->cookieJar && d->cookieJar->parent() == this) delete d->cookieJar; d->cookieJar = cookieJar; d->cookieJar->setParent(this); } } /*! This function is used to post a request to obtain the network headers for \a request. It takes its name after the HTTP request associated (HEAD). It returns a new QNetworkReply object which will contain such headers. */ QNetworkReply *QNetworkAccessManager::head(const QNetworkRequest &request) { return d_func()->postProcess(createRequest(QNetworkAccessManager::HeadOperation, request)); } /*! This function is used to post a request to obtain the contents of the target \a request. It will cause the contents to be downloaded, along with the headers associated with it. It returns a new QNetworkReply object opened for reading which emits its QIODevice::readyRead() signal whenever new data arrives. \sa post(), put() */ QNetworkReply *QNetworkAccessManager::get(const QNetworkRequest &request) { return d_func()->postProcess(createRequest(QNetworkAccessManager::GetOperation, request)); } /*! This function is used to send an HTTP POST request to the destination specified by \a request. The contents of the \a data device will be uploaded to the server. \a data must be opened for reading when this function is called and must remain valid until the finished() signal is emitted for this reply. The returned QNetworkReply object will be open for reading and will contain the reply sent by the server to the POST request. \note sending a POST request on protocols other than HTTP and HTTPS is undefined and will probably fail. \sa get(), put() */ QNetworkReply *QNetworkAccessManager::post(const QNetworkRequest &request, QIODevice *data) { return d_func()->postProcess(createRequest(QNetworkAccessManager::PostOperation, request, data)); } /*! \overload This function sends the contents of the \a data byte array to the destination specified by \a request. */ QNetworkReply *QNetworkAccessManager::post(const QNetworkRequest &request, const QByteArray &data) { QBuffer *buffer = new QBuffer; buffer->setData(data); buffer->open(QIODevice::ReadOnly); QNetworkReply *reply = post(request, buffer); buffer->setParent(reply); return reply; } /*! This function is used to upload the contents of \a data to the destination \a request. \a data must be opened for reading when this function is called and must remain valid until the finished() signal is emitted for this reply. The returned QNetworkReply object will be open for reply, but whether anything will be available for reading is protocol dependent. For HTTP, the server may send a small HTML page indicating the upload was successful (or not). Other protocols will probably have content in their replies. For HTTP, this request will send a PUT request, which most servers do not allow. Form upload mechanisms, including that of uploading files through HTML forms, use the POST mechanism. \sa get(), post() */ QNetworkReply *QNetworkAccessManager::put(const QNetworkRequest &request, QIODevice *data) { return d_func()->postProcess(createRequest(QNetworkAccessManager::PutOperation, request, data)); } /*! \overload This function sends the contents of the \a data byte array to the destination specified by \a request. */ QNetworkReply *QNetworkAccessManager::put(const QNetworkRequest &request, const QByteArray &data) { QBuffer *buffer = new QBuffer; buffer->setData(data); buffer->open(QIODevice::ReadOnly); QNetworkReply *reply = put(request, buffer); buffer->setParent(reply); return reply; } /*! 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 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); #ifndef QT_NO_NETWORKPROXY QList 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; } void QNetworkAccessManagerPrivate::_q_replyFinished() { Q_Q(QNetworkAccessManager); QNetworkReply *reply = qobject_cast(q->sender()); if (reply) emit q->finished(reply); } void QNetworkAccessManagerPrivate::_q_replySslErrors(const QList &errors) { #ifndef QT_NO_OPENSSL Q_Q(QNetworkAccessManager); QNetworkReply *reply = qobject_cast(q->sender()); if (reply) emit q->sslErrors(reply, errors); #else Q_UNUSED(errors); #endif } QNetworkReply *QNetworkAccessManagerPrivate::postProcess(QNetworkReply *reply) { Q_Q(QNetworkAccessManager); QNetworkReplyPrivate::setManager(reply, q); q->connect(reply, SIGNAL(finished()), SLOT(_q_replyFinished())); #ifndef QT_NO_OPENSSL /* In case we're compiled without SSL support, we don't have this signal and we need to * avoid getting a connection error. */ q->connect(reply, SIGNAL(sslErrors(QList)), SLOT(_q_replySslErrors(QList))); #endif return reply; } void QNetworkAccessManagerPrivate::createCookieJar() const { if (!cookieJarCreated) { // keep the ugly hack in here QNetworkAccessManagerPrivate *that = const_cast(this); that->cookieJarCreated = true; that->cookieJar = new QNetworkCookieJar(that->q_func()); } } void QNetworkAccessManagerPrivate::authenticationRequired(QNetworkAccessBackend *backend, QAuthenticator *authenticator) { Q_Q(QNetworkAccessManager); // FIXME: Add support for domains (i.e., the leading path) QUrl url = backend->reply->url; // don't try the cache for the same URL twice in a row // being called twice for the same URL means the authentication failed if (url != backend->reply->urlForLastAuthentication) { QNetworkAuthenticationCredential *cred = fetchCachedCredentials(url, authenticator); if (cred) { authenticator->setUser(cred->user); authenticator->setPassword(cred->password); backend->reply->urlForLastAuthentication = url; return; } } backend->reply->urlForLastAuthentication = url; emit q->authenticationRequired(backend->reply->q_func(), authenticator); addCredentials(url, authenticator); } #ifndef QT_NO_NETWORKPROXY void QNetworkAccessManagerPrivate::proxyAuthenticationRequired(QNetworkAccessBackend *backend, const QNetworkProxy &proxy, QAuthenticator *authenticator) { Q_Q(QNetworkAccessManager); if (proxy != backend->reply->lastProxyAuthentication) { QNetworkAuthenticationCredential *cred = fetchCachedCredentials(proxy); if (cred) { authenticator->setUser(cred->user); authenticator->setPassword(cred->password); return; } } backend->reply->lastProxyAuthentication = proxy; emit q->proxyAuthenticationRequired(proxy, authenticator); addCredentials(proxy, authenticator); } void QNetworkAccessManagerPrivate::addCredentials(const QNetworkProxy &p, const QAuthenticator *authenticator) { Q_ASSERT(authenticator); Q_ASSERT(p.type() != QNetworkProxy::DefaultProxy); Q_ASSERT(p.type() != QNetworkProxy::NoProxy); QString realm = authenticator->realm(); QNetworkProxy proxy = p; proxy.setUser(authenticator->user()); // Set two credentials: one with the username and one without do { // Set two credentials actually: one with and one without the realm do { QByteArray cacheKey = proxyAuthenticationKey(proxy, realm); if (cacheKey.isEmpty()) return; // should not happen QNetworkAuthenticationCache *auth = new QNetworkAuthenticationCache; auth->insert(QString(), authenticator->user(), authenticator->password()); cache.addEntry(cacheKey, auth); // replace the existing one, if there's any if (realm.isEmpty()) { break; } else { realm.clear(); } } while (true); if (proxy.user().isEmpty()) break; else proxy.setUser(QString()); } while (true); } QNetworkAuthenticationCredential * QNetworkAccessManagerPrivate::fetchCachedCredentials(const QNetworkProxy &p, const QAuthenticator *authenticator) { QNetworkProxy proxy = p; if (proxy.type() == QNetworkProxy::DefaultProxy) { proxy = QNetworkProxy::applicationProxy(); } if (!proxy.password().isEmpty()) return 0; // no need to set credentials if it already has them QString realm; if (authenticator) realm = authenticator->realm(); QByteArray cacheKey = proxyAuthenticationKey(proxy, realm); if (cacheKey.isEmpty()) return 0; if (!cache.hasEntry(cacheKey)) return 0; QNetworkAuthenticationCache *auth = static_cast(cache.requestEntryNow(cacheKey)); QNetworkAuthenticationCredential *cred = auth->findClosestMatch(QString()); cache.releaseEntry(cacheKey); // proxy cache credentials always have exactly one item Q_ASSERT_X(cred, "QNetworkAccessManager", "Internal inconsistency: found a cache key for a proxy, but it's empty"); return cred; } QList QNetworkAccessManagerPrivate::queryProxy(const QNetworkProxyQuery &query) { QList proxies; if (proxyFactory) { proxies = proxyFactory->queryProxy(query); if (proxies.isEmpty()) { qWarning("QNetworkAccessManager: factory %p has returned an empty result set", proxyFactory); proxies << QNetworkProxy::NoProxy; } } else if (proxy.type() == QNetworkProxy::DefaultProxy) { // no proxy set, query the application return QNetworkProxyFactory::proxyForQuery(query); } else { proxies << proxy; } return proxies; } #endif void QNetworkAccessManagerPrivate::addCredentials(const QUrl &url, const QAuthenticator *authenticator) { Q_ASSERT(authenticator); QString domain = QString::fromLatin1("/"); // FIXME: make QAuthenticator return the domain QString realm = authenticator->realm(); // Set two credentials actually: one with and one without the username in the URL QUrl copy = url; copy.setUserName(authenticator->user()); do { QByteArray cacheKey = authenticationKey(copy, realm); if (cache.hasEntry(cacheKey)) { QNetworkAuthenticationCache *auth = static_cast(cache.requestEntryNow(cacheKey)); auth->insert(domain, authenticator->user(), authenticator->password()); cache.releaseEntry(cacheKey); } else { QNetworkAuthenticationCache *auth = new QNetworkAuthenticationCache; auth->insert(domain, authenticator->user(), authenticator->password()); cache.addEntry(cacheKey, auth); } if (copy.userName().isEmpty()) { break; } else { copy.setUserName(QString()); } } while (true); } /*! Fetch the credential data from the credential cache. If auth is 0 (as it is when called from createRequest()), this will try to look up with an empty realm. That fails in most cases for HTTP (because the realm is seldom empty for HTTP challenges). In any case, QHttpNetworkConnection never sends the credentials on the first attempt: it needs to find out what authentication methods the server supports. For FTP, realm is always empty. */ QNetworkAuthenticationCredential * QNetworkAccessManagerPrivate::fetchCachedCredentials(const QUrl &url, const QAuthenticator *authentication) { if (!url.password().isEmpty()) return 0; // no need to set credentials if it already has them QString realm; if (authentication) realm = authentication->realm(); QByteArray cacheKey = authenticationKey(url, realm); if (!cache.hasEntry(cacheKey)) return 0; QNetworkAuthenticationCache *auth = static_cast(cache.requestEntryNow(cacheKey)); QNetworkAuthenticationCredential *cred = auth->findClosestMatch(url.path()); cache.releaseEntry(cacheKey); return cred; } void QNetworkAccessManagerPrivate::clearCache(QNetworkAccessManager *manager) { manager->d_func()->cache.clear(); } QT_END_NAMESPACE #include "moc_qnetworkaccessmanager.cpp"