/**************************************************************************** ** ** 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 test suite of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial Usage ** Licensees holding valid Qt Commercial licenses may use this file in ** accordance with the Qt Commercial License Agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and Nokia. ** ** 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. ** ** 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. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include "private/qhttpnetworkconnection_p.h" #include "private/qnoncontiguousbytedevice_p.h" #include #include "../network-settings.h" class tst_QHttpNetworkConnection: public QObject { Q_OBJECT public: tst_QHttpNetworkConnection(); public Q_SLOTS: void finishedReply(); void finishedWithError(QNetworkReply::NetworkError errorCode, const QString &detail); void challenge401(const QHttpNetworkRequest &request, QAuthenticator *authenticator, const QHttpNetworkConnection *connection); #ifndef QT_NO_OPENSSL void sslErrors(const QList &errors); #endif private: bool finishedCalled; bool finishedWithErrorCalled; QNetworkReply::NetworkError netErrorCode; private Q_SLOTS: void init(); void cleanup(); void initTestCase(); void cleanupTestCase(); void options_data(); void options(); void get_data(); void get(); void head_data(); void head(); void post_data(); void post(); void put_data(); void put(); void _delete_data(); void _delete(); void trace_data(); void trace(); void _connect_data(); void _connect(); #ifndef QT_NO_COMPRESS void compression_data(); void compression(); #endif #ifndef QT_NO_OPENSSL void ignoresslerror_data(); void ignoresslerror(); #endif #ifdef QT_NO_OPENSSL void nossl_data(); void nossl(); #endif void get401_data(); void get401(); void getMultiple_data(); void getMultiple(); void getMultipleWithPipeliningAndMultiplePriorities(); void getMultipleWithPriorities(); void getEmptyWithPipelining(); void getAndThenDeleteObject(); void getAndThenDeleteObject_data(); }; tst_QHttpNetworkConnection::tst_QHttpNetworkConnection() { Q_SET_DEFAULT_IAP } void tst_QHttpNetworkConnection::initTestCase() { } void tst_QHttpNetworkConnection::cleanupTestCase() { } void tst_QHttpNetworkConnection::init() { } void tst_QHttpNetworkConnection::cleanup() { } void tst_QHttpNetworkConnection::options_data() { // not tested yet } void tst_QHttpNetworkConnection::options() { QEXPECT_FAIL("", "not tested yet", Continue); QVERIFY(false); } void tst_QHttpNetworkConnection::head_data() { QTest::addColumn("protocol"); QTest::addColumn("host"); QTest::addColumn("path"); QTest::addColumn("port"); QTest::addColumn("encrypt"); QTest::addColumn("statusCode"); QTest::addColumn("statusString"); QTest::addColumn("contentLength"); QTest::newRow("success-internal") << "http://" << QtNetworkSettings::serverName() << "/qtest/rfc3252.txt" << ushort(80) << false << 200 << "OK" << 25962; QTest::newRow("success-external") << "http://" << "www.ietf.org" << "/rfc/rfc3252.txt" << ushort(80) << false << 200 << "OK" << 25962; QTest::newRow("failure-path") << "http://" << QtNetworkSettings::serverName() << "/t" << ushort(80) << false << 404 << "Not Found" << -1; QTest::newRow("failure-protocol") << "" << QtNetworkSettings::serverName() << "/qtest/rfc3252.txt" << ushort(80) << false << 400 << "Bad Request" << -1; } void tst_QHttpNetworkConnection::head() { QFETCH(QString, protocol); QFETCH(QString, host); QFETCH(QString, path); QFETCH(ushort, port); QFETCH(bool, encrypt); QFETCH(int, statusCode); QFETCH(QString, statusString); QFETCH(int, contentLength); QHttpNetworkConnection connection(host); QCOMPARE(connection.port(), port); QCOMPARE(connection.hostName(), host); if (encrypt) connection.enableEncryption(); QCOMPARE(connection.isEncrypted(), encrypt); QHttpNetworkRequest request(protocol + host + path, QHttpNetworkRequest::Head); QHttpNetworkReply *reply = connection.sendRequest(request); QTime stopWatch; stopWatch.start(); do { QCoreApplication::instance()->processEvents(); if (stopWatch.elapsed() >= 30000) break; } while (!reply->isFinished()); QCOMPARE(reply->statusCode(), statusCode); QCOMPARE(reply->reasonPhrase(), statusString); // only check it if it is set if (reply->contentLength() != -1) QCOMPARE(reply->contentLength(), qint64(contentLength)); QVERIFY(reply->isFinished()); delete reply; } void tst_QHttpNetworkConnection::get_data() { QTest::addColumn("protocol"); QTest::addColumn("host"); QTest::addColumn("path"); QTest::addColumn("port"); QTest::addColumn("encrypt"); QTest::addColumn("statusCode"); QTest::addColumn("statusString"); QTest::addColumn("contentLength"); QTest::addColumn("downloadSize"); QTest::newRow("success-internal") << "http://" << QtNetworkSettings::serverName() << "/qtest/rfc3252.txt" << ushort(80) << false << 200 << "OK" << 25962 << 25962; QTest::newRow("success-external") << "http://" << "www.ietf.org" << "/rfc/rfc3252.txt" << ushort(80) << false << 200 << "OK" << 25962 << 25962; QTest::newRow("failure-path") << "http://" << QtNetworkSettings::serverName() << "/t" << ushort(80) << false << 404 << "Not Found" << -1 << 997 + QtNetworkSettings::serverName().size(); QTest::newRow("failure-protocol") << "" << QtNetworkSettings::serverName() << "/qtest/rfc3252.txt" << ushort(80) << false << 400 << "Bad Request" << -1 << 930 + QtNetworkSettings::serverName().size(); } void tst_QHttpNetworkConnection::get() { QFETCH(QString, protocol); QFETCH(QString, host); QFETCH(QString, path); QFETCH(ushort, port); QFETCH(bool, encrypt); QFETCH(int, statusCode); QFETCH(QString, statusString); QFETCH(int, contentLength); QFETCH(int, downloadSize); QHttpNetworkConnection connection(host); QCOMPARE(connection.port(), port); QCOMPARE(connection.hostName(), host); if (encrypt) connection.enableEncryption(); QCOMPARE(connection.isEncrypted(), encrypt); QHttpNetworkRequest request(protocol + host + path); QHttpNetworkReply *reply = connection.sendRequest(request); QTime stopWatch; stopWatch.start(); forever { QCoreApplication::instance()->processEvents(); if (reply->bytesAvailable()) break; if (stopWatch.elapsed() >= 30000) break; } QCOMPARE(reply->statusCode(), statusCode); QCOMPARE(reply->reasonPhrase(), statusString); // only check it if it is set if (reply->contentLength() != -1) QCOMPARE(reply->contentLength(), qint64(contentLength)); stopWatch.start(); QByteArray ba; do { QCoreApplication::instance()->processEvents(); while (reply->bytesAvailable()) ba += reply->readAny(); if (stopWatch.elapsed() >= 30000) break; } while (!reply->isFinished()); QVERIFY(reply->isFinished()); QCOMPARE(ba.size(), downloadSize); delete reply; } void tst_QHttpNetworkConnection::finishedReply() { finishedCalled = true; } void tst_QHttpNetworkConnection::finishedWithError(QNetworkReply::NetworkError errorCode, const QString &detail) { Q_UNUSED(detail) finishedWithErrorCalled = true; netErrorCode = errorCode; } void tst_QHttpNetworkConnection::put_data() { QTest::addColumn("protocol"); QTest::addColumn("host"); QTest::addColumn("path"); QTest::addColumn("port"); QTest::addColumn("encrypt"); QTest::addColumn("data"); QTest::addColumn("succeed"); QTest::newRow("success-internal") << "http://" << QtNetworkSettings::serverName() << "/dav/file1.txt" << ushort(80) << false << "Hello World\nEnd of file\n"<setParent(this); request.setUploadByteDevice(bd); finishedCalled = false; finishedWithErrorCalled = false; QHttpNetworkReply *reply = connection.sendRequest(request); connect(reply, SIGNAL(finished()), SLOT(finishedReply())); connect(reply, SIGNAL(finishedWithError(QNetworkReply::NetworkError, const QString &)), SLOT(finishedWithError(QNetworkReply::NetworkError, const QString &))); connect(&connection, SIGNAL(error(QNetworkReply::NetworkError, const QString &)), SLOT(finishedWithError(QNetworkReply::NetworkError, const QString &))); QTime stopWatch; stopWatch.start(); do { QCoreApplication::instance()->processEvents(); if (stopWatch.elapsed() >= 30000) break; } while (!reply->isFinished() && !finishedCalled && !finishedWithErrorCalled); if (reply->isFinished()) { QByteArray ba; while (reply->bytesAvailable()) ba += reply->readAny(); } else if(finishedWithErrorCalled) { if(!succeed) { delete reply; return; } else { QFAIL("Error in PUT"); } } else { QFAIL("PUT timed out"); } int status = reply->statusCode(); if (status != 200 && status != 201 && status != 204) { if (succeed) { qDebug()<<"PUT failed, Status Code:" <("protocol"); QTest::addColumn("host"); QTest::addColumn("path"); QTest::addColumn("port"); QTest::addColumn("encrypt"); QTest::addColumn("data"); QTest::addColumn("statusCode"); QTest::addColumn("statusString"); QTest::addColumn("contentLength"); QTest::addColumn("downloadSize"); QTest::newRow("success-internal") << "http://" << QtNetworkSettings::serverName() << "/qtest/cgi-bin/echo.cgi" << ushort(80) << false << "7 bytes" << 200 << "OK" << 7 << 7; QTest::newRow("failure-internal") << "http://" << QtNetworkSettings::serverName() << "/t" << ushort(80) << false << "Hello World" << 404 << "Not Found" << -1 << 997 + QtNetworkSettings::serverName().size(); } void tst_QHttpNetworkConnection::post() { QFETCH(QString, protocol); QFETCH(QString, host); QFETCH(QString, path); QFETCH(ushort, port); QFETCH(bool, encrypt); QFETCH(QString, data); QFETCH(int, statusCode); QFETCH(QString, statusString); QFETCH(int, contentLength); QFETCH(int, downloadSize); QHttpNetworkConnection connection(host); QCOMPARE(connection.port(), port); QCOMPARE(connection.hostName(), host); if (encrypt) connection.enableEncryption(); QCOMPARE(connection.isEncrypted(), encrypt); QHttpNetworkRequest request(protocol + host + path, QHttpNetworkRequest::Post); QByteArray array = data.toLatin1(); QNonContiguousByteDevice *bd = QNonContiguousByteDeviceFactory::create(&array); bd->setParent(this); request.setUploadByteDevice(bd); QHttpNetworkReply *reply = connection.sendRequest(request); QTime stopWatch; stopWatch.start(); forever { QCoreApplication::instance()->processEvents(); if (reply->bytesAvailable()) break; if (stopWatch.elapsed() >= 30000) break; } QCOMPARE(reply->statusCode(), statusCode); QCOMPARE(reply->reasonPhrase(), statusString); qint64 cLen = reply->contentLength(); if (cLen==-1) { // HTTP 1.1 server may respond with chunked encoding and in that // case contentLength is not present in reply -> verify that it is the case QByteArray transferEnc = reply->headerField("Transfer-Encoding"); QCOMPARE(transferEnc, QByteArray("chunked")); } else { QCOMPARE(cLen, qint64(contentLength)); } stopWatch.start(); QByteArray ba; do { QCoreApplication::instance()->processEvents(); while (reply->bytesAvailable()) ba += reply->readAny(); if (stopWatch.elapsed() >= 30000) break; } while (!reply->isFinished()); QVERIFY(reply->isFinished()); QCOMPARE(ba.size(), downloadSize); delete reply; } void tst_QHttpNetworkConnection::_delete_data() { // not tested yet } void tst_QHttpNetworkConnection::_delete() { QEXPECT_FAIL("", "not tested yet", Continue); QVERIFY(false); } void tst_QHttpNetworkConnection::trace_data() { // not tested yet } void tst_QHttpNetworkConnection::trace() { QEXPECT_FAIL("", "not tested yet", Continue); QVERIFY(false); } void tst_QHttpNetworkConnection::_connect_data() { // not tested yet } void tst_QHttpNetworkConnection::_connect() { QEXPECT_FAIL("", "not tested yet", Continue); QVERIFY(false); } void tst_QHttpNetworkConnection::challenge401(const QHttpNetworkRequest &request, QAuthenticator *authenticator, const QHttpNetworkConnection *connection) { Q_UNUSED(request) Q_UNUSED(connection) QHttpNetworkConnection *c = qobject_cast(sender()); if (connection) { QVariant val = c->property("setCredentials"); if (val.toBool()) { QVariant user = c->property("username"); QVariant password = c->property("password"); authenticator->setUser(user.toString()); authenticator->setPassword(password.toString()); c->setProperty("setCredentials", false); } } } void tst_QHttpNetworkConnection::get401_data() { QTest::addColumn("protocol"); QTest::addColumn("host"); QTest::addColumn("path"); QTest::addColumn("port"); QTest::addColumn("encrypt"); QTest::addColumn("setCredentials"); QTest::addColumn("username"); QTest::addColumn("password"); QTest::addColumn("statusCode"); QTest::newRow("no-credentials") << "http://" << QtNetworkSettings::serverName() << "/qtest/rfcs-auth/index.html" << ushort(80) << false << false << "" << ""<<401; QTest::newRow("invalid-credentials") << "http://" << QtNetworkSettings::serverName() << "/qtest/rfcs-auth/index.html" << ushort(80) << false << true << "test" << "test"<<401; QTest::newRow("valid-credentials") << "http://" << QtNetworkSettings::serverName() << "/qtest/rfcs-auth/index.html" << ushort(80) << false << true << "httptest" << "httptest"<<200; QTest::newRow("digest-authentication-invalid") << "http://" << QtNetworkSettings::serverName() << "/qtest/auth-digest/index.html" << ushort(80) << false << true << "wrong" << "wrong"<<401; QTest::newRow("digest-authentication-valid") << "http://" << QtNetworkSettings::serverName() << "/qtest/auth-digest/index.html" << ushort(80) << false << true << "httptest" << "httptest"<<200; } void tst_QHttpNetworkConnection::get401() { QFETCH(QString, protocol); QFETCH(QString, host); QFETCH(QString, path); QFETCH(ushort, port); QFETCH(bool, encrypt); QFETCH(bool, setCredentials); QFETCH(QString, username); QFETCH(QString, password); QFETCH(int, statusCode); QHttpNetworkConnection connection(host, port, encrypt); QCOMPARE(connection.port(), port); QCOMPARE(connection.hostName(), host); if (encrypt) connection.enableEncryption(); QCOMPARE(connection.isEncrypted(), encrypt); connect(&connection, SIGNAL(authenticationRequired(const QHttpNetworkRequest&, QAuthenticator *, const QHttpNetworkConnection*)), SLOT(challenge401(const QHttpNetworkRequest&, QAuthenticator *, const QHttpNetworkConnection*))); connection.setProperty("setCredentials", setCredentials); connection.setProperty("username", username); connection.setProperty("password", password); QHttpNetworkRequest request(protocol + host + path); QHttpNetworkReply *reply = connection.sendRequest(request); finishedCalled = false; finishedWithErrorCalled = false; connect(reply, SIGNAL(finished()), SLOT(finishedReply())); connect(reply, SIGNAL(finishedWithError(QNetworkReply::NetworkError, const QString &)), SLOT(finishedWithError(QNetworkReply::NetworkError, const QString &))); QTime stopWatch; stopWatch.start(); forever { QCoreApplication::instance()->processEvents(); if (finishedCalled) break; if (finishedWithErrorCalled) break; if (stopWatch.elapsed() >= 30000) break; } QCOMPARE(reply->statusCode(), statusCode); delete reply; } #ifndef QT_NO_COMPRESS void tst_QHttpNetworkConnection::compression_data() { QTest::addColumn("protocol"); QTest::addColumn("host"); QTest::addColumn("path"); QTest::addColumn("port"); QTest::addColumn("encrypt"); QTest::addColumn("statusCode"); QTest::addColumn("statusString"); QTest::addColumn("contentLength"); QTest::addColumn("downloadSize"); QTest::addColumn("autoCompress"); QTest::addColumn("contentCoding"); QTest::newRow("success-autogzip-temp") << "http://" << QtNetworkSettings::serverName() << "/qtest/rfcs/rfc2616.html" << ushort(80) << false << 200 << "OK" << -1 << 418321 << true << ""; QTest::newRow("success-nogzip-temp") << "http://" << QtNetworkSettings::serverName() << "/qtest/rfcs/rfc2616.html" << ushort(80) << false << 200 << "OK" << 418321 << 418321 << false << "identity"; QTest::newRow("success-manualgzip-temp") << "http://" << QtNetworkSettings::serverName() << "/qtest/deflate/rfc2616.html" << ushort(80) << false << 200 << "OK" << 119124 << 119124 << false << "gzip"; } void tst_QHttpNetworkConnection::compression() { QFETCH(QString, protocol); QFETCH(QString, host); QFETCH(QString, path); QFETCH(ushort, port); QFETCH(bool, encrypt); QFETCH(int, statusCode); QFETCH(QString, statusString); QFETCH(int, contentLength); QFETCH(int, downloadSize); QFETCH(bool, autoCompress); QFETCH(QString, contentCoding); QHttpNetworkConnection connection(host); QCOMPARE(connection.port(), port); QCOMPARE(connection.hostName(), host); if (encrypt) connection.enableEncryption(); QCOMPARE(connection.isEncrypted(), encrypt); QHttpNetworkRequest request(protocol + host + path); if (!autoCompress) request.setHeaderField("Accept-Encoding", contentCoding.toLatin1()); QHttpNetworkReply *reply = connection.sendRequest(request); QTime stopWatch; stopWatch.start(); forever { QCoreApplication::instance()->processEvents(); if (reply->bytesAvailable()) break; if (stopWatch.elapsed() >= 30000) break; } QCOMPARE(reply->statusCode(), statusCode); QCOMPARE(reply->reasonPhrase(), statusString); bool isLengthOk = (reply->contentLength() == qint64(contentLength) || reply->contentLength() == qint64(downloadSize)); QVERIFY(isLengthOk); stopWatch.start(); QByteArray ba; do { QCoreApplication::instance()->processEvents(); while (reply->bytesAvailable()) ba += reply->readAny(); if (stopWatch.elapsed() >= 30000) break; } while (!reply->isFinished()); QVERIFY(reply->isFinished()); QCOMPARE(ba.size(), downloadSize); delete reply; } #endif #ifndef QT_NO_OPENSSL void tst_QHttpNetworkConnection::sslErrors(const QList &errors) { Q_UNUSED(errors) QHttpNetworkConnection *connection = qobject_cast(sender()); if (connection) { QVariant val = connection->property("ignoreFromSignal"); if (val.toBool()) connection->ignoreSslErrors(); finishedWithErrorCalled = true; } } void tst_QHttpNetworkConnection::ignoresslerror_data() { QTest::addColumn("protocol"); QTest::addColumn("host"); QTest::addColumn("path"); QTest::addColumn("port"); QTest::addColumn("encrypt"); QTest::addColumn("ignoreInit"); QTest::addColumn("ignoreFromSignal"); QTest::addColumn("statusCode"); // This test will work only if the website has ssl errors. // fluke's certificate is signed by a non-standard authority. // Since we don't introduce that CA into the SSL verification chain, // connecting should fail. QTest::newRow("success-init") << "https://" << QtNetworkSettings::serverName() << "/" << ushort(443) << true << true << false << 200; QTest::newRow("success-fromSignal") << "https://" << QtNetworkSettings::serverName() << "/" << ushort(443) << true << false << true << 200; QTest::newRow("failure") << "https://" << QtNetworkSettings::serverName() << "/" << ushort(443) << true << false << false << 100; } void tst_QHttpNetworkConnection::ignoresslerror() { QFETCH(QString, protocol); QFETCH(QString, host); QFETCH(QString, path); QFETCH(ushort, port); QFETCH(bool, encrypt); QFETCH(bool, ignoreInit); QFETCH(bool, ignoreFromSignal); QFETCH(int, statusCode); QHttpNetworkConnection connection(host, port, encrypt); QCOMPARE(connection.port(), port); QCOMPARE(connection.hostName(), host); if (encrypt) connection.enableEncryption(); if (ignoreInit) connection.ignoreSslErrors(); QCOMPARE(connection.isEncrypted(), encrypt); connect(&connection, SIGNAL(sslErrors(const QList&)), SLOT(sslErrors(const QList&))); connection.setProperty("ignoreFromSignal", ignoreFromSignal); QHttpNetworkRequest request(protocol + host + path); QHttpNetworkReply *reply = connection.sendRequest(request); finishedWithErrorCalled = false; connect(reply, SIGNAL(finished()), SLOT(finishedReply())); QTime stopWatch; stopWatch.start(); forever { QCoreApplication::instance()->processEvents(); if (reply->bytesAvailable()) break; if (statusCode == 100 && finishedWithErrorCalled) break; if (stopWatch.elapsed() >= 30000) break; } QCOMPARE(reply->statusCode(), statusCode); delete reply; } #endif #ifdef QT_NO_OPENSSL Q_DECLARE_METATYPE(QNetworkReply::NetworkError) void tst_QHttpNetworkConnection::nossl_data() { QTest::addColumn("protocol"); QTest::addColumn("host"); QTest::addColumn("path"); QTest::addColumn("port"); QTest::addColumn("encrypt"); QTest::addColumn("networkError"); QTest::newRow("protocol-error") << "https://" << QtNetworkSettings::serverName() << "/" << ushort(443) << true <processEvents(); if (finishedWithErrorCalled) break; if (stopWatch.elapsed() >= 30000) break; } QCOMPARE(netErrorCode, networkError); delete reply; } #endif void tst_QHttpNetworkConnection::getMultiple_data() { QTest::addColumn("connectionCount"); QTest::addColumn("pipeliningAllowed"); // send 100 requests. apache will usually force-close after 100 requests in a single tcp connection QTest::addColumn("requestCount"); QTest::newRow("6 connections, no pipelining, 100 requests") << quint16(6) << false << 100; QTest::newRow("1 connection, no pipelining, 100 requests") << quint16(1) << false << 100; QTest::newRow("6 connections, pipelining allowed, 100 requests") << quint16(6) << true << 100; QTest::newRow("1 connection, pipelining allowed, 100 requests") << quint16(1) << true << 100; } void tst_QHttpNetworkConnection::getMultiple() { QFETCH(quint16, connectionCount); QFETCH(bool, pipeliningAllowed); QFETCH(int, requestCount); QHttpNetworkConnection connection(connectionCount, QtNetworkSettings::serverName()); QList requests; QList replies; for (int i = 0; i < requestCount; i++) { // depending on what you use the results will vary. // for the "real" results, use a URL that has "internet latency" for you. Then (6 connections, pipelining) will win. // for LAN latency, you will possibly get that (1 connection, no pipelining) is the fastest QHttpNetworkRequest *request = new QHttpNetworkRequest("http://" + QtNetworkSettings::serverName() + "/qtest/rfc3252.txt"); // located in Berlin: //QHttpNetworkRequest *request = new QHttpNetworkRequest(QUrl("http://klinsmann.nokia.trolltech.de/~berlin/qtcreatorad.gif")); if (pipeliningAllowed) request->setPipeliningAllowed(true); requests.append(request); QHttpNetworkReply *reply = connection.sendRequest(*request); replies.append(reply); } QTime stopWatch; stopWatch.start(); int finishedCount = 0; do { QCoreApplication::instance()->processEvents(); if (stopWatch.elapsed() >= 60000) break; finishedCount = 0; for (int i = 0; i < replies.length(); i++) if (replies.at(i)->isFinished()) finishedCount++; } while (finishedCount != replies.length()); // redundant for (int i = 0; i < replies.length(); i++) QVERIFY(replies.at(i)->isFinished()); qDebug() << "===" << stopWatch.elapsed() << "msec ==="; qDeleteAll(requests); qDeleteAll(replies); } void tst_QHttpNetworkConnection::getMultipleWithPipeliningAndMultiplePriorities() { quint16 requestCount = 100; // use 2 connections. QHttpNetworkConnection connection(2, QtNetworkSettings::serverName()); QList requests; QList replies; for (int i = 0; i < requestCount; i++) { QHttpNetworkRequest *request = 0; if (i % 3) request = new QHttpNetworkRequest("http://" + QtNetworkSettings::serverName() + "/qtest/rfc3252.txt", QHttpNetworkRequest::Get); else request = new QHttpNetworkRequest("http://" + QtNetworkSettings::serverName() + "/qtest/rfc3252.txt", QHttpNetworkRequest::Head); if (i % 2 || i % 3) request->setPipeliningAllowed(true); if (i % 3) request->setPriority(QHttpNetworkRequest::HighPriority); else if (i % 5) request->setPriority(QHttpNetworkRequest::NormalPriority); else if (i % 7) request->setPriority(QHttpNetworkRequest::LowPriority); requests.append(request); QHttpNetworkReply *reply = connection.sendRequest(*request); replies.append(reply); } QTime stopWatch; stopWatch.start(); int finishedCount = 0; do { QCoreApplication::instance()->processEvents(); if (stopWatch.elapsed() >= 60000) break; finishedCount = 0; for (int i = 0; i < replies.length(); i++) if (replies.at(i)->isFinished()) finishedCount++; } while (finishedCount != replies.length()); int pipelinedCount = 0; for (int i = 0; i < replies.length(); i++) { QVERIFY(replies.at(i)->isFinished()); QVERIFY (!(replies.at(i)->request().isPipeliningAllowed() == false && replies.at(i)->isPipeliningUsed())); if (replies.at(i)->isPipeliningUsed()) pipelinedCount++; } // We allow pipelining for every 2nd,3rd,4th,6th,8th,9th,10th etc request. // Assume that half of the requests had been pipelined. // (this is a very relaxed condition, when last measured 79 of 100 // requests had been pipelined) QVERIFY(pipelinedCount >= requestCount / 2); qDebug() << "===" << stopWatch.elapsed() << "msec ==="; qDeleteAll(requests); qDeleteAll(replies); } class GetMultipleWithPrioritiesReceiver : public QObject { Q_OBJECT public: int highPrioReceived; int lowPrioReceived; int requestCount; GetMultipleWithPrioritiesReceiver(int rq) : highPrioReceived(0), lowPrioReceived(0), requestCount(rq) { } public Q_SLOTS: void finishedSlot() { QHttpNetworkReply *reply = (QHttpNetworkReply*) sender(); if (reply->request().priority() == QHttpNetworkRequest::HighPriority) highPrioReceived++; else if (reply->request().priority() == QHttpNetworkRequest::LowPriority) lowPrioReceived++; else QFAIL("Wrong priority!?"); QVERIFY(highPrioReceived + 7 >= lowPrioReceived); if (highPrioReceived + lowPrioReceived == requestCount) QTestEventLoop::instance().exitLoop(); } }; void tst_QHttpNetworkConnection::getMultipleWithPriorities() { quint16 requestCount = 100; // use 2 connections. QHttpNetworkConnection connection(2, QtNetworkSettings::serverName()); GetMultipleWithPrioritiesReceiver receiver(requestCount); QUrl url("http://" + QtNetworkSettings::serverName() + "/qtest/rfc3252.txt"); QList requests; QList replies; for (int i = 0; i < requestCount; i++) { QHttpNetworkRequest *request = 0; if (i % 3) request = new QHttpNetworkRequest(url, QHttpNetworkRequest::Get); else request = new QHttpNetworkRequest(url, QHttpNetworkRequest::Head); if (i % 2) request->setPriority(QHttpNetworkRequest::HighPriority); else request->setPriority(QHttpNetworkRequest::LowPriority); requests.append(request); QHttpNetworkReply *reply = connection.sendRequest(*request); connect(reply, SIGNAL(finished()), &receiver, SLOT(finishedSlot())); replies.append(reply); } QTestEventLoop::instance().enterLoop(40); QVERIFY(!QTestEventLoop::instance().timeout()); qDeleteAll(requests); qDeleteAll(replies); } class GetEmptyWithPipeliningReceiver : public QObject { Q_OBJECT public: int receivedCount; int requestCount; GetEmptyWithPipeliningReceiver(int rq) : receivedCount(0),requestCount(rq) { } public Q_SLOTS: void finishedSlot() { QHttpNetworkReply *reply = (QHttpNetworkReply*) sender(); receivedCount++; if (receivedCount == requestCount) QTestEventLoop::instance().exitLoop(); } }; void tst_QHttpNetworkConnection::getEmptyWithPipelining() { quint16 requestCount = 50; // use 2 connections. QHttpNetworkConnection connection(2, QtNetworkSettings::serverName()); GetEmptyWithPipeliningReceiver receiver(requestCount); QUrl url("http://" + QtNetworkSettings::serverName() + "/cgi-bin/echo.cgi"); // a get on this = getting an empty file QList requests; QList replies; for (int i = 0; i < requestCount; i++) { QHttpNetworkRequest *request = 0; request = new QHttpNetworkRequest(url, QHttpNetworkRequest::Get); request->setPipeliningAllowed(true); requests.append(request); QHttpNetworkReply *reply = connection.sendRequest(*request); connect(reply, SIGNAL(finished()), &receiver, SLOT(finishedSlot())); replies.append(reply); } QTestEventLoop::instance().enterLoop(20); QVERIFY(!QTestEventLoop::instance().timeout()); qDeleteAll(requests); qDeleteAll(replies); } void tst_QHttpNetworkConnection::getAndThenDeleteObject_data() { QTest::addColumn("replyFirst"); QTest::newRow("delete-reply-first") << true; QTest::newRow("delete-connection-first") << false; } void tst_QHttpNetworkConnection::getAndThenDeleteObject() { // yes, this will leak if the testcase fails. I don't care. It must not fail then :P QHttpNetworkConnection *connection = new QHttpNetworkConnection(QtNetworkSettings::serverName()); QHttpNetworkRequest request("http://" + QtNetworkSettings::serverName() + "/qtest/bigfile"); QHttpNetworkReply *reply = connection->sendRequest(request); reply->setDownstreamLimited(true); QTime stopWatch; stopWatch.start(); forever { QCoreApplication::instance()->processEvents(); if (reply->bytesAvailable()) break; if (stopWatch.elapsed() >= 30000) break; } QVERIFY(reply->bytesAvailable()); QCOMPARE(reply->statusCode() ,200); QVERIFY(!reply->isFinished()); // must not be finished QFETCH(bool, replyFirst); if (replyFirst) { delete reply; delete connection; } else { delete connection; delete reply; } } QTEST_MAIN(tst_QHttpNetworkConnection) #include "tst_qhttpnetworkconnection.moc"