// // TCPServerTest.cpp // // Copyright (c) 2006, Applied Informatics Software Engineering GmbH. // and Contributors. // // SPDX-License-Identifier: BSL-1.0 // #include "TCPServerTest.h" #include "CppUnit/TestCaller.h" #include "CppUnit/TestSuite.h" #include "Poco/Net/TCPServer.h" #include "Poco/Net/TCPServerConnection.h" #include "Poco/Net/TCPServerConnectionFactory.h" #include "Poco/Net/TCPServerParams.h" #include "Poco/Net/SecureStreamSocket.h" #include "Poco/Net/SecureServerSocket.h" #include "Poco/Net/Context.h" #include "Poco/Net/Session.h" #include "Poco/Net/SSLManager.h" #include "Poco/Util/Application.h" #include "Poco/Util/AbstractConfiguration.h" #include "Poco/Thread.h" #include using Poco::Net::TCPServer; using Poco::Net::TCPServerConnection; using Poco::Net::TCPServerConnectionFactory; using Poco::Net::TCPServerConnectionFactoryImpl; using Poco::Net::TCPServerParams; using Poco::Net::StreamSocket; using Poco::Net::SecureStreamSocket; using Poco::Net::SecureServerSocket; using Poco::Net::SocketAddress; using Poco::Net::Context; using Poco::Net::Session; using Poco::Net::SSLManager; using Poco::Thread; using Poco::Util::Application; namespace { class EchoConnection: public TCPServerConnection { public: EchoConnection(const StreamSocket& s): TCPServerConnection(s) { } void run() { StreamSocket& ss = socket(); try { char buffer[256]; int n = ss.receiveBytes(buffer, sizeof(buffer)); while (n > 0) { ss.sendBytes(buffer, n); n = ss.receiveBytes(buffer, sizeof(buffer)); } } catch (Poco::Exception& exc) { std::cerr << "EchoConnection: " << exc.displayText() << std::endl; } } }; } TCPServerTest::TCPServerTest(const std::string& name): CppUnit::TestCase(name) { } TCPServerTest::~TCPServerTest() { } void TCPServerTest::testOneConnection() { SecureServerSocket svs(0); TCPServer srv(new TCPServerConnectionFactoryImpl(), svs); srv.start(); assertTrue (srv.currentConnections() == 0); assertTrue (srv.currentThreads() == 0); assertTrue (srv.queuedConnections() == 0); assertTrue (srv.totalConnections() == 0); SocketAddress sa("127.0.0.1", svs.address().port()); SecureStreamSocket ss1(sa); std::string data("hello, world"); ss1.sendBytes(data.data(), (int) data.size()); char buffer[256]; int n = ss1.receiveBytes(buffer, sizeof(buffer)); assertTrue (n > 0); assertTrue (std::string(buffer, n) == data); assertTrue (srv.currentConnections() == 1); assertTrue (srv.currentThreads() == 1); assertTrue (srv.queuedConnections() == 0); assertTrue (srv.totalConnections() == 1); ss1.close(); Thread::sleep(300); assertTrue (srv.currentConnections() == 0); } void TCPServerTest::testTwoConnections() { SecureServerSocket svs(0); TCPServer srv(new TCPServerConnectionFactoryImpl(), svs); srv.start(); assertTrue (srv.currentConnections() == 0); assertTrue (srv.currentThreads() == 0); assertTrue (srv.queuedConnections() == 0); assertTrue (srv.totalConnections() == 0); SocketAddress sa("127.0.0.1", svs.address().port()); SecureStreamSocket ss1(sa); SecureStreamSocket ss2(sa); std::string data("hello, world"); ss1.sendBytes(data.data(), (int) data.size()); ss2.sendBytes(data.data(), (int) data.size()); char buffer[256]; int n = ss1.receiveBytes(buffer, sizeof(buffer)); assertTrue (n > 0); assertTrue (std::string(buffer, n) == data); n = ss2.receiveBytes(buffer, sizeof(buffer)); assertTrue (n > 0); assertTrue (std::string(buffer, n) == data); assertTrue (srv.currentConnections() == 2); assertTrue (srv.currentThreads() == 2); assertTrue (srv.queuedConnections() == 0); assertTrue (srv.totalConnections() == 2); ss1.close(); Thread::sleep(300); assertTrue (srv.currentConnections() == 1); assertTrue (srv.currentThreads() == 1); assertTrue (srv.queuedConnections() == 0); assertTrue (srv.totalConnections() == 2); ss2.close(); Thread::sleep(300); assertTrue (srv.currentConnections() == 0); } void TCPServerTest::testMultiConnections() { SecureServerSocket svs(0); TCPServerParams* pParams = new TCPServerParams; pParams->setMaxThreads(4); pParams->setMaxQueued(4); pParams->setThreadIdleTime(100); TCPServer srv(new TCPServerConnectionFactoryImpl(), svs, pParams); srv.start(); assertTrue (srv.currentConnections() == 0); assertTrue (srv.currentThreads() == 0); assertTrue (srv.queuedConnections() == 0); assertTrue (srv.totalConnections() == 0); SocketAddress sa("127.0.0.1", svs.address().port()); SecureStreamSocket ss1(sa); SecureStreamSocket ss2(sa); SecureStreamSocket ss3(sa); SecureStreamSocket ss4(sa); std::string data("hello, world"); ss1.sendBytes(data.data(), (int) data.size()); ss2.sendBytes(data.data(), (int) data.size()); ss3.sendBytes(data.data(), (int) data.size()); ss4.sendBytes(data.data(), (int) data.size()); char buffer[256]; int n = ss1.receiveBytes(buffer, sizeof(buffer)); assertTrue (n > 0); assertTrue (std::string(buffer, n) == data); n = ss2.receiveBytes(buffer, sizeof(buffer)); assertTrue (n > 0); assertTrue (std::string(buffer, n) == data); n = ss3.receiveBytes(buffer, sizeof(buffer)); assertTrue (n > 0); assertTrue (std::string(buffer, n) == data); n = ss4.receiveBytes(buffer, sizeof(buffer)); assertTrue (n > 0); assertTrue (std::string(buffer, n) == data); assertTrue (srv.currentConnections() == 4); assertTrue (srv.currentThreads() == 4); assertTrue (srv.queuedConnections() == 0); assertTrue (srv.totalConnections() == 4); SecureStreamSocket ss5; ss5.setLazyHandshake(); ss5.connect(sa); Thread::sleep(200); assertTrue (srv.queuedConnections() == 1); SecureStreamSocket ss6; ss6.setLazyHandshake(); ss6.connect(sa); Thread::sleep(200); assertTrue (srv.queuedConnections() == 2); ss1.close(); Thread::sleep(300); assertTrue (srv.currentConnections() == 4); assertTrue (srv.currentThreads() == 4); assertTrue (srv.queuedConnections() == 1); assertTrue (srv.totalConnections() == 5); ss2.close(); Thread::sleep(300); assertTrue (srv.currentConnections() == 4); assertTrue (srv.currentThreads() == 4); assertTrue (srv.queuedConnections() == 0); assertTrue (srv.totalConnections() == 6); ss3.close(); Thread::sleep(300); assertTrue (srv.currentConnections() == 3); assertTrue (srv.currentThreads() == 3); assertTrue (srv.queuedConnections() == 0); assertTrue (srv.totalConnections() == 6); ss4.close(); Thread::sleep(300); assertTrue (srv.currentConnections() == 2); assertTrue (srv.currentThreads() == 2); assertTrue (srv.queuedConnections() == 0); assertTrue (srv.totalConnections() == 6); ss5.close(); ss6.close(); Thread::sleep(300); assertTrue (srv.currentConnections() == 0); } void TCPServerTest::testReuseSocket() { SecureServerSocket svs(0); TCPServer srv(new TCPServerConnectionFactoryImpl(), svs); srv.start(); assertTrue (srv.currentConnections() == 0); assertTrue (srv.currentThreads() == 0); assertTrue (srv.queuedConnections() == 0); assertTrue (srv.totalConnections() == 0); SocketAddress sa("127.0.0.1", svs.address().port()); SecureStreamSocket ss1(sa); std::string data("hello, world"); ss1.sendBytes(data.data(), (int) data.size()); char buffer[256]; int n = ss1.receiveBytes(buffer, sizeof(buffer)); assertTrue (n > 0); assertTrue (std::string(buffer, n) == data); assertTrue (srv.currentConnections() == 1); assertTrue (srv.currentThreads() == 1); assertTrue (srv.queuedConnections() == 0); assertTrue (srv.totalConnections() == 1); ss1.close(); Thread::sleep(300); assertTrue (srv.currentConnections() == 0); ss1.connect(sa); ss1.sendBytes(data.data(), (int) data.size()); n = ss1.receiveBytes(buffer, sizeof(buffer)); assertTrue (n > 0); assertTrue (std::string(buffer, n) == data); assertTrue (srv.currentConnections() == 1); assertTrue (srv.queuedConnections() == 0); assertTrue (srv.totalConnections() == 2); ss1.close(); Thread::sleep(300); assertTrue (srv.currentConnections() == 0); } void TCPServerTest::testReuseSession() { // ensure OpenSSL machinery is fully setup Context::Ptr pDefaultServerContext = SSLManager::instance().defaultServerContext(); Context::Ptr pDefaultClientContext = SSLManager::instance().defaultClientContext(); Context::Ptr pServerContext = new Context( Context::SERVER_USE, Application::instance().config().getString("openSSL.server.privateKeyFile"), Application::instance().config().getString("openSSL.server.privateKeyFile"), Application::instance().config().getString("openSSL.server.caConfig"), Context::VERIFY_NONE, 9, true, "ALL:!ADH:!LOW:!EXP:!MD5:@STRENGTH"); pServerContext->enableSessionCache(true, "TestSuite"); pServerContext->setSessionTimeout(10); pServerContext->setSessionCacheSize(1000); pServerContext->disableStatelessSessionResumption(); SecureServerSocket svs(0, 64, pServerContext); TCPServer srv(new TCPServerConnectionFactoryImpl(), svs); srv.start(); assertTrue (srv.currentConnections() == 0); assertTrue (srv.currentThreads() == 0); assertTrue (srv.queuedConnections() == 0); assertTrue (srv.totalConnections() == 0); Context::Ptr pClientContext = new Context( Context::CLIENT_USE, Application::instance().config().getString("openSSL.client.privateKeyFile"), Application::instance().config().getString("openSSL.client.privateKeyFile"), Application::instance().config().getString("openSSL.client.caConfig"), Context::VERIFY_RELAXED, 9, true, "ALL:!ADH:!LOW:!EXP:!MD5:@STRENGTH"); pClientContext->enableSessionCache(true); SocketAddress sa("127.0.0.1", svs.address().port()); SecureStreamSocket ss1(sa, pClientContext); assertTrue (!ss1.sessionWasReused()); std::string data("hello, world"); ss1.sendBytes(data.data(), (int) data.size()); char buffer[256]; int n = ss1.receiveBytes(buffer, sizeof(buffer)); assertTrue (n > 0); assertTrue (std::string(buffer, n) == data); assertTrue (srv.currentConnections() == 1); assertTrue (srv.currentThreads() == 1); assertTrue (srv.queuedConnections() == 0); assertTrue (srv.totalConnections() == 1); Session::Ptr pSession = ss1.currentSession(); ss1.close(); Thread::sleep(300); assertTrue (srv.currentConnections() == 0); ss1.useSession(pSession); ss1.connect(sa); assertTrue (ss1.sessionWasReused()); assertTrue (ss1.currentSession() == pSession); ss1.sendBytes(data.data(), (int) data.size()); n = ss1.receiveBytes(buffer, sizeof(buffer)); assertTrue (n > 0); assertTrue (std::string(buffer, n) == data); assertTrue (srv.currentConnections() == 1); assertTrue (srv.queuedConnections() == 0); assertTrue (srv.totalConnections() == 2); ss1.close(); Thread::sleep(300); assertTrue (srv.currentConnections() == 0); Thread::sleep(15000); // wait for session to expire pServerContext->flushSessionCache(); ss1.useSession(pSession); ss1.connect(sa); assertTrue (!ss1.sessionWasReused()); assertTrue (ss1.currentSession() != pSession); ss1.sendBytes(data.data(), (int) data.size()); n = ss1.receiveBytes(buffer, sizeof(buffer)); assertTrue (n > 0); assertTrue (std::string(buffer, n) == data); assertTrue (srv.currentConnections() == 1); assertTrue (srv.queuedConnections() == 0); assertTrue (srv.totalConnections() == 3); ss1.close(); Thread::sleep(300); assertTrue (srv.currentConnections() == 0); } void TCPServerTest::setUp() { } void TCPServerTest::tearDown() { } CppUnit::Test* TCPServerTest::suite() { CppUnit::TestSuite* pSuite = new CppUnit::TestSuite("TCPServerTest"); CppUnit_addTest(pSuite, TCPServerTest, testOneConnection); CppUnit_addTest(pSuite, TCPServerTest, testTwoConnections); CppUnit_addTest(pSuite, TCPServerTest, testMultiConnections); CppUnit_addTest(pSuite, TCPServerTest, testReuseSocket); CppUnit_addTest(pSuite, TCPServerTest, testReuseSession); return pSuite; }