Exemple #1
1
int
main(int argc, char* argv[])
{
#ifdef ICE_STATIC_LIBS
    Ice::registerIceSSL();
#endif
    try
    {
        Ice::InitializationData initData;
        initData.properties = Ice::createProperties(argc, argv);
        Ice::CommunicatorHolder ich = Ice::initialize(argc, argv, initData);
        assert(initData.properties != ich->getProperties());
        return run(argc, argv, ich.communicator(), initData);
    }
    catch(const Ice::Exception& ex)
    {
        cerr << ex << endl;
        return EXIT_FAILURE;
    }
}
Exemple #2
0
int
main(int argc, char* argv[])
{
#ifdef ICE_STATIC_LIBS
    Ice::registerIceSSL();
#   if defined(__linux)
    Ice::registerIceBT();
#   endif
#endif

    try
    {
        Ice::InitializationData initData;
        initData.properties = Ice::createProperties(argc, argv);
        initData.properties->setProperty("Ice.Warn.Connections", "0");
        initData.properties->setProperty("Ice.MessageSizeMax", "10"); // 10KB max

        Ice::CommunicatorHolder ich = Ice::initialize(argc, argv, initData);
        RemoteConfig rc("Ice/exceptions", argc, argv, ich.communicator());
        int status = run(argc, argv, ich.communicator());
        rc.finished(status);
        return status;
    }
    catch(const Ice::Exception& ex)
    {
        cerr << ex << endl;
        return  EXIT_FAILURE;
    }
}
Exemple #3
0
int
main(int argc, char* argv[])
{
#ifdef ICE_STATIC_LIBS
    Ice::registerIceSSL();
#endif

    try
    {
        Ice::InitializationData initData;
        initData.properties = Ice::createProperties(argc, argv);
        //
        // Its possible to have batch oneway requests dispatched after
        // the adapter is deactivated due to thread scheduling so we
        // supress this warning.
        //
        initData.properties->setProperty("Ice.Warn.Dispatch", "0");

        Ice::CommunicatorHolder ich = Ice::initialize(argc, argv, initData);
        return run(argc, argv, ich.communicator());
    }
    catch(const Ice::Exception& ex)
    {
        cerr << ex << endl;
        return  EXIT_FAILURE;
    }
}
Exemple #4
0
int
main(int argc, char* argv[])
{
#ifdef ICE_STATIC_LIBS
    Ice::registerIceSSL();
#endif

    try
    {
        //
        // In this test, we need a longer server idle time, otherwise
        // our test servers may time out before they are used in the
        // test.
        //
        Ice::InitializationData initData;
        initData.properties = Ice::createProperties(argc, argv);
        initData.properties->setProperty("Ice.ServerIdleTime", "120"); // Two minutes.

        Ice::CommunicatorHolder ich = Ice::initialize(argc, argv, initData);
        return run(argc, argv, ich.communicator());
    }
    catch(const Ice::Exception& ex)
    {
        cerr << ex << endl;
        return  EXIT_FAILURE;
    }
}
Exemple #5
0
int
main(int argc, char* argv[])
{
    try
    {
        Ice::InitializationData initData;
        initData.properties = Ice::createProperties(argc, argv);

        //
        // This test kills connections, so we don't want warnings.
        //
        initData.properties->setProperty("Ice.Warn.Connections", "0");

        initData.properties->setProperty("Ice.MessageSizeMax", "50000");

        // This test relies on filling the TCP send/recv buffer, so
        // we rely on a fixed value for these buffers.
        initData.properties->setProperty("Ice.TCP.RcvSize", "50000");

        //
        // Setup the test transport plug-in.
        //
        initData.properties->setProperty("Ice.Plugin.Test", "TestTransport:createTestTransport");
        string defaultProtocol = initData.properties->getPropertyWithDefault("Ice.Default.Protocol", "tcp");
        initData.properties->setProperty("Ice.Default.Protocol", "test-" + defaultProtocol);

        Ice::CommunicatorHolder ich = Ice::initialize(argc, argv, initData);
        return run(argc, argv, ich.communicator());
    }
    catch(const Ice::Exception& ex)
    {
        cerr << ex << endl;
        return EXIT_FAILURE;
    }
}
Exemple #6
0
int
main(int argc, char* argv[])
{
#ifdef ICE_STATIC_LIBS
    Ice::registerIceSSL();
#   if defined(__linux)
    Ice::registerIceBT();
#   endif
#endif

    try
    {
        Ice::CommunicatorHolder ich = Ice::initialize(argc, argv);
        RemoteConfig rc("Ice/proxy", argc, argv, ich.communicator());
        int status = run(argc, argv, ich.communicator());
        rc.finished(status);
        return status;
    }
    catch(const Ice::Exception& ex)
    {
        cerr << ex << endl;
        return EXIT_FAILURE;
    }
}
Exemple #7
0
int
main(int argc, char* argv[])
{
#ifdef ICE_STATIC_LIBS
    Ice::registerIceSSL();
#endif
    try
    {
        Ice::CommunicatorHolder ich = Ice::initialize(argc, argv);
        return run(argc, argv, ich.communicator());
    }
    catch(const Ice::Exception& ex)
    {
        cerr << ex << endl;
        return EXIT_FAILURE;
    }
}
Exemple #8
0
int
main(int argc, char* argv[])
{
#ifdef ICE_STATIC_LIBS
    Ice::registerIceSSL();
#endif
    try
    {
        Ice::InitializationData initData;
        initData.properties = Ice::createProperties(argc, argv);
        initData.properties->setProperty("Ice.Warn.Connections", "0");
        initData.properties->setProperty("Ice.ACM.Timeout", "1");
        Ice::CommunicatorHolder ich = Ice::initialize(argc, argv, initData);
        return run(argc, argv, ich.communicator());
    }
    catch(const Ice::Exception& ex)
    {
        cerr << ex << endl;
        return EXIT_FAILURE;
    }
}
Exemple #9
0
int
main(int argc, char* argv[])
{
#ifdef ICE_STATIC_LIBS
    Ice::registerIceSSL();
#endif

    try
    {
        Ice::InitializationData initData;
        initData.properties = Ice::createProperties(argc, argv);

#if TARGET_OS_IPHONE != 0
        //
        // COMPILERFIX: Disable connect timeout introduced for
        // workaround to iOS device hangs when using SSL
        //
        initData.properties->setProperty("Ice.Override.ConnectTimeout", "");
#endif

        //
        // This test kills connections, so we don't want warnings.
        //
        initData.properties->setProperty("Ice.Warn.Connections", "0");

        //
        // Limit the recv buffer size, this test relies on the socket
        // send() blocking after sending a given amount of data.
        //
        initData.properties->setProperty("Ice.TCP.RcvSize", "50000");

        Ice::CommunicatorHolder ich = Ice::initialize(argc, argv, initData);
        return run(argc, argv, ich.communicator());
    }
    catch(const Ice::Exception& ex)
    {
        cerr << ex << endl;
        return  EXIT_FAILURE;
    }
}
Exemple #10
0
int
main(int argc, char* argv[])
{
#ifdef ICE_STATIC_LIBS
    Ice::registerIceSSL();
#endif
    try
    {
        initCounts();

        Ice::InitializationData initData;
        initData.properties = Ice::createProperties(argc, argv);
        initData.observer = getObserver();
        //
        // This test kills connections, so we don't want warnings.
        //
        initData.properties->setProperty("Ice.Warn.Connections", "0");

        initData.properties->setProperty("Ice.RetryIntervals", "0 1 10 1");
        Ice::CommunicatorHolder ich = Ice::initialize(argc, argv, initData);

        //
        // Configure a second communicator for the invocation timeout
        // + retry test, we need to configure a large retry interval
        // to avoid time-sensitive failures.
        //
        Ice::InitializationData initData2;
        initData2.properties = initData.properties->clone();
        initData2.properties->setProperty("Ice.RetryIntervals", "0 1 10000");
        initData2.observer = getObserver();
        Ice::CommunicatorHolder ich2 = Ice::initialize(initData2);
        return run(argc, argv, ich.communicator(), ich2.communicator());
    }
    catch(const Ice::Exception& ex)
    {
        cerr << ex << endl;
        return EXIT_FAILURE;
    }
}
Exemple #11
0
int
main(int argc, char* argv[])
{
#ifdef ICE_STATIC_LIBS
    Ice::registerIceSSL();
#endif
    int status;
    try
    {
        Ice::InitializationData initData;
        initData.properties = Ice::createProperties(argc, argv);

        //
        // Limit the recv buffer size, this test relies on the socket
        // send() blocking after sending a given amount of data.
        //
        initData.properties->setProperty("Ice.TCP.RcvSize", "50000");

#ifdef ICE_CPP11_MAPPING
        Ice::DispatcherPtr dispatcher = new Dispatcher();
        initData.dispatcher = [=](function<void ()> call, const shared_ptr<Ice::Connection>& conn)
            {
                dispatcher->dispatch(new DispatcherCall(call), conn);
            };
#else
        initData.dispatcher = new Dispatcher();
#endif
        Ice::CommunicatorHolder ich = Ice::initialize(argc, argv, initData);
        status = run(argc, argv, ich.communicator());
    }
    catch(const Ice::Exception& ex)
    {
        cerr << ex << endl;
        status = EXIT_FAILURE;
    }
    Dispatcher::terminate();
    return status;
}