Ejemplo n.º 1
0
int
run(int, char**, const Ice::CommunicatorPtr& communicator)
{
    Ice::ObjectFactoryPtr factory = new MyObjectFactory;
    communicator->addObjectFactory(factory, "::Test::B");
    communicator->addObjectFactory(factory, "::Test::C");
    communicator->addObjectFactory(factory, "::Test::D");
    communicator->addObjectFactory(factory, "::Test::E");
    communicator->addObjectFactory(factory, "::Test::F");
    communicator->addObjectFactory(factory, "::Test::I");
    communicator->addObjectFactory(factory, "::Test::J");
    communicator->addObjectFactory(factory, "::Test::H");

    communicator->getProperties()->setProperty("TestAdapter.Endpoints", "default -p 12010");
    Ice::ObjectAdapterPtr adapter = communicator->createObjectAdapter("TestAdapter");
    InitialPtr initial = new InitialI(adapter);
    adapter->add(initial, communicator->stringToIdentity("initial"));
    UnexpectedObjectExceptionTestIPtr uoet = new UnexpectedObjectExceptionTestI;
    adapter->add(uoet, communicator->stringToIdentity("uoet"));
    InitialPrx allTests(const Ice::CommunicatorPtr&);
    allTests(communicator);
    // We must call shutdown even in the collocated case for cyclic dependency cleanup
    initial->shutdown(Ice::Current());
    return EXIT_SUCCESS;
}
Ejemplo n.º 2
0
int
run(int, char**, const Ice::CommunicatorPtr& communicator)
{
#ifdef ICE_CPP11_MAPPING
    communicator->getValueFactoryManager()->add(makeFactory<BI>(), "::Test::B");
    communicator->getValueFactoryManager()->add(makeFactory<CI>(), "::Test::C");
    communicator->getValueFactoryManager()->add(makeFactory<DI>(), "::Test::D");
    communicator->getValueFactoryManager()->add(makeFactory<EI>(), "::Test::E");
    communicator->getValueFactoryManager()->add(makeFactory<FI>(), "::Test::F");
    communicator->getValueFactoryManager()->add(makeFactory<II>(), "::Test::I");
    communicator->getValueFactoryManager()->add(makeFactory<JI>(), "::Test::J");
    communicator->getValueFactoryManager()->add(makeFactory<HI>(), "::Test::H");
    communicator->addObjectFactory(make_shared<MyObjectFactory>(), "TestOF");
#else
    Ice::ValueFactoryPtr factory = new MyValueFactory;
    communicator->getValueFactoryManager()->add(factory, "::Test::B");
    communicator->getValueFactoryManager()->add(factory, "::Test::C");
    communicator->getValueFactoryManager()->add(factory, "::Test::D");
    communicator->getValueFactoryManager()->add(factory, "::Test::E");
    communicator->getValueFactoryManager()->add(factory, "::Test::F");
    communicator->getValueFactoryManager()->add(factory, "::Test::I");
    communicator->getValueFactoryManager()->add(factory, "::Test::J");
    communicator->getValueFactoryManager()->add(factory, "::Test::H");
    communicator->addObjectFactory(new MyObjectFactory(), "TestOF");
#endif

    InitialPrxPtr allTests(const Ice::CommunicatorPtr&);
    InitialPrxPtr initial = allTests(communicator);
    initial->shutdown();
    return EXIT_SUCCESS;
}
Ejemplo n.º 3
0
int
run(const Ice::CommunicatorPtr& communicator, const string& envName, const string& dbName)
{
    Ice::ObjectFactoryPtr factory = new Factory;
    communicator->addObjectFactory(factory, "");

    Ice::ObjectAdapterPtr adapter = communicator->createObjectAdapter("");
    Freeze::EvictorPtr evictor = Freeze::createEvictor(adapter, envName, dbName);

    for(int i = 0; i < 10; ++i)
    {
        string facetName = "theFacet";

        Ice::Identity id;
        ostringstream ostr;
        ostr << "mainObject" << i;
        id.name = ostr.str();

        if((i % 2) == 0)
        {
            MainObjectPtr obj = new MainObjectI;
            obj->boolToString = true;
            obj->byteToShort = 0;
            obj->shortToByte = 255;
            obj->intToShort = 32767;
            obj->longToInt = 2147483647;
            obj->floatToString = 4567.8f;
            obj->doubleToFloat = 8765.4;
            obj->stringToEnum = "E1";
            obj->renamed = E2;
            evictor->add(obj, id);
            FacetObjectPtr facet = new FacetObjectI;
            facet->doubleToString = 901234.5;
            evictor->addFacet(facet, id, facetName);
        }
        else
        {
            DerivedMainObjectPtr obj = new DerivedMainObjectI;
            obj->boolToString = false;
            obj->byteToShort = 0;
            obj->shortToByte = -1;
            obj->intToShort = -32768;
            obj->longToInt = -2147483647 - 1;
            obj->floatToString = -4567.8f;
            obj->doubleToFloat = -8765.4;
            obj->stringToEnum = "E3";
            obj->renamed = E1;
            obj->name = id.name;
            evictor->add(obj, id);
            DerivedFacetObjectPtr facet = new DerivedFacetObjectI;
            facet->doubleToString = -901234.5;
            facet->count = i;
            evictor->addFacet(facet, id, facetName);
        }
    }

    evictor->deactivate("");

    return EXIT_SUCCESS;
}
Ejemplo n.º 4
0
int
run(int, char**, const Ice::CommunicatorPtr& communicator)
{
    Ice::ObjectFactoryPtr factory = new MyObjectFactory;
    communicator->addObjectFactory(factory, "::Test::B");
    communicator->addObjectFactory(factory, "::Test::C");
    communicator->addObjectFactory(factory, "::Test::D");
    communicator->addObjectFactory(factory, "::Test::E");
    communicator->addObjectFactory(factory, "::Test::F");
    communicator->addObjectFactory(factory, "::Test::I");
    communicator->addObjectFactory(factory, "::Test::J");
    communicator->addObjectFactory(factory, "::Test::H");

    InitialPrx allTests(const Ice::CommunicatorPtr&);
    InitialPrx initial = allTests(communicator);
    initial->shutdown();
    return EXIT_SUCCESS;
}
Ejemplo n.º 5
0
int
run(int argc, char* argv[], const Ice::CommunicatorPtr& communicator, const string& envName)
{
    communicator->getProperties()->setProperty("Factory.Endpoints", "default -p 12010");
    Ice::ObjectAdapterPtr adapter = communicator->createObjectAdapter("Factory");

    communicator->addObjectFactory(new ServantFactory, "::Test::Servant");
    communicator->addObjectFactory(new FacetFactory, "::Test::Facet");
    communicator->addObjectFactory(new AccountFactory, "::Test::Account");

    Test::RemoteEvictorFactoryPtr factory = new Test::RemoteEvictorFactoryI(envName);
    adapter->add(factory, communicator->stringToIdentity("factory"));

    adapter->activate();

    communicator->waitForShutdown();

    return EXIT_SUCCESS;
}
Ejemplo n.º 6
0
int
run(int, char**, const Ice::CommunicatorPtr& communicator)
{
    Ice::ObjectFactoryPtr factory = new MyObjectFactory;
    communicator->addObjectFactory(factory, "::Test::I");
    communicator->addObjectFactory(factory, "::Test::J");
    communicator->addObjectFactory(factory, "::Test::H");

    communicator->getProperties()->setProperty("TestAdapter.Endpoints", "default -p 12010");
    Ice::ObjectAdapterPtr adapter = communicator->createObjectAdapter("TestAdapter");
    InitialPtr initial = new InitialI(adapter);
    adapter->add(initial, communicator->stringToIdentity("initial"));
    UnexpectedObjectExceptionTestIPtr uoet = new UnexpectedObjectExceptionTestI;
    adapter->add(uoet, communicator->stringToIdentity("uoet"));
    adapter->activate();
    TEST_READY
    communicator->waitForShutdown();
    return EXIT_SUCCESS;
}
Ejemplo n.º 7
0
static int
run(int argc, char* argv[], const Ice::CommunicatorPtr& communicator, Complex::ComplexDict& m)
{
    //
    // Register a factory for the node types.
    //
    Ice::ObjectFactoryPtr factory = new Complex::ObjectFactoryI;
    communicator->addObjectFactory(factory, "::Complex::NumberNode");
    communicator->addObjectFactory(factory, "::Complex::AddNode");
    communicator->addObjectFactory(factory, "::Complex::MultiplyNode");

    if(argc > 1 && strcmp(argv[1], "populate") == 0)
    {
        return populate(m);
    }
    if(argc > 1 && strcmp(argv[1], "validate") == 0)
    {
        return validate(m);
    }
    usage(argv[0]);

    return EXIT_FAILURE;
}
Ejemplo n.º 8
0
int
run(int, char**, const Ice::CommunicatorPtr& communicator)
{
#ifdef ICE_CPP11_MAPPING
    communicator->getValueFactoryManager()->add(makeFactory<BI>(), "::Test::B");
    communicator->getValueFactoryManager()->add(makeFactory<CI>(), "::Test::C");
    communicator->getValueFactoryManager()->add(makeFactory<DI>(), "::Test::D");
    communicator->getValueFactoryManager()->add(makeFactory<EI>(), "::Test::E");
    communicator->getValueFactoryManager()->add(makeFactory<FI>(), "::Test::F");
    communicator->getValueFactoryManager()->add(makeFactory<II>(), "::Test::I");
    communicator->getValueFactoryManager()->add(makeFactory<JI>(), "::Test::J");
    communicator->getValueFactoryManager()->add(makeFactory<HI>(), "::Test::H");
    communicator->addObjectFactory(make_shared<MyObjectFactory>(), "TestOF");
#else
    Ice::ValueFactoryPtr factory = new MyValueFactory;
    communicator->getValueFactoryManager()->add(factory, "::Test::B");
    communicator->getValueFactoryManager()->add(factory, "::Test::C");
    communicator->getValueFactoryManager()->add(factory, "::Test::D");
    communicator->getValueFactoryManager()->add(factory, "::Test::E");
    communicator->getValueFactoryManager()->add(factory, "::Test::F");
    communicator->getValueFactoryManager()->add(factory, "::Test::I");
    communicator->getValueFactoryManager()->add(factory, "::Test::J");
    communicator->getValueFactoryManager()->add(factory, "::Test::H");
    communicator->addObjectFactory(new MyObjectFactory(), "TestOF");
#endif

    communicator->getProperties()->setProperty("TestAdapter.Endpoints", getTestEndpoint(communicator, 0));
    Ice::ObjectAdapterPtr adapter = communicator->createObjectAdapter("TestAdapter");
    adapter->add(ICE_MAKE_SHARED(InitialI, adapter), communicator->stringToIdentity("initial"));
    adapter->add(ICE_MAKE_SHARED(TestIntfI), communicator->stringToIdentity("test"));
    adapter->add(ICE_MAKE_SHARED(UnexpectedObjectExceptionTestI), communicator->stringToIdentity("uoet"));
    InitialPrxPtr allTests(const Ice::CommunicatorPtr&);
    InitialPrxPtr initial = allTests(communicator);
    // We must call shutdown even in the collocated case for cyclic dependency cleanup
    initial->shutdown();
    return EXIT_SUCCESS;
}
Ejemplo n.º 9
0
ThrowerPrx
allTests(const Ice::CommunicatorPtr& communicator)
{
    cout << "testing ice_print()/what()... " << flush;
    {
        A a;
        string aMsg = "Test::A";

        Ice::UnknownLocalException ule("thisFile", 99);
        string uleMsg = "thisFile:99: Ice::UnknownLocalException:\nunknown local exception";

        //
        // Test ice_print().
        //
        {
            stringstream str;
            a.ice_print(str);
            test(str.str() == aMsg);
        }
        {
            stringstream str;
            ule.ice_print(str);
            test(str.str() == uleMsg);
        }

        //
        // Test operator<<().
        //
        {
            stringstream str;
            str << a;
            test(str.str() == aMsg);
        }
        {
            stringstream str;
            str << ule;
            test(str.str() == uleMsg);
        }

        //
        // Test what(). (Called twice because of lazy initialization in what().)
        //
        test(aMsg == a.what());
        test(aMsg == a.what());

        test(uleMsg == ule.what());
        test(uleMsg == ule.what());

        {
            E ex("E");
            ostringstream os;
            ex.ice_print(os);
            test(os.str() == "Test::E");
            test(ex.data == "E");
        }
    
        //
        // Test custom ice_print
        // 
        {
            F ex("F");
            ostringstream os;
            ex.ice_print(os);
            test(os.str() == "Test::F data:'F'");
            test(ex.data == "F");
        }

        {
            G ex(__FILE__, __LINE__, "G");
            ostringstream os;
            ex.ice_print(os);
            test(endsWith(os.str(), "Test::G"));
            test(ex.data == "G");
        }

        {
            H ex(__FILE__, __LINE__, "H");
            ostringstream os;
            ex.ice_print(os);
            test(endsWith(os.str(), "Test::H data:'H'"));
            test(ex.data == "H");
        }

    }
    cout << "ok" << endl;

    cout << "testing object adapter registration exceptions... " << flush;
    {
        Ice::ObjectAdapterPtr first;
        try
        {
            first = communicator->createObjectAdapter("TestAdapter0");
            test(false);
        }
        catch(const Ice::InitializationException& ex)
        {
            if(printException)
            {
                Ice::Print printer(communicator->getLogger());
                printer << ex;
            }
            // Expected
        }

        string host = communicator->getProperties()->getPropertyAsIntWithDefault("Ice.IPv6", 0) == 0 ? 
            "127.0.0.1" : "\"0:0:0:0:0:0:0:1\"";
        communicator->getProperties()->setProperty("TestAdapter0.Endpoints", "default -h " + host);
        first = communicator->createObjectAdapter("TestAdapter0");
        try
        {
            Ice::ObjectAdapterPtr second = communicator->createObjectAdapter("TestAdapter0");
            test(false);
        }
        catch(const Ice::AlreadyRegisteredException& ex)
        {
            if(printException)
            {
                Ice::Print printer(communicator->getLogger());
                printer << ex;
            }

            // Expected
        }

        try
        {
            Ice::ObjectAdapterPtr second =
                communicator->createObjectAdapterWithEndpoints("TestAdapter0", "ssl -h foo -p 12011");
            test(false);
        }
        catch(const Ice::AlreadyRegisteredException& ex)
        {
            if(printException)
            {
                Ice::Print printer(communicator->getLogger());
                printer << ex;
            }

            // Expected.
        }
        first->deactivate();
    }
    cout << "ok" << endl;

    cout << "testing servant registration exceptions... " << flush;
    {
        string host = communicator->getProperties()->getPropertyAsIntWithDefault("Ice.IPv6", 0) == 0 ? 
            "127.0.0.1" : "\"0:0:0:0:0:0:0:1\"";
        communicator->getProperties()->setProperty("TestAdapter1.Endpoints", "default -h " + host);
        Ice::ObjectAdapterPtr adapter = communicator->createObjectAdapter("TestAdapter1");
        Ice::ObjectPtr obj = new EmptyI;
        adapter->add(obj, communicator->stringToIdentity("x"));
        try
        {
            adapter->add(obj, communicator->stringToIdentity("x"));
            test(false);
        }
        catch(const Ice::AlreadyRegisteredException& ex)
        {
            if(printException)
            {
                Ice::Print printer(communicator->getLogger());
                printer << ex;
            }
        }

        try
        {
            adapter->add(obj, communicator->stringToIdentity(""));
        }
        catch(const Ice::IllegalIdentityException& ex)
        {
            test(ex.id.name == "");
            if(printException)
            {
                Ice::Print printer(communicator->getLogger());
                printer << ex;
            }
        }
        
        try
        {
            adapter->add(0, communicator->stringToIdentity("x"));
        }
        catch(const Ice::IllegalServantException& ex)
        {
            if(printException)
            {
                Ice::Print printer(communicator->getLogger());
                printer << ex;
            }
        }


        adapter->remove(communicator->stringToIdentity("x"));
        try
        {
            adapter->remove(communicator->stringToIdentity("x"));
            test(false);
        }
        catch(const Ice::NotRegisteredException& ex)
        {
            if(printException)
            {
                Ice::Print printer(communicator->getLogger());
                printer << ex;
            }
        }

        adapter->deactivate();
    }
    cout << "ok" << endl;

    cout << "testing servant locator registrations exceptions... " << flush;
    {
        string host = communicator->getProperties()->getPropertyAsIntWithDefault("Ice.IPv6", 0) == 0 ? 
            "127.0.0.1" : "\"0:0:0:0:0:0:0:1\"";
        communicator->getProperties()->setProperty("TestAdapter2.Endpoints", "default -h " + host);
        Ice::ObjectAdapterPtr adapter = communicator->createObjectAdapter("TestAdapter2");
        Ice::ServantLocatorPtr loc = new ServantLocatorI;
        adapter->addServantLocator(loc, "x");
        try
        {
            adapter->addServantLocator(loc, "x");
            test(false);
        }
        catch(const Ice::AlreadyRegisteredException&)
        {
        }

        adapter->deactivate();
    }
    cout << "ok" << endl;

    cout << "testing object factory registration exception... " << flush;
    {
        Ice::ObjectFactoryPtr of = new ObjectFactoryI;
        communicator->addObjectFactory(of, "x");
        try
        {
            communicator->addObjectFactory(of, "x");
            test(false);
        }
        catch(const Ice::AlreadyRegisteredException&)
        {
        }
    }
    cout << "ok" << endl;

    cout << "testing stringToProxy... " << flush;
    string ref = "thrower:default -p 12010";
    Ice::ObjectPrx base = communicator->stringToProxy(ref);
    test(base);
    cout << "ok" << endl;

    cout << "testing checked cast... " << flush;
    ThrowerPrx thrower = ThrowerPrx::checkedCast(base);
    test(thrower);
    test(thrower == base);
    cout << "ok" << endl;

    cout << "catching exact types... " << flush;

    try
    {
        thrower->throwAasA(1);
        test(false);
    }
    catch(const A& ex)
    {
        test(ex.aMem == 1);
    }
    catch(const Ice::Exception& ex)
    {
        cout << ex << endl;
        test(false);
    }
    catch(...)
    {
        test(false);
    }

    try
    {
        thrower->throwAorDasAorD(1);
        test(false);
    }
    catch(const A& ex)
    {
        test(ex.aMem == 1);
    }
    catch(...)
    {
        test(false);
    }

    try
    {
        thrower->throwAorDasAorD(-1);
        test(false);
    }
    catch(const D& ex)
    {
        test(ex.dMem == -1);
    }
    catch(...)
    {
        test(false);
    }

    try
    {
        thrower->throwBasB(1, 2);
        test(false);
    }
    catch(const B& ex)
    {
        test(ex.aMem == 1);
        test(ex.bMem == 2);
    }
    catch(...)
    {
        test(false);
    }

    try
    {
        thrower->throwCasC(1, 2, 3);
        test(false);
    }
    catch(const C& ex)
    {
        test(ex.aMem == 1);
        test(ex.bMem == 2);
        test(ex.cMem == 3);
    }
    catch(...)
    {
        test(false);
    }

    try
    {
        thrower->throwModA(1, 2);
        test(false);
    }
    catch(const Mod::A& ex)
    {
        test(ex.aMem == 1);
        test(ex.a2Mem == 2);
    }
    catch(const Ice::OperationNotExistException&)
    {
        //
        // This operation is not supported in Java.
        //
    }
    catch(...)
    {
        test(false);
    }

    cout << "ok" << endl;

    cout << "catching base types... " << flush;

    try
    {
        thrower->throwBasB(1, 2);
        test(false);
    }
    catch(const A& ex)
    {
        test(ex.aMem == 1);
    }
    catch(...)
    {
        test(false);
    }

    try
    {
        thrower->throwCasC(1, 2, 3);
        test(false);
    }
    catch(const B& ex)
    {
        test(ex.aMem == 1);
        test(ex.bMem == 2);
    }
    catch(...)
    {
        test(false);
    }

    try
    {
        thrower->throwModA(1, 2);
        test(false);
    }
    catch(const A& ex)
    {
        test(ex.aMem == 1);
    }
    catch(const Ice::OperationNotExistException&)
    {
        //
        // This operation is not supported in Java.
        //
    }
    catch(...)
    {
        test(false);
    }

    cout << "ok" << endl;

    cout << "catching derived types... " << flush;

    try
    {
        thrower->throwBasA(1, 2);
        test(false);
    }
    catch(const B& ex)
    {
        test(ex.aMem == 1);
        test(ex.bMem == 2);
    }
    catch(...)
    {
        test(false);
    }

    try
    {
        thrower->throwCasA(1, 2, 3);
        test(false);
    }
    catch(const C& ex)
    {
        test(ex.aMem == 1);
        test(ex.bMem == 2);
        test(ex.cMem == 3);
    }
    catch(...)
    {
        test(false);
    }

    try
    {
        thrower->throwCasB(1, 2, 3);
        test(false);
    }
    catch(const C& ex)
    {
        test(ex.aMem == 1);
        test(ex.bMem == 2);
        test(ex.cMem == 3);
    }
    catch(...)
    {
        test(false);
    }

    cout << "ok" << endl;

    if(thrower->supportsUndeclaredExceptions())
    {
        cout << "catching unknown user exception... " << flush;

        try
        {
            thrower->throwUndeclaredA(1);
            test(false);
        }
        catch(const Ice::UnknownUserException&)
        {
        }
        catch(const Ice::Exception& ex)
        {
            cout << ex << endl;
            cout << ex.ice_stackTrace() << endl;
            test(false);
        }
        catch(...)
        {
            test(false);
        }

        try
        {
            thrower->throwUndeclaredB(1, 2);
            test(false);
        }
        catch(const Ice::UnknownUserException&)
        {
        }
        catch(...)
        {
            test(false);
        }

        try
        {
            thrower->throwUndeclaredC(1, 2, 3);
            test(false);
        }
        catch(const Ice::UnknownUserException&)
        {
        }
        catch(...)
        {
            test(false);
        }

        cout << "ok" << endl;
    }

    if(thrower->ice_getConnection())
    {
        cout << "testing memory limit marshal exception..." << flush;
        try
        {
            thrower->throwMemoryLimitException(Ice::ByteSeq());
            test(false);
        }
        catch(const Ice::MemoryLimitException&)
        {
        }
        catch(...)
        {
            test(false);
        }

        try
        {
            thrower->throwMemoryLimitException(Ice::ByteSeq(20 * 1024)); // 20KB
            test(false);
        }
        catch(const Ice::ConnectionLostException&)
        {
        }
        catch(const Ice::LocalException& ex)
        {
            cerr << ex << endl;
            test(false);
        }
        
        ThrowerPrx thrower2 = ThrowerPrx::uncheckedCast(communicator->stringToProxy("thrower:default -p 12011"));
        try
        {
            thrower2->throwMemoryLimitException(Ice::ByteSeq(2 * 1024 * 1024)); // 2MB (no limits)
        }
        catch(const Ice::MemoryLimitException&)
        {
        }
        ThrowerPrx thrower3 = ThrowerPrx::uncheckedCast(communicator->stringToProxy("thrower:default -p 12012"));
        try
        {
            thrower3->throwMemoryLimitException(Ice::ByteSeq(1024)); // 1KB limit
            test(false);
        }
        catch(const Ice::ConnectionLostException&)
        {
        }

        cout << "ok" << endl;
    }

    cout << "catching object not exist exception... " << flush;

    Ice::Identity id = communicator->stringToIdentity("does not exist");
    try
    {
        ThrowerPrx thrower2 = ThrowerPrx::uncheckedCast(thrower->ice_identity(id));
        thrower2->throwAasA(1);
//      thrower2->ice_ping();
        test(false);
    }
    catch(const Ice::ObjectNotExistException& ex)
    {
        test(ex.id == id);
    }
    catch(...)
    {
        test(false);
    }

    cout << "ok" << endl;

    cout << "catching facet not exist exception... " << flush;

    try
    {
        ThrowerPrx thrower2 = ThrowerPrx::uncheckedCast(thrower, "no such facet");
        try
        {
            thrower2->ice_ping();
            test(false);
        }
        catch(const Ice::FacetNotExistException& ex)
        {
            test(ex.facet == "no such facet");
        }
    }
    catch(...)
    {
        test(false);
    }

    cout << "ok" << endl;

    cout << "catching operation not exist exception... " << flush;

    try
    {
        WrongOperationPrx thrower2 = WrongOperationPrx::uncheckedCast(thrower);
        thrower2->noSuchOperation();
        test(false);
    }
    catch(const Ice::OperationNotExistException& ex)
    {
        test(ex.operation == "noSuchOperation");
    }
    catch(...)
    {
        test(false);
    }

    cout << "ok" << endl;

    cout << "catching unknown local exception... " << flush;

    try
    {
        thrower->throwLocalException();
        test(false);
    }
    catch(const Ice::UnknownLocalException&)
    {
    }
    catch(...)
    {
        test(false);
    }
    try
    {
        thrower->throwLocalExceptionIdempotent();
        test(false);
    }
    catch(const Ice::UnknownLocalException&)
    {
    }
    catch(const Ice::OperationNotExistException&)
    {
    }
    catch(...)
    {
        test(false);
    }

    cout << "ok" << endl;

    cout << "catching unknown non-Ice exception... " << flush;

    try
    {
        thrower->throwNonIceException();
        test(false);
    }
    catch(const Ice::UnknownException&)
    {
    }
    catch(...)
    {
        test(false);
    }

    cout << "ok" << endl;

    cout << "testing asynchronous exceptions... " << flush;

    try
    {
        thrower->throwAfterResponse();
    }
    catch(...)
    {
        test(false);
    }

    try
    {
        thrower->throwAfterException();
    }
    catch(const A&)
    {
    }
    catch(...)
    {
        test(false);
    }

    cout << "ok" << endl;

    cout << "catching exact types with new AMI mapping... " << flush;

    {
        CallbackPtr cb = new Callback;
        Callback_Thrower_throwAasAPtr callback = 
            newCallback_Thrower_throwAasA(cb, &Callback::response, &Callback::exception_AasA);
        thrower->begin_throwAasA(1, callback);
        cb->check();
    }

    {
        CallbackPtr cb = new Callback;
        Callback_Thrower_throwAorDasAorDPtr callback = 
            newCallback_Thrower_throwAorDasAorD(cb, &Callback::response, &Callback::exception_AorDasAorD);
        thrower->begin_throwAorDasAorD(1, callback);
        cb->check();
    }

    {
        CallbackPtr cb = new Callback;
        Callback_Thrower_throwAorDasAorDPtr callback = 
            newCallback_Thrower_throwAorDasAorD(cb, &Callback::response, &Callback::exception_AorDasAorD);
        thrower->begin_throwAorDasAorD(-1, callback);
        cb->check();
    }

    {
        CallbackPtr cb = new Callback;
        Callback_Thrower_throwBasBPtr callback = 
            newCallback_Thrower_throwBasB(cb, &Callback::response, &Callback::exception_BasB);
        thrower->begin_throwBasB(1, 2, callback);
        cb->check();
    }

    {
        CallbackPtr cb = new Callback;
        Callback_Thrower_throwCasCPtr callback = 
            newCallback_Thrower_throwCasC(cb, &Callback::response, &Callback::exception_CasC);
        thrower->begin_throwCasC(1, 2, 3, callback);
        cb->check();
    }

    {
        CallbackPtr cb = new Callback;
        Callback_Thrower_throwModAPtr callback = 
            newCallback_Thrower_throwModA(cb, &Callback::response, &Callback::exception_ModA);
        thrower->begin_throwModA(1, 2, callback);
        cb->check();
    }

    cout << "ok" << endl;

    cout << "catching derived types with new AMI mapping... " << flush;

    {
        CallbackPtr cb = new Callback;
        Callback_Thrower_throwBasAPtr callback = 
            newCallback_Thrower_throwBasA(cb, &Callback::response, &Callback::exception_BasA);
        thrower->begin_throwBasA(1, 2, callback);
        cb->check();
    }

    {
        CallbackPtr cb = new Callback;
        Callback_Thrower_throwCasAPtr callback = 
            newCallback_Thrower_throwCasA(cb, &Callback::response, &Callback::exception_CasA);
        thrower->begin_throwCasA(1, 2, 3, callback);
        cb->check();
    }

    {
        CallbackPtr cb = new Callback;
        Callback_Thrower_throwCasBPtr callback = 
            newCallback_Thrower_throwCasB(cb, &Callback::response, &Callback::exception_CasB);
        thrower->begin_throwCasB(1, 2, 3, callback);
        cb->check();
    }

    cout << "ok" << endl;

    if(thrower->supportsUndeclaredExceptions())
    {
        cout << "catching unknown user exception with new AMI mapping... " << flush;

        {
            CallbackPtr cb = new Callback;
            Callback_Thrower_throwUndeclaredAPtr callback = 
                newCallback_Thrower_throwUndeclaredA(cb, &Callback::response, &Callback::exception_UndeclaredA);
            thrower->begin_throwUndeclaredA(1, callback);
            cb->check();
        }

        {
            CallbackPtr cb = new Callback;
            Callback_Thrower_throwUndeclaredBPtr callback =
                newCallback_Thrower_throwUndeclaredB(cb, &Callback::response, &Callback::exception_UndeclaredB);
            thrower->begin_throwUndeclaredB(1, 2, callback);
            cb->check();
        }

        {
            CallbackPtr cb = new Callback;
            Callback_Thrower_throwUndeclaredCPtr callback = 
                newCallback_Thrower_throwUndeclaredC(cb, &Callback::response, &Callback::exception_UndeclaredC);
            thrower->begin_throwUndeclaredC(1, 2, 3, callback);
            cb->check();
        }

        cout << "ok" << endl;
    }

    cout << "catching object not exist exception with new AMI mapping... " << flush;

    {
        id = communicator->stringToIdentity("does not exist");
        ThrowerPrx thrower2 = ThrowerPrx::uncheckedCast(thrower->ice_identity(id));
        CallbackPtr cb = new Callback(communicator);
        Callback_Thrower_throwAasAPtr callback = 
            newCallback_Thrower_throwAasA(cb, &Callback::response, &Callback::exception_AasAObjectNotExist);
        thrower2->begin_throwAasA(1, callback);
        cb->check();
    }

    cout << "ok" << endl;

    cout << "catching facet not exist exception with new AMI mapping... " << flush;

    {
        ThrowerPrx thrower2 = ThrowerPrx::uncheckedCast(thrower, "no such facet");
        CallbackPtr cb = new Callback;
        Callback_Thrower_throwAasAPtr callback = 
            newCallback_Thrower_throwAasA(cb, &Callback::response, &Callback::exception_AasAFacetNotExist);
        thrower2->begin_throwAasA(1, callback);
        cb->check();
    }

    cout << "ok" << endl;

    cout << "catching operation not exist exception with new AMI mapping... " << flush;

    {
        CallbackPtr cb = new Callback;
        Callback_WrongOperation_noSuchOperationPtr callback = 
            newCallback_WrongOperation_noSuchOperation(cb, &Callback::response, 
                                                       &Callback::exception_noSuchOperation);
        WrongOperationPrx thrower4 = WrongOperationPrx::uncheckedCast(thrower);
        thrower4->begin_noSuchOperation(callback);
        cb->check();
    }

    cout << "ok" << endl;

    cout << "catching unknown local exception with new AMI mapping... " << flush;

    {
        CallbackPtr cb = new Callback;
        Callback_Thrower_throwLocalExceptionPtr callback = 
            newCallback_Thrower_throwLocalException(cb, &Callback::response, &Callback::exception_LocalException);
        thrower->begin_throwLocalException(callback);
        cb->check();
    }

    {
        CallbackPtr cb = new Callback;
        Callback_Thrower_throwLocalExceptionIdempotentPtr callback = 
            newCallback_Thrower_throwLocalExceptionIdempotent(cb, &Callback::response, 
                                                              &Callback::exception_LocalException);
        thrower->begin_throwLocalExceptionIdempotent(callback);
        cb->check();
    }

    cout << "ok" << endl;

    cout << "catching unknown non-Ice exception with new AMI mapping... " << flush;

    {
        CallbackPtr cb = new Callback;
        Callback_Thrower_throwNonIceExceptionPtr callback = 
            newCallback_Thrower_throwNonIceException(cb, &Callback::response, &Callback::exception_NonIceException);
        thrower->begin_throwNonIceException(callback);
        cb->check();
    }

    cout << "ok" << endl;

    return thrower;
}
Ejemplo n.º 10
0
 void ObjectFactory::register_(const Ice::CommunicatorPtr& ic) {
     ic->addObjectFactory(this, this->id);
 }
Ejemplo n.º 11
0
static int
run(const Ice::StringSeq& originalArgs, const Ice::CommunicatorPtr& communicator)
{
    vector<string> oldCppArgs;
    vector<string> newCppArgs;
    bool debug;
    bool ice = true; // Needs to be true in order to create default definitions.
    bool underscore;
    string outputFile;
    bool ignoreTypeChanges;
    bool purgeObjects;
    bool catastrophicRecover;
    bool suppress;
    string inputFile;
    vector<string> oldSlice;
    vector<string> newSlice;
    bool evictor;
    string keyTypeNames;
    string valueTypeNames;
    string dbEnvName, dbName, dbEnvNameNew;
    bool allDb = false;

    IceUtilInternal::Options opts;
    opts.addOpt("h", "help");
    opts.addOpt("v", "version");
    opts.addOpt("D", "", IceUtilInternal::Options::NeedArg, "", IceUtilInternal::Options::Repeat);
    opts.addOpt("U", "", IceUtilInternal::Options::NeedArg, "", IceUtilInternal::Options::Repeat);
    opts.addOpt("d", "debug");
    opts.addOpt("", "underscore");
    opts.addOpt("o", "", IceUtilInternal::Options::NeedArg);
    opts.addOpt("i");
    opts.addOpt("p");
    opts.addOpt("c");
    opts.addOpt("w");
    opts.addOpt("f", "", IceUtilInternal::Options::NeedArg);
    opts.addOpt("", "include-old", IceUtilInternal::Options::NeedArg, "", IceUtilInternal::Options::Repeat);
    opts.addOpt("", "include-new", IceUtilInternal::Options::NeedArg, "", IceUtilInternal::Options::Repeat);
    opts.addOpt("", "old", IceUtilInternal::Options::NeedArg, "", IceUtilInternal::Options::Repeat);
    opts.addOpt("", "new", IceUtilInternal::Options::NeedArg, "", IceUtilInternal::Options::Repeat);
    opts.addOpt("a");
    opts.addOpt("e");
    opts.addOpt("", "key", IceUtilInternal::Options::NeedArg);
    opts.addOpt("", "value", IceUtilInternal::Options::NeedArg);

    const string appName = originalArgs[0];
    vector<string> args;
    try
    {
        args = opts.parse(originalArgs);
    }
    catch(const IceUtilInternal::BadOptException& e)
    {
        cerr << appName << ": " << e.reason << endl;
        usage(appName);
        return EXIT_FAILURE;
    }

    if(opts.isSet("help"))
    {
        usage(appName);
        return EXIT_SUCCESS;
    }
    if(opts.isSet("version"))
    {
        cout << ICE_STRING_VERSION << endl;
        return EXIT_SUCCESS;
    }
    if(opts.isSet("D"))
    {
        vector<string> optargs = opts.argVec("D");
        for(vector<string>::const_iterator i = optargs.begin(); i != optargs.end(); ++i)
        {
            oldCppArgs.push_back("-D" + *i);
            newCppArgs.push_back("-D" + *i);
        }
    }
    if(opts.isSet("U"))
    {
        vector<string> optargs = opts.argVec("U");
        for(vector<string>::const_iterator i = optargs.begin(); i != optargs.end(); ++i)
        {
            oldCppArgs.push_back("-U" + *i);
            newCppArgs.push_back("-U" + *i);
        }
    }
    debug = opts.isSet("debug");

    underscore = opts.isSet("underscore");

    if(opts.isSet("o"))
    {
        outputFile = opts.optArg("o");
    }
    ignoreTypeChanges = opts.isSet("i");
    purgeObjects = opts.isSet("p");
    catastrophicRecover = opts.isSet("c");
    suppress = opts.isSet("w");

    if(opts.isSet("f"))
    {
        inputFile = opts.optArg("f");
    }
    if(opts.isSet("include-old"))
    {
        vector<string> optargs = opts.argVec("include-old");
        for(vector<string>::const_iterator i = optargs.begin(); i != optargs.end(); ++i)
        {
            oldCppArgs.push_back("-I" + *i);
        }
    }
    if(opts.isSet("include-new"))
    {
        vector<string> optargs = opts.argVec("include-new");
        for(vector<string>::const_iterator i = optargs.begin(); i != optargs.end(); ++i)
        {
            newCppArgs.push_back("-I" + *i);
        }
    }
    if(opts.isSet("old"))
    {
        vector<string> optargs = opts.argVec("old");
        for(vector<string>::const_iterator i = optargs.begin(); i != optargs.end(); ++i)
        {
            oldSlice.push_back(*i);
        }
    }
    if(opts.isSet("new"))
    {
        vector<string> optargs = opts.argVec("new");
        for(vector<string>::const_iterator i = optargs.begin(); i != optargs.end(); ++i)
        {
            newSlice.push_back(*i);
        }
    }
    evictor = opts.isSet("e");
    if(opts.isSet("key"))
    {
        keyTypeNames = opts.optArg("key");
    }
    if(opts.isSet("value"))
    {
        valueTypeNames = opts.optArg("value");
    }

    if(outputFile.empty())
    {
        if(args.size() == 2)
        {
            allDb = true;
        }
        else if(args.size() != 3)
        {
            usage(appName);
            return EXIT_FAILURE;
        }
    }
    else
    {
        if(args.size() == 1)
        {
            allDb = true;
        }
        else if(args.size() != 0)
        {
            usage(appName);
            return EXIT_FAILURE;
        }
    }

    if(allDb && (!keyTypeNames.empty() || !valueTypeNames.empty()))
    {
        usage(appName);
        return EXIT_FAILURE;
    }

    if(inputFile.empty() && !allDb && !evictor && (keyTypeNames.empty() || valueTypeNames.empty()))
    {
        usage(appName);
        return EXIT_FAILURE;
    }

    if(args.size() > 0)
    {
        dbEnvName = args[0];
    }
    if(args.size() > 1)
    {
        if(allDb)
        {
            dbEnvNameNew = args[1];
        }
        else
        {
            dbName = args[1];
        }
    }
    if(args.size() > 2)
    {
        dbEnvNameNew = args[2];
    }
    if(args.size() > 3)
    {
        cerr << appName << ": too many arguments" << endl;
        usage(appName);
        return EXIT_FAILURE;
    }

    //
    // Freeze creates a lock file by default to prevent multiple processes from opening
    // the same database environment simultaneously. In the case of a read-only program
    // such as transformdb, however, we still want to be able to open the environment despite
    // the lock. This assumes of course that the other process has opened the environment
    // with DbPrivate=0. If DbPrivate=0 is also set for dumpdb, we disable the lock.
    //
    if(!catastrophicRecover && outputFile.empty())
    {
        Ice::PropertiesPtr props = communicator->getProperties();
        string prefix = "Freeze.DbEnv." + args[0];
        if(props->getPropertyAsIntWithDefault(prefix + ".DbPrivate", 1) == 0)
        {
            props->setProperty(prefix + ".LockFile", "0");
        }
    }

    Slice::UnitPtr oldUnit = Slice::Unit::createUnit(true, true, ice, underscore);
    FreezeScript::Destroyer<Slice::UnitPtr> oldD(oldUnit);
    if(!FreezeScript::parseSlice(appName, oldUnit, oldSlice, oldCppArgs, debug, 
                                 "-D__TRANSFORMDB__"))
    {
        return EXIT_FAILURE;
    }

    Slice::UnitPtr newUnit = Slice::Unit::createUnit(true, true, ice, underscore);
    FreezeScript::Destroyer<Slice::UnitPtr> newD(newUnit);
    if(!FreezeScript::parseSlice(appName, newUnit, newSlice, newCppArgs, debug, 
                                 "-D__TRANSFORMDB__"))
    {
        return EXIT_FAILURE;
    }

    //
    // Install the evictor types in the Slice units.
    //
    FreezeScript::createEvictorSliceTypes(oldUnit);
    FreezeScript::createEvictorSliceTypes(newUnit);

    //
    // Read the catalog if necessary.
    //
    FreezeScript::CatalogDataMap catalog;
    if(allDb)
    {
        try
        {
            catalog = FreezeScript::readCatalog(communicator, dbEnvName);
        }
        catch(const FreezeScript::FailureException& ex)
        {
            cerr << appName << ": " << ex.reason() << endl;
            return EXIT_FAILURE;
        }
        if(catalog.empty())
        {
            cerr << appName << ": no databases in environment `" << dbEnvName << "'" << endl;
            return EXIT_FAILURE;
        }
    }

    //
    // If no input file was provided, then we need to analyze the Slice types.
    //
    string descriptors;
    
    if(inputFile.empty())
    {
        ostringstream out;
        vector<string> missingTypes;
        vector<string> analyzeErrors;

        FreezeScript::TransformAnalyzer analyzer(oldUnit, newUnit, ignoreTypeChanges, out, missingTypes, analyzeErrors);

        const string evictorKeyName = "::Ice::Identity";
        const string oldEvictorValueName = "::Freeze::ObjectRecord";
        const string newEvictorValueName = "Object";

        if(allDb)
        {
            //
            // Add a <database> element for each database in the catalog.
            //
            for(FreezeScript::CatalogDataMap::iterator p = catalog.begin(); p != catalog.end(); ++p)
            {
                string keyName, valueName;

                if(p->second.evictor)
                {
                    keyName = p->second.key;
                    valueName = p->second.value;

                    if(keyName.empty())
                    {
                        keyName = evictorKeyName;
                    }
                    if(valueName.empty())
                    {
                        valueName = oldEvictorValueName;
                    }
                }
                else
                {
                    keyName = p->second.key;
                    valueName = p->second.value;
                }

                //
                // Look up the key and value types in the old and new Slice definitions.
                //
                Slice::TypePtr oldKeyType = findType(oldUnit, keyName);
                if(!oldKeyType)
                {
                    cerr << appName << ": type `" << keyName << "' from database `" << p->first
                         << "' not found in old Slice definitions" << endl;
                }
                Slice::TypePtr newKeyType = findType(newUnit, keyName);
                if(!newKeyType)
                {
                    cerr << appName << ": type `" << keyName << "' from database `" << p->first
                         << "' not found in new Slice definitions" << endl;
                }
                Slice::TypePtr oldValueType = findType(oldUnit, valueName);
                if(!oldValueType)
                {
                    cerr << appName << ": type `" << valueName << "' from database `" << p->first
                         << "' not found in old Slice definitions" << endl;
                }

                Slice::TypePtr newValueType;
                if(p->second.evictor)
                {
                    //
                    // The new evictor does not keep stats
                    //
                    newValueType = findType(newUnit, newEvictorValueName);
                }
                else
                {
                    newValueType = findType(newUnit, valueName);
                }

                if(!newValueType)
                {
                    cerr << appName << ": type `" << valueName << "' from database `" << p->first
                         << "' not found in new Slice definitions" << endl;
                }

                //
                // If we are generating an output file, we do not consider a missing type to be
                // an error. Since the type information comes from the catalog of the old
                // environment, it's possible that the key or value types are not present in
                // the new Slice definitions. Rather than abort at this point, we simply emit
                // a partially-defined <database> element that must be edited by the user.
                //
                // If we are not generating an output file, we have to stop now.
                //
                if(outputFile.empty() && (!oldKeyType || !newKeyType || !oldValueType || !newValueType))
                {   
                    return EXIT_FAILURE;
                }
                
                analyzer.addDatabase(p->first, oldKeyType, newKeyType, oldValueType, newValueType);
            }
        }
        else
        {
            string oldKeyName, newKeyName, oldValueName, newValueName;
           
            string::size_type pos;

            if(!evictor && (keyTypeNames.empty() || valueTypeNames.empty()))
            {
                usage(appName);
                return EXIT_FAILURE;
            }

            if(!keyTypeNames.empty())
            {
                pos = keyTypeNames.find(',');
                if(pos == 0 || pos == keyTypeNames.size())
                {
                    usage(appName);
                    return EXIT_FAILURE;
                }
                if(pos == string::npos)
                {
                    oldKeyName = keyTypeNames;
                    newKeyName = keyTypeNames;
                }
                else
                {
                    oldKeyName = keyTypeNames.substr(0, pos);
                    newKeyName = keyTypeNames.substr(pos + 1);
                }
            }

            if(!valueTypeNames.empty())
            {
                pos = valueTypeNames.find(',');
                if(pos == 0 || pos == valueTypeNames.size())
                {
                    usage(appName);
                    return EXIT_FAILURE;
                }
                if(pos == string::npos)
                {
                    oldValueName = valueTypeNames;
                    newValueName = valueTypeNames;
                }
                else
                {
                    oldValueName = valueTypeNames.substr(0, pos);
                    newValueName = valueTypeNames.substr(pos + 1);
                }
            }
            
            if(evictor)
            {
                if(oldKeyName.empty())
                {
                    oldKeyName = evictorKeyName;
                }
                if(newKeyName.empty())
                {
                    newKeyName = evictorKeyName;
                }
                if(oldValueName.empty())
                {
                    oldValueName = newEvictorValueName;
                }
                if(newValueName.empty())
                {
                    newValueName = newEvictorValueName;
                }
            }

            //
            // Look up the key and value types in the old and new Slice definitions.
            //
            Slice::TypePtr oldKeyType = findType(oldUnit, oldKeyName);
            if(!oldKeyType)
            {
                cerr << appName << ": type `" << oldKeyName << "' not found in old Slice definitions" << endl;
            }
            Slice::TypePtr newKeyType = findType(newUnit, newKeyName);
            if(!newKeyType)
            {
                cerr << appName << ": type `" << newKeyName << "' not found in new Slice definitions" << endl;
            }
            Slice::TypePtr oldValueType = findType(oldUnit, oldValueName);
            if(!oldValueType)
            {
                cerr << appName << ": type `" << oldValueName << "' not found in old Slice definitions" << endl;
            }
            Slice::TypePtr newValueType = findType(newUnit, newValueName);
            if(!newValueType)
            {
                cerr << appName << ": type `" << newValueName << "' not found in new Slice definitions" << endl;
            }

            //
            // Stop now if any of the types could not be found.
            //
            if(!oldKeyType || !newKeyType || !oldValueType || !newValueType)
            {   
                return EXIT_FAILURE;
            }

            analyzer.addDatabase("", oldKeyType, newKeyType, oldValueType, newValueType);
        }

        analyzer.finish();

        if(!analyzeErrors.empty())
        {
            for(vector<string>::const_iterator p = analyzeErrors.begin(); p != analyzeErrors.end(); ++p)
            {
                cerr << appName << ": " << *p << endl;
            }
        }

        if(!missingTypes.empty())
        {
            sort(missingTypes.begin(), missingTypes.end());
            unique(missingTypes.begin(), missingTypes.end());
            if(!analyzeErrors.empty())
            {
                cerr << endl;
            }
            cerr << "The following types had no matching definitions in the new Slice:" << endl;
            for(vector<string>::const_iterator p = missingTypes.begin(); p != missingTypes.end(); ++p)
            {
                cerr << "  " << *p << endl;
            }
        }

        if(!analyzeErrors.empty())
        {
            return EXIT_FAILURE;
        }

        descriptors = out.str();

        if(!outputFile.empty())
        {
            //
            // No nativeToUTF8 conversion necessary here, no string converter is installed 
            // by wmain() on Windows and args are assumbed to be UTF8 on Unix platforms.
            //
            IceUtilInternal::ofstream of(outputFile);
            if(!of.good())
            {
                cerr << appName << ": unable to open file `" << outputFile << "'" << endl;
                return EXIT_FAILURE;
            }
            of << descriptors;
            of.close();
            return EXIT_SUCCESS;
        }
    }
    else
    {
        //
        // Read the input file.
        //
        // No nativeToUTF8 conversion necessary here, no string converter is installed 
        // by wmain() on Windows and args are assumbed to be UTF8 on Unix platforms.
        //
        IceUtilInternal::ifstream in(inputFile);
        char buff[1024];
        while(true)
        {
            in.read(buff, 1024);
            descriptors.append(buff, static_cast<size_t>(in.gcount()));
            if(in.gcount() < 1024)
            {
                break;
            }
        }
        in.close();
    }

    if(dbEnvName == dbEnvNameNew)
    {
        cerr << appName << ": database environment names must be different" << endl;
        return EXIT_FAILURE;
    }

    FreezeScript::ObjectFactoryPtr objectFactory = new FreezeScript::ObjectFactory;
    communicator->addObjectFactory(objectFactory, "");

    //
    // Transform the database.
    //
    DbEnv dbEnv(0);
    DbEnv dbEnvNew(0);
    Freeze::TransactionPtr txNew;
    Freeze::ConnectionPtr connection;
    Freeze::ConnectionPtr connectionNew;
    vector<Db*> dbs;
    int status = EXIT_SUCCESS;
    try
    {
#ifdef _WIN32
        //
        // Berkeley DB may use a different C++ runtime.
        //
        dbEnv.set_alloc(::malloc, ::realloc, ::free);
        dbEnvNew.set_alloc(::malloc, ::realloc, ::free);
#endif

        //
        // Open the old database environment. Use DB_RECOVER_FATAL if -c is specified.
        // No transaction is created for the old environment.
        //
        // DB_THREAD is for compatibility with Freeze (the catalog)
        //
        {
            u_int32_t flags = DB_THREAD | DB_CREATE | DB_INIT_TXN | DB_INIT_MPOOL;
            if(catastrophicRecover)
            {
                flags |= DB_INIT_LOG | DB_RECOVER_FATAL;
            }
            dbEnv.open(dbEnvName.c_str(), flags, FREEZE_SCRIPT_DB_MODE);
        }

        //
        // We're creating a connection just to make sure the database environment
        // isn't locked.
        //
        connection = Freeze::createConnection(communicator, dbEnvName, dbEnv);

        //
        // Open the new database environment and start a transaction.
        //
        //
        // DB_THREAD is for compatibility with Freeze (the catalog)
        //
        {
            u_int32_t flags = DB_INIT_LOG | DB_INIT_MPOOL | DB_INIT_TXN | DB_RECOVER | DB_CREATE | DB_THREAD;
            dbEnvNew.open(dbEnvNameNew.c_str(), flags, FREEZE_SCRIPT_DB_MODE);
        }

        //
        // TODO: handle properly DbHome config (currently it will break if it's set for the new env)
        //

        //
        // Open the catalog of the new environment, and start a transaction.
        //
        connectionNew = Freeze::createConnection(communicator, dbEnvNameNew, dbEnvNew);
        txNew = connectionNew->beginTransaction();
        DbTxn* txnNew = Freeze::getTxn(txNew);

        if(allDb)
        {
            //
            // Transform all databases in the old catalog.
            //
            for(FreezeScript::CatalogDataMap::iterator p = catalog.begin(); p != catalog.end(); ++p)
            {
                transformDb(p->second.evictor, communicator, objectFactory, dbEnv, dbEnvNew, p->first, connectionNew,
                            dbs, oldUnit, newUnit, txnNew, purgeObjects, suppress, descriptors);
            }
        }
        else
        {
            transformDb(evictor, communicator, objectFactory, dbEnv, dbEnvNew, dbName, connectionNew, dbs, 
                        oldUnit, newUnit, txnNew, purgeObjects, suppress, descriptors);
        }
    }
    catch(const DbException& ex)
    {
        cerr << appName << ": database error: " << ex.what() << endl;
        status = EXIT_FAILURE;
    }
    catch(const IceUtil::FileLockException&)
    {
        cerr << appName << ": error: database environment is locked" << endl;
        status = EXIT_FAILURE;
    }
    catch(...)
    {
        try
        {
            if(txNew != 0)
            {
                txNew->rollback();
                txNew = 0;
            }
            if(connectionNew)
            {
                connectionNew->close();
                connectionNew = 0;
            }
            if(connection)
            {
                connection->close();
                connection = 0;
            }
            for(vector<Db*>::iterator p = dbs.begin(); p != dbs.end(); ++p)
            {
                Db* db = *p;
                db->close(0);
                delete db;
            }
            try
            {
                dbEnv.close(0);
            }
            catch(const DbException&)
            {
            }
            try
            {
                dbEnvNew.close(0);
            }
            catch(const DbException&)
            {
            }
        }
        catch(const DbException& ex)
        {
            cerr << appName << ": database error: " << ex.what() << endl;
        }
        throw;
    }

    if(txNew != 0)
    {
        try
        {
            if(status == EXIT_FAILURE)
            {
                txNew->rollback();
            }
            else
            {
                txNew->commit();

                //
                // Checkpoint to migrate changes from the log to the database(s).
                //
                dbEnvNew.txn_checkpoint(0, 0, DB_FORCE);
            }

            for(vector<Db*>::iterator p = dbs.begin(); p != dbs.end(); ++p)
            {
                Db* db = *p;
                db->close(0);
                delete db;
            }
        }
        catch(const DbException& ex)
        {
            cerr << appName << ": database error: " << ex.what() << endl;
            status = EXIT_FAILURE;
        }
    }
    // Clear the transaction before closing the database environment.
    txNew = 0;

    if(connectionNew)
    {
        connectionNew->close();
        connectionNew = 0;
    }

    if(connection)
    {
        connection->close();
        connection = 0;
    }

    try
    {
        dbEnv.close(0);
    }
    catch(const DbException&)
    {
    }

    try
    {
        dbEnvNew.close(0);
    }
    catch(const DbException&)
    {
    }

    return status;
}
Ejemplo n.º 12
0
static int
run(const Ice::StringSeq& originalArgs, const Ice::CommunicatorPtr& communicator)
{
    vector<string> cppArgs;
    bool debug;
    bool ice = true; // Needs to be true in order to create default definitions.
    bool underscore;
    string outputFile;
    string inputFile;
    vector<string> slice;
    bool evictor;
    string keyTypeName;
    string valueTypeName;
    string selectExpr;
    string dbEnvName, dbName;
    const string appName = originalArgs[0];
    IceUtilInternal::Options opts;
    opts.addOpt("h", "help");
    opts.addOpt("v", "version");
    opts.addOpt("D", "", IceUtilInternal::Options::NeedArg, "", IceUtilInternal::Options::Repeat);
    opts.addOpt("U", "", IceUtilInternal::Options::NeedArg, "", IceUtilInternal::Options::Repeat);
    opts.addOpt("I", "", IceUtilInternal::Options::NeedArg, "", IceUtilInternal::Options::Repeat);
    opts.addOpt("d", "debug");
    opts.addOpt("", "ice");
    opts.addOpt("", "underscore");
    opts.addOpt("o", "", IceUtilInternal::Options::NeedArg);
    opts.addOpt("f", "", IceUtilInternal::Options::NeedArg);
    opts.addOpt("", "load", IceUtilInternal::Options::NeedArg, "", IceUtilInternal::Options::Repeat);
    opts.addOpt("e");
    opts.addOpt("", "key", IceUtilInternal::Options::NeedArg);
    opts.addOpt("", "value", IceUtilInternal::Options::NeedArg);
    opts.addOpt("", "select", IceUtilInternal::Options::NeedArg);
    opts.addOpt("c", "catalog");

    vector<string> args;
    try
    {
        args = opts.parse(originalArgs);
    }
    catch(const IceUtilInternal::BadOptException& e)
    {
        cerr << appName << ": " << e.reason << endl;
        usage(appName);
        return EXIT_FAILURE;
    }

    //
    // Freeze creates a lock file by default to prevent multiple processes from opening
    // the same database environment simultaneously. In the case of a read-only program
    // such as dumpdb, however, we still want to be able to open the environment despite
    // the lock. This assumes of course that the other process has opened the environment
    // with DbPrivate=0. If DbPrivate=0 is also set for dumpdb, we disable the lock.
    //
    if(!args.empty())
    {
        //
        // If an argument is present, we assume it is the name of the database environment.
        //
        Ice::PropertiesPtr props = communicator->getProperties();
        string prefix = "Freeze.DbEnv." + args[0];
        if(props->getPropertyAsIntWithDefault(prefix + ".DbPrivate", 1) == 0)
        {
            props->setProperty(prefix + ".LockFile", "0");
        }
    }

    if(opts.isSet("h"))
    {
        usage(appName);
        return EXIT_SUCCESS;
    }
    if(opts.isSet("version"))
    {
        cout << ICE_STRING_VERSION << endl;
        return EXIT_SUCCESS;
    }
    if(opts.isSet("c"))
    {
        if(args.empty())
        {
            cerr << appName << ": no database environment specified." << endl;
            usage(appName);
            return EXIT_FAILURE;
        }
        else if(args.size() > 2)
        {
            usage(appName);
            return EXIT_FAILURE;
        }
        try
        {
            FreezeScript::CatalogDataMap catalog = FreezeScript::readCatalog(communicator, args[0]);
            if(args.size() == 1)
            {
                if(catalog.empty())
                {
                    cout << "Catalog is empty." << endl;
                }
                else
                {
                    cout << "Catalog contents:" << endl;
                    for(FreezeScript::CatalogDataMap::const_iterator p = catalog.begin(); p != catalog.end(); ++p)
                    {
                        cout << endl;
                        printCatalogData(p->first, p->second);
                    }
                }
            }
            else
            {
                FreezeScript::CatalogDataMap::const_iterator p = catalog.find(args[1]);
                if(p == catalog.end())
                {
                    cerr << appName << ": database `" << args[1] << "' not found in environment `" << args[0] << "'."
                         << endl;
                    return EXIT_FAILURE;
                }
                else
                {
                    printCatalogData(p->first, p->second);
                }
            }
            return EXIT_SUCCESS;
        }
        catch(const FreezeScript::FailureException& ex)
        {
            cerr << appName << ": " << ex.reason() << endl;
            return EXIT_FAILURE;
        }
    }
    if(opts.isSet("D"))
    {
        vector<string> optargs = opts.argVec("D");
        for(vector<string>::const_iterator i = optargs.begin(); i != optargs.end(); ++i)
        {
            cppArgs.push_back("-D" + *i);
        }
    }
    if(opts.isSet("U"))
    {
        vector<string> optargs = opts.argVec("U");
        for(vector<string>::const_iterator i = optargs.begin(); i != optargs.end(); ++i)
        {
            cppArgs.push_back("-U" + *i);
        }
    }
    if(opts.isSet("I"))
    {
        vector<string> optargs = opts.argVec("I");
        for(vector<string>::const_iterator i = optargs.begin(); i != optargs.end(); ++i)
        {
            cppArgs.push_back("-I" + *i);
        }
    }
    debug = opts.isSet("debug");

    // No need to set --ice option here -- it is always true.

    underscore = opts.isSet("underscore");

    if(opts.isSet("o"))
    {
        outputFile = opts.optArg("o");
    }
    if(opts.isSet("f"))
    {
        inputFile = opts.optArg("f");
    }
    if(opts.isSet("load"))
    {
        vector<string> optArgs = opts.argVec("load");
        for(vector<string>::const_iterator i = optArgs.begin(); i != optArgs.end(); ++i)
        {
            slice.push_back(*i);
        }
    }
    evictor = opts.isSet("e");
    if(opts.isSet("key"))
    {
        keyTypeName = opts.optArg("key");
    }
    if(opts.isSet("value"))
    {
        valueTypeName = opts.optArg("value");
    }
    if(opts.isSet("select"))
    {
        selectExpr = opts.optArg("select");
    }

    if(outputFile.empty() && args.size() != 2)
    {
        usage(appName);
        return EXIT_FAILURE;
    }

    if(!args.empty())
    {
        dbEnvName = args[0];
    }
    if(args.size() == 2)
    {
        dbName = args[1];
    }
    else
    {
        usage(appName);
        return EXIT_FAILURE;
    }

    if(!inputFile.empty() && !selectExpr.empty())
    {
        cerr << appName << ": an input file cannot be specified with --select" << endl;
        return EXIT_FAILURE;
    }

    Slice::UnitPtr unit = Slice::Unit::createUnit(true, true, ice, underscore);
    FreezeScript::Destroyer<Slice::UnitPtr> unitD(unit);
    if(!FreezeScript::parseSlice(appName, unit, slice, cppArgs, debug))
    {
        return EXIT_FAILURE;
    }

    FreezeScript::createEvictorSliceTypes(unit);

    //
    // If no input file was provided, then we need to generate default descriptors.
    //
    string descriptors;
    if(inputFile.empty())
    {
        const string evictorKeyTypeName = "::Ice::Identity";
        const string evictorValueTypeName = "::Freeze::ObjectRecord";

        if((!keyTypeName.empty() && valueTypeName.empty()) || (keyTypeName.empty() && !valueTypeName.empty()))
        {
            cerr << appName << ": a key type and a value type must be specified" << endl;
            usage(appName);
            return EXIT_FAILURE;
        }
        else if(!evictor && keyTypeName.empty() && valueTypeName.empty())
        {
            try
            {
                FreezeScript::CatalogDataMap catalog = FreezeScript::readCatalog(communicator, dbEnvName);
                FreezeScript::CatalogDataMap::iterator p = catalog.find(dbName);
                if(p == catalog.end())
                {
                    cerr << appName << ": database `" << dbName << "' not found in catalog." << endl;
                    cerr << "Current catalog databases:" << endl;
                    for(p = catalog.begin(); p != catalog.end(); ++p)
                    {
                        cerr << "  " << p->first << endl;
                    }
                    return EXIT_FAILURE;
                }
                else
                {
                    if(p->second.evictor)
                    {
                        evictor = true;
                    }
                    else
                    {
                        keyTypeName = p->second.key;
                        valueTypeName = p->second.value;
                    }
                }
            }
            catch(const FreezeScript::FailureException& ex)
            {
                cerr << appName << ": " << ex.reason() << endl;
                return EXIT_FAILURE;
            }
        }

        if(evictor)
        {
            keyTypeName = evictorKeyTypeName;
            valueTypeName = evictorValueTypeName;
        }

        Slice::TypePtr keyType, valueType;
        Slice::TypeList l;

        l = unit->lookupType(keyTypeName, false);
        if(l.empty())
        {
            cerr << appName << ": unknown key type `" << keyTypeName << "'" << endl;
            return EXIT_FAILURE;
        }
        keyType = l.front();

        l = unit->lookupType(valueTypeName, false);
        if(l.empty())
        {
            cerr << appName << ": unknown value type `" << valueTypeName << "'" << endl;
            return EXIT_FAILURE;
        }
        valueType = l.front();

        ostringstream os;
        IceUtilInternal::XMLOutput out(os);

        out << se("dumpdb");

        FreezeScript::SliceVisitor visitor(out, keyType, valueType, selectExpr);
        unit->visit(&visitor, false);

        out << ee;

        descriptors = os.str();

        if(!outputFile.empty())
        {
            //
            // No nativeToUTF8 conversion necessary here, no string converter is installed 
            // by wmain() on Windows and args are assumbed to be UTF8 on Unix platforms.
            //
            IceUtilInternal::ofstream of(outputFile);
            if(!of.good())
            {
                cerr << appName << ": unable to open file `" << outputFile << "'" << endl;
                return EXIT_FAILURE;
            }
            of << descriptors << endl;
            of.close();
            return EXIT_SUCCESS;
        }
    }
    else
    {
        //
        // No nativeToUTF8 conversion necessary here, no string converter is installed 
        // by wmain() on Windows and args are assumbed to be UTF8 on Unix platforms.
        //
        IceUtilInternal::ifstream in(inputFile);
        char buff[1024];
        while(true)
        {
            in.read(buff, 1024);
            descriptors.append(buff, static_cast<size_t>(in.gcount()));
            if(in.gcount() < 1024)
            {
                break;
            }
        }
        in.close();
    }
    FreezeScript::ObjectFactoryPtr objectFactory = new FreezeScript::ObjectFactory;
    communicator->addObjectFactory(objectFactory, "");

    DbEnv dbEnv(0);
    DbTxn* txn = 0;
    Freeze::ConnectionPtr connection;
    int status = EXIT_SUCCESS;
    try
    {
#ifdef _WIN32
        //
        // Berkeley DB may use a different C++ runtime.
        //
        dbEnv.set_alloc(::malloc, ::realloc, ::free);
#endif

        //
        // Open the database environment and start a transaction.
        //
        {
            u_int32_t flags = DB_THREAD | DB_CREATE | DB_INIT_TXN | DB_INIT_MPOOL;
            dbEnv.open(dbEnvName.c_str(), flags, FREEZE_SCRIPT_DB_MODE);
        }

        //
        // We're creating a connection just to make sure the database environment
        // isn't locked.
        //
        connection = Freeze::createConnection(communicator, dbEnvName, dbEnv);

        dbEnv.txn_begin(0, &txn, 0);

        FreezeScript::ErrorReporterPtr errorReporter = new FreezeScript::ErrorReporter(cerr, false);
        try
        {
            FreezeScript::DataFactoryPtr factory = new FreezeScript::DataFactory(communicator, unit, errorReporter);
            FreezeScript::DescriptorHandler dh(factory, unit, errorReporter, objectFactory);

            istringstream istr(descriptors);
            IceXML::Parser::parse(istr, dh);

            FreezeScript::DumpDBDescriptorPtr descriptor = dh.descriptor();
            descriptor->validate();

            if(evictor)
            {
                //
                // The evictor database file contains multiple databases. We must first
                // determine the names of those databases, ignoring any whose names
                // begin with "$index:". Each database represents a separate facet, with
                // the facet name used as the database name. The database named "$default"
                // represents the main object.
                //
                vector<string> dbNames;
                {
                    Db db(&dbEnv, 0);
                    db.open(txn, dbName.c_str(), 0, DB_UNKNOWN, DB_RDONLY, 0);
                    Dbt dbKey, dbValue;
                    dbKey.set_flags(DB_DBT_MALLOC);
                    dbValue.set_flags(DB_DBT_USERMEM | DB_DBT_PARTIAL);

                    Dbc* dbc = 0;
                    db.cursor(0, &dbc, 0);

                    while(dbc->get(&dbKey, &dbValue, DB_NEXT) == 0)
                    {
                        string s(static_cast<char*>(dbKey.get_data()), dbKey.get_size());
                        if(s.find("$index:") != 0)
                        {
                            dbNames.push_back(s);
                        }
                        free(dbKey.get_data());
                    }

                    dbc->close();
                    db.close(0);
                }

                //
                // Dump each database.
                //
                for(vector<string>::iterator p = dbNames.begin(); p != dbNames.end(); ++p)
                {
                    string name = *p;
                    string facet = (name == "$default" ? string("") : name);
                    Db db(&dbEnv, 0);
                    db.open(txn, dbName.c_str(), name.c_str(), DB_BTREE, DB_RDONLY, FREEZE_SCRIPT_DB_MODE);
                    descriptor->dump(communicator, &db, txn, facet);
                    db.close(0);
                }
            }
            else
            {
                //
                // Dump a map database.
                //
                Db db(&dbEnv, 0);
                db.open(txn, dbName.c_str(), 0, DB_BTREE, DB_RDONLY, FREEZE_SCRIPT_DB_MODE);
                descriptor->dump(communicator, &db, txn, "");
                db.close(0);
            }
        }
        catch(const IceXML::ParserException& ex)
        {
            errorReporter->error(ex.reason());
        }
    }
    catch(const DbException& ex)
    {
        cerr << appName << ": database error: " << ex.what() << endl;
        status = EXIT_FAILURE;
    }
    catch(...)
    {
        try
        {
            if(txn)
            {
                txn->abort();
            }
            dbEnv.close(0);
        }
        catch(const DbException& ex)
        {
            cerr << appName << ": database error: " << ex.what() << endl;
        }
        if(connection)
        {
            connection->close();
            connection = 0;
        }
        throw;
    }

    try
    {
        if(txn)
        {
            txn->abort();
        }
        if(connection)
        {
            connection->close();
        }
        dbEnv.close(0);
    }
    catch(const DbException& ex)
    {
        cerr << appName << ": database error: " << ex.what() << endl;
        status = EXIT_FAILURE;
    }

    return status;
}