Exemplo n.º 1
0
void
oneways(const Ice::CommunicatorPtr&, const Test::MyClassPrxPtr& proxy)
{
    Test::MyClassPrxPtr p = ICE_UNCHECKED_CAST(Test::MyClassPrx, proxy->ice_oneway());
    
    {
        p->ice_ping();
    }

    {
        try
        {
            p->ice_isA("dummy");
            test(false);
        }
#ifdef ICE_CPP11_MAPPING
        catch(const IceUtil::IllegalArgumentException&)
#else
        catch(const Ice::TwowayOnlyException&)
#endif
        {
        }
    }

    {
        try
        {
            p->ice_id();
            test(false);
        }
#ifdef ICE_CPP11_MAPPING
        catch(const IceUtil::IllegalArgumentException&)
#else
        catch(const Ice::TwowayOnlyException&)
#endif
        {
        }
    }

    {
        try
        {
            p->ice_ids();
            test(false);
        }
#ifdef ICE_CPP11_MAPPING
        catch(const IceUtil::IllegalArgumentException&)
#else
        catch(const Ice::TwowayOnlyException&)
#endif
        {
        }
    }    

    {
        p->opVoid();
    }

    {
        p->opIdempotent();
    }

    {
        p->opNonmutating();
    }

    {
        Ice::Byte b;

        try
        {
            p->opByte(Ice::Byte(0xff), Ice::Byte(0x0f), b);
            test(false);
        }
#ifdef ICE_CPP11_MAPPING
        catch(const IceUtil::IllegalArgumentException&)
#else
        catch(const Ice::TwowayOnlyException&)
#endif
        {
        }
    }

}
Exemplo n.º 2
0
Test::MyClassPrxPtr
allTests(const Ice::CommunicatorPtr& communicator)
{
    string ref = "test:" + getTestEndpoint(communicator, 0);
    Ice::ObjectPrxPtr base = communicator->stringToProxy(ref);
    test(base);

    Test::MyClassPrxPtr cl = ICE_CHECKED_CAST(Test::MyClassPrx, base);
    test(cl);

    Test::MyClassPrxPtr oneway = cl->ice_oneway();
    Test::MyClassPrxPtr batchOneway = cl->ice_batchOneway();

    cout << "testing ice_invoke... " << flush;

    {
        Ice::ByteSeq inEncaps, outEncaps;
        if(!oneway->ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps, outEncaps))
        {
            test(false);
        }

        test(batchOneway->ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps, outEncaps));
        test(batchOneway->ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps, outEncaps));
        test(batchOneway->ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps, outEncaps));
        test(batchOneway->ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps, outEncaps));
        batchOneway->ice_flushBatchRequests();

        Ice::OutputStream out(communicator);
        out.startEncapsulation();
        out.write(testString);
        out.endEncapsulation();
        out.finished(inEncaps);

        // ice_invoke
        if(cl->ice_invoke("opString", ICE_ENUM(OperationMode, Normal), inEncaps, outEncaps))
        {
            Ice::InputStream in(communicator, out.getEncoding(), outEncaps);
            in.startEncapsulation();
            string s;
            in.read(s);
            test(s == testString);
            in.read(s);
            test(s == testString);
            in.endEncapsulation();
        }
        else
        {
            test(false);
        }

        // ice_invoke with array mapping
        pair<const ::Ice::Byte*, const ::Ice::Byte*> inPair(&inEncaps[0], &inEncaps[0] + inEncaps.size());
        if(cl->ice_invoke("opString", ICE_ENUM(OperationMode, Normal), inPair, outEncaps))
        {
            Ice::InputStream in(communicator, out.getEncoding(), outEncaps);
            in.startEncapsulation();
            string s;
            in.read(s);
            test(s == testString);
            in.read(s);
            test(s == testString);
            in.endEncapsulation();
        }
        else
        {
            test(false);
        }
    }

    for(int i = 0; i < 2; ++i)
    {
        Ice::ByteSeq inEncaps, outEncaps;
        Ice::Context ctx;
        if(i == 1)
        {
            ctx["raise"] = "";
        }
        if(cl->ice_invoke("opException", ICE_ENUM(OperationMode, Normal), inEncaps, outEncaps, ctx))
        {
            test(false);
        }
        else
        {
            Ice::InputStream in(communicator, cl->ice_getEncodingVersion(), outEncaps);
            in.startEncapsulation();
            try
            {
                in.throwException();
            }
            catch(const Test::MyException&)
            {
            }
            catch(...)
            {
                test(false);
            }
            in.endEncapsulation();
        }
    }

    cout << "ok" << endl;

    cout << "testing asynchronous ice_invoke... " << flush;
#ifdef ICE_CPP11_MAPPING

    {
        Ice::ByteSeq inEncaps;
        batchOneway->ice_invokeAsync("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps,
            [](bool, const vector<Ice::Byte>)
            {
                test(false);
            },
            [](exception_ptr)
            {
                test(false);
            },
            [](bool)
            {
                test(false);
            });
        batchOneway->ice_flushBatchRequests();
    }
    //
    // repeat with the future API.
    //
    {
        Ice::ByteSeq inEncaps;
        test(batchOneway->ice_invokeAsync("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps).get().returnValue);
        test(batchOneway->ice_invokeAsync("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps).get().returnValue);
        test(batchOneway->ice_invokeAsync("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps).get().returnValue);
        test(batchOneway->ice_invokeAsync("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps).get().returnValue);
        batchOneway->ice_flushBatchRequests();
    }

    {
        promise<bool> completed;
        Ice::ByteSeq inEncaps, outEncaps;
        oneway->ice_invokeAsync(
            "opOneway",
            OperationMode::Normal,
            inEncaps,
            nullptr,
            [&](exception_ptr ex)
            {
                completed.set_exception(ex);
            },
            [&](bool)
            {
                completed.set_value(true);
            });

        test(completed.get_future().get());
    }

    //
    // repeat with the future API.
    //

    {
        Ice::ByteSeq inEncaps, outEncaps;
        auto completed = oneway->ice_invokeAsync("opOneway", OperationMode::Normal, inEncaps);
        test(completed.get().returnValue);
    }

    {
        promise<bool> completed;
        Ice::ByteSeq inEncaps, outEncaps;
        Ice::OutputStream out(communicator);
        out.startEncapsulation();
        out.write(testString);
        out.endEncapsulation();
        out.finished(inEncaps);

        cl->ice_invokeAsync("opString", OperationMode::Normal, inEncaps,
            [&](bool ok, vector<Ice::Byte> outParams)
            {
                outEncaps = move(outParams);
                completed.set_value(ok);
            },
            [&](exception_ptr ex)
            {
                completed.set_exception(ex);
            });
        test(completed.get_future().get());

        Ice::InputStream in(communicator, outEncaps);
        in.startEncapsulation();
        string s;
        in.read(s);
        test(s == testString);
        in.read(s);
        test(s == testString);
        in.endEncapsulation();
    }
    //
    // repeat with the future API.
    //
    {
        Ice::ByteSeq inEncaps, outEncaps;
        Ice::OutputStream out(communicator);
        out.startEncapsulation();
        out.write(testString);
        out.endEncapsulation();
        out.finished(inEncaps);

        auto result = cl->ice_invokeAsync("opString", OperationMode::Normal, inEncaps).get();
        test(result.returnValue);

        Ice::InputStream in(communicator, result.outParams);
        in.startEncapsulation();
        string s;
        in.read(s);
        test(s == testString);
        in.read(s);
        test(s == testString);
        in.endEncapsulation();
    }

    {
        promise<bool> completed;
        promise<void> sent;
        Ice::ByteSeq inEncaps, outEncaps;
        Ice::OutputStream out(communicator);
        out.startEncapsulation();
        out.write(testString);
        out.endEncapsulation();
        out.finished(inEncaps);

        auto inPair = make_pair(inEncaps.data(), inEncaps.data() + inEncaps.size());

        cl->ice_invokeAsync("opString", OperationMode::Normal, inPair,
            [&](bool ok, pair<const Ice::Byte*, const Ice::Byte*> outParams)
            {
                vector<Ice::Byte>(outParams.first, outParams.second).swap(outEncaps);
                completed.set_value(ok);
            },
            [&](exception_ptr ex)
            {
                completed.set_exception(ex);
            },
            [&](bool)
            {
                sent.set_value();
            });
        sent.get_future().get(); // Ensure sent callback was called
        test(completed.get_future().get());

        Ice::InputStream in(communicator, outEncaps);
        in.startEncapsulation();
        string s;
        in.read(s);
        test(s == testString);
        in.read(s);
        test(s == testString);
        in.endEncapsulation();
    }
    //
    // repeat with the future API.
    //

    {
        Ice::ByteSeq inEncaps, outEncaps;
        Ice::OutputStream out(communicator);
        out.startEncapsulation();
        out.write(testString);
        out.endEncapsulation();
        out.finished(inEncaps);

        auto inPair = make_pair(inEncaps.data(), inEncaps.data() + inEncaps.size());

        auto result = cl->ice_invokeAsync("opString", OperationMode::Normal, inPair).get();
        test(result.returnValue);

        Ice::InputStream in(communicator, result.outParams);
        in.startEncapsulation();
        string s;
        in.read(s);
        test(s == testString);
        in.read(s);
        test(s == testString);
        in.endEncapsulation();
    }

    {
        promise<bool> completed;
        promise<void> sent;
        Ice::ByteSeq inEncaps, outEncaps;

        cl->ice_invokeAsync("opException", OperationMode::Normal, inEncaps,
            [&](bool ok, vector<Ice::Byte> outParams)
            {
                outEncaps = move(outParams);
                completed.set_value(ok);
            },
            [&](exception_ptr ex)
            {
                completed.set_exception(ex);
            },
            [&](bool)
            {
                sent.set_value();
            });
        sent.get_future().get(); // Ensure sent callback was called
        test(!completed.get_future().get());

        Ice::InputStream in(communicator, outEncaps);
        in.startEncapsulation();
        try
        {
            in.throwException();
            test(false);
        }
        catch(const Test::MyException&)
        {
        }
        catch(...)
        {
            test(false);
        }
    }
    //
    // repeat with the future API.
    //
    {
        Ice::ByteSeq inEncaps;
        auto result = cl->ice_invokeAsync("opException", OperationMode::Normal, inEncaps).get();
        test(!result.returnValue);

        Ice::InputStream in(communicator, result.outParams);
        in.startEncapsulation();
        try
        {
            in.throwException();
            test(false);
        }
        catch(const Test::MyException&)
        {
        }
        catch(...)
        {
            test(false);
        }
    }

#else
    void (::Callback::*nullEx)(const Ice::Exception&) = 0;
    void (::Callback::*nullExWC)(const Ice::Exception&, const CookiePtr&) = 0;

    {
        Ice::ByteSeq inEncaps, outEncaps;
        test(batchOneway->end_ice_invoke(outEncaps, batchOneway->begin_ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps)));
        test(batchOneway->end_ice_invoke(outEncaps, batchOneway->begin_ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps)));
        test(batchOneway->end_ice_invoke(outEncaps, batchOneway->begin_ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps)));
        test(batchOneway->end_ice_invoke(outEncaps, batchOneway->begin_ice_invoke("opOneway", ICE_ENUM(OperationMode, Normal), inEncaps)));
        batchOneway->ice_flushBatchRequests();
    }

    {
        CookiePtr cookie = new Cookie();

        Ice::ByteSeq inEncaps, outEncaps;
        Ice::AsyncResultPtr result = oneway->begin_ice_invoke("opOneway", Ice::Normal, inEncaps);
        if(!oneway->end_ice_invoke(outEncaps, result))
        {
            test(false);
        }

        Ice::OutputStream out(communicator);
        out.startEncapsulation();
        out.write(testString);
        out.endEncapsulation();
        out.finished(inEncaps);

        // begin_ice_invoke with no callback
        result = cl->begin_ice_invoke("opString", Ice::Normal, inEncaps);
        if(cl->end_ice_invoke(outEncaps, result))
        {
            Ice::InputStream in(communicator, out.getEncoding(), outEncaps);
            in.startEncapsulation();
            string s;
            in.read(s);
            test(s == testString);
            in.read(s);
            test(s == testString);
            in.endEncapsulation();
        }
        else
        {
            test(false);
        }

        // begin_ice_invoke with no callback and array mapping
        pair<const ::Ice::Byte*, const ::Ice::Byte*> inPair(&inEncaps[0], &inEncaps[0] + inEncaps.size());
        result = cl->begin_ice_invoke("opString", Ice::Normal, inPair);
        if(cl->end_ice_invoke(outEncaps, result))
        {
            Ice::InputStream in(communicator, out.getEncoding(), outEncaps);
            in.startEncapsulation();
            string s;
            in.read(s);
            test(s == testString);
            in.read(s);
            test(s == testString);
            in.endEncapsulation();
        }
        else
        {
            test(false);
        }

        // begin_ice_invoke with Callback
        ::CallbackPtr cb = new ::Callback(communicator, false);
        cl->begin_ice_invoke("opString", Ice::Normal, inEncaps, Ice::newCallback(cb, &Callback::opString));
        cb->check();

        // begin_ice_invoke with Callback and Cookie
        cb = new ::Callback(communicator, true);
        cl->begin_ice_invoke("opString", Ice::Normal, inEncaps, Ice::newCallback(cb, &Callback::opString), cookie);
        cb->check();

        // begin_ice_invoke with Callback_Object_ice_invoke
        cb = new ::Callback(communicator, false);
        Ice::Callback_Object_ice_invokePtr d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opStringNC, nullEx);
        cl->begin_ice_invoke("opString", Ice::Normal, inEncaps, d);
        cb->check();

        // begin_ice_invoke with Callback_Object_ice_invoke with Cookie
        cb = new ::Callback(communicator, false);
        d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opStringWC, nullExWC);
        cl->begin_ice_invoke("opString", Ice::Normal, inEncaps, d, cookie);
        cb->check();

        // begin_ice_invoke with Callback_Object_ice_invoke and array mapping
        cb = new ::Callback(communicator, false);
        d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opStringNC, nullEx);
        cl->begin_ice_invoke("opString", Ice::Normal, inPair, d);
        cb->check();

        // begin_ice_invoke with Callback_Object_ice_invoke and array mapping with Cookie
        cb = new ::Callback(communicator, false);
        d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opStringWC, nullExWC);
        cl->begin_ice_invoke("opString", Ice::Normal, inPair, d, cookie);
        cb->check();
    }

    {
        CookiePtr cookie = new Cookie();
        Ice::ByteSeq inEncaps, outEncaps;

        // begin_ice_invoke with no callback
        Ice::AsyncResultPtr result = cl->begin_ice_invoke("opException", Ice::Normal, inEncaps);
        if(cl->end_ice_invoke(outEncaps, result))
        {
            test(false);
        }
        else
        {
            Ice::InputStream in(communicator, cl->ice_getEncodingVersion(), outEncaps);
            in.startEncapsulation();
            try
            {
                in.throwException();
            }
            catch(const Test::MyException&)
            {
            }
            catch(...)
            {
                test(false);
            }
            in.endEncapsulation();
        }

        // begin_ice_invoke with Callback
        ::CallbackPtr cb = new ::Callback(communicator, false);
        cl->begin_ice_invoke("opException", Ice::Normal, inEncaps, Ice::newCallback(cb, &Callback::opException));
        cb->check();

        // begin_ice_invoke with Callback and Cookie
        cb = new ::Callback(communicator, true);
        cl->begin_ice_invoke("opException", Ice::Normal, inEncaps, Ice::newCallback(cb, &Callback::opException),
                             cookie);
        cb->check();

        // begin_ice_invoke with Callback_Object_ice_invoke
        cb = new ::Callback(communicator, false);
        Ice::Callback_Object_ice_invokePtr d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opExceptionNC, nullEx);
        cl->begin_ice_invoke("opException", Ice::Normal, inEncaps, d);
        cb->check();

        // begin_ice_invoke with Callback_Object_ice_invoke with Cookie
        cb = new ::Callback(communicator, false);
        d = Ice::newCallback_Object_ice_invoke(cb, &Callback::opExceptionWC, nullExWC);
        cl->begin_ice_invoke("opException", Ice::Normal, inEncaps, d, cookie);
        cb->check();
    }
#endif
    cout << "ok" << endl;
    return cl;
}