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// **********************************************************************
//
// Copyright (c) 2003-2016 ZeroC, Inc. All rights reserved.
//
// This copy of Ice is licensed to you under the terms described in the
// ICE_LICENSE file included in this distribution.
//
// **********************************************************************
#include <Ice/Ice.h>
#include <IceUtil/Random.h>
#include <TestCommon.h>
#include <Test.h>
#include <Dispatcher.h>
using namespace std;
namespace
{
class Callback
#ifndef ICE_CPP11_MAPPING
: public IceUtil::Shared
#endif
{
public:
Callback() :
_called(false)
{
}
void check()
{
IceUtil::Monitor<IceUtil::Mutex>::Lock sync(_m);
while(!_called)
{
_m.wait();
}
_called = false;
}
void
response()
{
test(Dispatcher::isDispatcherThread());
called();
}
void
exception(const Ice::Exception& ex)
{
test(dynamic_cast<const Ice::NoEndpointException*>(&ex));
test(Dispatcher::isDispatcherThread());
called();
}
void responseEx()
{
test(false);
}
void exceptionEx(const ::Ice::Exception& ex)
{
test(dynamic_cast<const Ice::InvocationTimeoutException*>(&ex));
test(Dispatcher::isDispatcherThread());
called();
}
void
payload()
{
test(Dispatcher::isDispatcherThread());
}
void
ignoreEx(const Ice::Exception& ex)
{
test(dynamic_cast<const Ice::CommunicatorDestroyedException*>(&ex));
}
void
sent(bool sentSynchronously)
{
test(sentSynchronously || Dispatcher::isDispatcherThread());
_sentSynchronously = sentSynchronously;
}
bool
sentSynchronously()
{
return _sentSynchronously;
}
protected:
void called()
{
IceUtil::Monitor<IceUtil::Mutex>::Lock sync(_m);
assert(!_called);
_called = true;
_m.notify();
}
private:
IceUtil::Monitor<IceUtil::Mutex> _m;
bool _called;
bool _sentSynchronously;
};
ICE_DEFINE_PTR(CallbackPtr, Callback);
}
void
allTests(const Ice::CommunicatorPtr& communicator)
{
string sref = "test:" + getTestEndpoint(communicator, 0);
Ice::ObjectPrxPtr obj = communicator->stringToProxy(sref);
test(obj);
Test::TestIntfPrxPtr p = ICE_UNCHECKED_CAST(Test::TestIntfPrx, obj);
sref = "testController:" + getTestEndpoint(communicator, 1, "tcp");
obj = communicator->stringToProxy(sref);
test(obj);
Test::TestIntfControllerPrxPtr testController = ICE_UNCHECKED_CAST(Test::TestIntfControllerPrx, obj);
cout << "testing dispatcher... " << flush;
{
p->op();
CallbackPtr cb = ICE_MAKE_SHARED(Callback);
#ifdef ICE_CPP11_MAPPING
p->opAsync(
[cb]()
{
cb->response();
},
[cb](exception_ptr err)
{
try
{
rethrow_exception(err);
}
catch(const Ice::Exception& ex)
{
cb->exception(ex);
}
});
cb->check();
auto i = p->ice_adapterId("dummy");
i->opAsync(
[cb]()
{
cb->response();
},
[cb](exception_ptr err)
{
try
{
rethrow_exception(err);
}
catch(const Ice::Exception& ex)
{
cb->exception(ex);
}
});
cb->check();
{
//
// Expect InvocationTimeoutException.
//
auto to = p->ice_invocationTimeout(250);
to->sleepAsync(500,
[cb]()
{
cb->responseEx();
},
[cb](exception_ptr err)
{
try
{
rethrow_exception(err);
}
catch(const Ice::Exception& ex)
{
cb->exceptionEx(ex);
}
});
cb->check();
}
testController->holdAdapter();
Ice::ByteSeq seq;
seq.resize(1024); // Make sure the request doesn't compress too well.
for(Ice::ByteSeq::iterator q = seq.begin(); q != seq.end(); ++q)
{
*q = static_cast<Ice::Byte>(IceUtilInternal::random(255));
}
vector<shared_ptr<promise<void>>> completed;
while(true)
{
auto s = make_shared<promise<bool>>();
auto fs = s->get_future();
auto c = make_shared<promise<void>>();
p->opWithPayloadAsync(seq,
[=]()
{
c->set_value();
},
[=](exception_ptr)
{
c->set_value();
},
[=](bool sent)
{
s->set_value(sent);
});
completed.push_back(c);
if(fs.wait_for(chrono::milliseconds(0)) != future_status::ready || !fs.get())
{
break;
}
}
testController->resumeAdapter();
for(auto& c : completed)
{
c->get_future().get();
}
#else
Test::Callback_TestIntf_opPtr callback = Test::newCallback_TestIntf_op(cb,
&Callback::response,
&Callback::exception);
p->begin_op(callback);
cb->check();
Test::TestIntfPrx i = p->ice_adapterId("dummy");
i->begin_op(callback);
cb->check();
{
//
// Expect InvocationTimeoutException.
//
Test::TestIntfPrx to = p->ice_invocationTimeout(250);
to->begin_sleep(500, Test::newCallback_TestIntf_sleep(cb, &Callback::responseEx, &Callback::exceptionEx));
cb->check();
}
testController->holdAdapter();
Test::Callback_TestIntf_opWithPayloadPtr callback2 =
Test::newCallback_TestIntf_opWithPayload(cb, &Callback::payload, &Callback::ignoreEx, &Callback::sent);
Ice::ByteSeq seq;
seq.resize(1024); // Make sure the request doesn't compress too well.
for(Ice::ByteSeq::iterator q = seq.begin(); q != seq.end(); ++q)
{
*q = static_cast<Ice::Byte>(IceUtilInternal::random(255));
}
Ice::AsyncResultPtr result;
while((result = p->begin_opWithPayload(seq, callback2))->sentSynchronously());
testController->resumeAdapter();
result->waitForCompleted();
#endif
}
cout << "ok" << endl;
p->shutdown();
}
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