示例#1
0
        public void RespondBoardRespondingToRetries()
        {
            //Create a SubSystem with dummy factory.
            dummyConversationFactory dumConvoFact = new dummyConversationFactory();
            WaitingRoom    waitingRoom            = new WaitingRoom();
            PlayerAppState playerAppState         = new PlayerAppState(waitingRoom);
            SubSystem      commSubSys             = new SubSystem(dumConvoFact, playerAppState);
            //Note: we dont want to start the threads of the subSystem.

            //Create Conversation
            RespondTurns respondTurnsConvo = new RespondTurns();

            respondTurnsConvo.SubSystem      = commSubSys;
            respondTurnsConvo.RemoteEndPoint = new IPEndPoint(IPAddress.Parse("1.1.1.1"), 1111);

            //Create fake incoming env.
            Envelope IncomingEnv = new Envelope(new ResultMessage(true, 1, true, true, false, -1, -1, new Identifier(0, 1), new Identifier(0, 1)), new IPEndPoint(IPAddress.Parse("1.1.1.1"), 1111), new IPEndPoint(IPAddress.Parse("2.2.2.2"), 2222), false);

            //Set the incoming env.
            respondTurnsConvo.IncomingEnvelope = IncomingEnv;
            respondTurnsConvo.recievedMessagesDict.TryAdd(IncomingEnv.Message.MessageNumber.ToString(), IncomingEnv);

            //Start the conversation
            respondTurnsConvo.Launch();

            Thread.Sleep(500);

            //check the outgoing message.
            Assert.IsTrue(commSubSys.outQueue.Count >= 1);

            //Give a duplicate message.
            respondTurnsConvo.Process(IncomingEnv);

            Thread.Sleep(500);

            //check the outgoing message.
            Assert.IsTrue(commSubSys.outQueue.Count >= 2);

            //get count of outgoing messages for later.
            int countOfOutGoingMessages = commSubSys.outQueue.Count;

            //Wait for timeout time
            Thread.Sleep(2000);

            //Check that there are no new messages.
            Assert.IsTrue(countOfOutGoingMessages == commSubSys.outQueue.Count);

            //Cheack that thread has ended.
            respondTurnsConvo.Process(IncomingEnv); //If thread was running outgoing messages should go up.
            Thread.Sleep(500);
            Assert.IsTrue(countOfOutGoingMessages == commSubSys.outQueue.Count);

            //Close the communicators for next test.
            commSubSys.udpcomm.closeCommunicator();
            commSubSys.tcpcomm.closeCommunicator();
        }
示例#2
0
        public void TurnsFullProtocolTest()
        {
            //Create a SubSystem with dummy factory.
            dummyConversationFactory dumConvoFact1 = new dummyConversationFactory();
            GMAppState gmAppState  = new GMAppState();
            SubSystem  commSubSys1 = new SubSystem(dumConvoFact1, gmAppState);
            //dummyCoversationFactory dumConvoFact2 = new dummyCoversationFactory();
            //SubSystem commSubSys2;
            //Note: Its a little strange that we are only using one subsystem here. Using two wont work because we have hard coded the Sockets that UDP and TCP are using and we can't bind to the same sockets.
            //Note: we dont want to start the threads of the subSystem.

            //get the initial process id. This test will check that the conversation changes it.
            int startingProcessId = commSubSys1.ProcessID;

            //Create Initiator conversation
            Turns turnsConvo = new Turns();

            turnsConvo.SubSystem      = commSubSys1;
            turnsConvo.RemoteEndPoint = new IPEndPoint(IPAddress.Parse("1.1.1.1"), 1111);

            ////Create Responder Conversation
            RespondTurns   respondTurnsConvo = new RespondTurns();
            WaitingRoom    waitingRoom       = new WaitingRoom();
            PlayerAppState playerAppState    = new PlayerAppState(waitingRoom);
            SubSystem      commSubSys2       = new SubSystem(dumConvoFact1, playerAppState);

            respondTurnsConvo.SubSystem      = commSubSys2;
            respondTurnsConvo.RemoteEndPoint = new IPEndPoint(IPAddress.Parse("2.2.2.2"), 2222);

            //Start Initiator Conversation
            turnsConvo.Launch();

            //Wait for conversation to send message.
            Thread.Sleep(500);

            //Check for outgoing message.
            Assert.IsTrue(commSubSys1.outQueue.Count >= 1);

            //Get message and put into responder conversation
            Envelope initiatorEnv;

            if (!commSubSys1.outQueue.TryDequeue(out initiatorEnv))
            {
                Assert.Fail();
            }
            respondTurnsConvo.IncomingEnvelope = initiatorEnv;
            respondTurnsConvo.ConversationId   = initiatorEnv.Message.ConversationId;

            //Start the responder conversation
            respondTurnsConvo.Launch();

            //Wait for conversation to send message
            Thread.Sleep(1000);

            //Check for outgoing message from responder conversation.
            Assert.IsTrue(commSubSys2.outQueue.Count >= 1);

            //Get responder reply and give to initiator.
            Envelope responderEnv;

            if (!commSubSys2.outQueue.TryDequeue(out responderEnv))
            {
                Assert.Fail();
            }
            turnsConvo.Process(responderEnv);

            //Check that the process Id was changed. Note: This is the
            Assert.IsTrue(startingProcessId == commSubSys1.ProcessID);

            //Check that gmAppState is correct
            Assert.AreEqual(gmAppState.gameId, 0);
            Assert.IsTrue(gmAppState.P1turn);

            //Check that playerAppState is correct
            Assert.AreEqual(playerAppState.gameId, 0);
            Assert.IsFalse(playerAppState.lastShotHit);
            Assert.IsTrue(playerAppState.turn);
            Assert.IsFalse(playerAppState.won);

            //Close the communicators for next test.
            commSubSys1.udpcomm.closeCommunicator();
            commSubSys1.tcpcomm.closeCommunicator();
        }