Example #1
0
func Test_NoReceiving_After_Unsubscribe(t *testing.T) {
	testutil.SkipIfDisabled(t)
	testutil.SkipIfShort(t)
	a := assert.New(t)

	node1 := newTestClusterNode(t, testClusterNodeConfig{
		HttpListen: "localhost:8086",
		NodeID:     1,
		NodePort:   20006,
		Remotes:    "localhost:20006",
	})
	a.NotNil(node1)
	defer node1.cleanup(true)

	node2 := newTestClusterNode(t, testClusterNodeConfig{
		HttpListen: "localhost:8087",
		NodeID:     2,
		NodePort:   20007,
		Remotes:    "localhost:20006",
	})
	a.NotNil(node2)
	defer node2.cleanup(true)

	node1.FCM.setupRoundTripper(20*time.Millisecond, 10, fcm.SuccessFCMResponse)
	node2.FCM.setupRoundTripper(20*time.Millisecond, 10, fcm.SuccessFCMResponse)

	// subscribe on first node
	node1.Subscribe(testTopic, "1")
	time.Sleep(50 * time.Millisecond)

	// connect a client and send a message
	client1, err := node1.client("user1", 1000, true)
	err = client1.Send(testTopic, "body", "{jsonHeader:1}")
	a.NoError(err)

	// only one message should be received but only on the first node.
	// Every message should be delivered only once.
	node1.FCM.checkReceived(1)
	node2.FCM.checkReceived(0)

	// Unsubscribe
	node2.Unsubscribe(testTopic, "1")
	time.Sleep(50 * time.Millisecond)

	// reset the counter
	node1.FCM.reset()

	// and send a message again. No one should receive it
	err = client1.Send(testTopic, "body", "{jsonHeader:1}")
	a.NoError(err)

	// only one message should be received but only on the second node.
	// Every message should be delivered only once.
	node1.FCM.checkReceived(0)
	node2.FCM.checkReceived(0)
}
Example #2
0
func TestNexmoSender_Send(t *testing.T) {
	a := assert.New(t)
	testutil.SkipIfDisabled(t)
	sender, err := NewNexmoSender(KEY, SECRET)
	a.NoError(err)

	sms := new(NexmoSms)
	sms.To = "+40746278186"
	sms.From = "REWE Lieferservice"
	sms.Text = "Lieber Kunde! Ihre Lieferung kommt heute zwischen 12.04 und 12.34 Uhr. Vielen Dank für Ihre Bestellung! Ihr REWE Lieferservice"

	response, err := sender.SendSms(sms)
	a.Equal(1, response.MessageCount)
	a.Equal(ResponseSuccess, response.Messages[0].Status)
	a.NoError(err)
}
Example #3
0
func TestRestMessageAPI_SetFiltersWhenServing(t *testing.T) {
	testutil.SkipIfDisabled(t)
	_, finish := testutil.NewMockCtrl(t)
	defer finish()
	a := assert.New(t)

	body := bytes.NewBufferString("")
	req, err := http.NewRequest(
		http.MethodPost,
		"http://localhost/test/message/topic?filterUserID=user01&filterDeviceID=ABC&filterDummyCamelCase=dummy_value",
		body)
	a.NoError(err)

	routerMock := NewMockRouter(testutil.MockCtrl)
	api := NewRestMessageAPI(routerMock, "/test/")
	recorder := httptest.NewRecorder()

	routerMock.EXPECT().HandleMessage(gomock.Any()).Do(func(msg *protocol.Message) error {
		a.NotNil(msg.Filters)
		if a.Contains(msg.Filters, "user_id") {
			a.Equal("user01", msg.Filters["user_id"])
		}
		if a.Contains(msg.Filters, "device_id") {
			a.Equal("ABC", msg.Filters["device_id"])
		}
		if a.Contains(msg.Filters, "dummy_camel_case") {
			a.Equal("dummy_value", msg.Filters["dummy_camel_case"])
		}

		return nil
	})

	api.ServeHTTP(recorder, req)

	time.Sleep(10 * time.Millisecond)
}
Example #4
0
func Test_Subscribe_working_After_Node_Restart(t *testing.T) {
	// defer testutil.EnableDebugForMethod()()
	testutil.SkipIfDisabled(t)
	testutil.SkipIfShort(t)
	a := assert.New(t)

	nodeConfig1 := testClusterNodeConfig{
		HttpListen: "localhost:8082",
		NodeID:     1,
		NodePort:   20002,
		Remotes:    "localhost:20002",
	}
	node1 := newTestClusterNode(t, nodeConfig1)
	a.NotNil(node1)

	node2 := newTestClusterNode(t, testClusterNodeConfig{
		HttpListen: "localhost:8083",
		NodeID:     2,
		NodePort:   20003,
		Remotes:    "localhost:20002",
	})
	a.NotNil(node2)
	defer node2.cleanup(true)

	node1.FCM.setupRoundTripper(20*time.Millisecond, 10, fcm.SuccessFCMResponse)
	node2.FCM.setupRoundTripper(20*time.Millisecond, 10, fcm.SuccessFCMResponse)

	// subscribe on first node
	node1.Subscribe(testTopic, "1")

	// connect a clinet and send a message
	client1, err := node1.client("user1", 1000, true)
	a.NoError(err)
	err = client1.Send(testTopic, "body", "{jsonHeader:1}")
	a.NoError(err)

	// one message should be received but only on the first node.
	// Every message should be delivered only once.
	node1.FCM.checkReceived(1)
	node2.FCM.checkReceived(0)

	// stop a node, cleanup without removing directories
	node1.cleanup(false)
	time.Sleep(time.Millisecond * 150)

	// restart the service
	restartedNode1 := newTestClusterNode(t, nodeConfig1)
	a.NotNil(restartedNode1)
	defer restartedNode1.cleanup(true)

	restartedNode1.FCM.setupRoundTripper(20*time.Millisecond, 10, fcm.SuccessFCMResponse)

	// send a message to the former subscription.
	client1, err = restartedNode1.client("user1", 1000, true)
	a.NoError(err)
	time.Sleep(time.Second)

	err = client1.Send(testTopic, "body", "{jsonHeader:1}")
	a.NoError(err, "Subscription should work even after node restart")

	// only one message should be received but only on the first node.
	// Every message should be delivered only once.
	restartedNode1.FCM.checkReceived(1)
	node2.FCM.checkReceived(0)
}
Example #5
0
func TestThroughput(t *testing.T) {
	// TODO: We disabled this test because the receiver implementation of fetching messages
	// should be reimplemented according to the new message store
	testutil.SkipIfDisabled(t)
	testutil.SkipIfShort(t)
	defer testutil.ResetDefaultRegistryHealthCheck()

	dir, _ := ioutil.TempDir("", "guble_benchmarking_test")

	*Config.HttpListen = "localhost:0"
	*Config.KVS = "memory"
	*Config.MS = "file"
	*Config.StoragePath = dir

	service := StartService()

	testgroupCount := 4
	messagesPerGroup := 100
	log.Printf("init the %v testgroups", testgroupCount)
	testgroups := make([]*testgroup, testgroupCount, testgroupCount)
	for i := range testgroups {
		testgroups[i] = newTestgroup(t, i, service.WebServer().GetAddr(), messagesPerGroup)
	}

	// init test
	log.Print("init the testgroups")
	for i := range testgroups {
		testgroups[i].Init()
	}

	defer func() {
		// cleanup tests
		log.Print("cleanup the testgroups")
		for i := range testgroups {
			testgroups[i].Clean()
		}

		service.Stop()

		os.RemoveAll(dir)
	}()

	// start test
	log.Print("start the testgroups")
	start := time.Now()
	for i := range testgroups {
		go testgroups[i].Start()
	}

	log.Print("wait for finishing")
	for i, test := range testgroups {
		select {
		case successFlag := <-test.done:
			if !successFlag {
				t.Logf("testgroup %v returned with error", i)
				t.FailNow()
				return
			}
		case <-time.After(time.Second * 20):
			t.Log("timeout. testgroups not ready before timeout")
			t.Fail()
			return
		}
	}

	end := time.Now()
	totalMessages := testgroupCount * messagesPerGroup
	throughput := float64(totalMessages) / end.Sub(start).Seconds()
	log.Printf("finished! Throughput: %v/sec (%v message in %v)", int(throughput), totalMessages, end.Sub(start))

	time.Sleep(time.Second * 1)
}