package events import ( "fmt" "math/rand" "testing" "time" ) // TestAddListenerForEventFireOnce sets up an EventSwitch, subscribes a single // listener to an event, and sends a string "data". func TestAddListenerForEventFireOnce(t *testing.T) { evsw := NewEventSwitch() started, err := evsw.Start() if started == false || err != nil { t.Errorf("Failed to start EventSwitch, error: %v", err) } messages := make(chan EventData) evsw.AddListenerForEvent("listener", "event", func(data EventData) { messages <- data }) go evsw.FireEvent("event", "data") received := <-messages if received != "data" { t.Errorf("Message received does not match: %v", received) } } // TestAddListenerForEventFireMany sets up an EventSwitch, subscribes a single // listener to an event, and sends a thousand integers. func TestAddListenerForEventFireMany(t *testing.T) { evsw := NewEventSwitch() started, err := evsw.Start() if started == false || err != nil { t.Errorf("Failed to start EventSwitch, error: %v", err) } doneSum := make(chan uint64) doneSending := make(chan uint64) numbers := make(chan uint64, 4) // subscribe one listener for one event evsw.AddListenerForEvent("listener", "event", func(data EventData) { numbers <- data.(uint64) }) // collect received events go sumReceivedNumbers(numbers, doneSum) // go fire events go fireEvents(evsw, "event", doneSending, uint64(1)) checkSum := <-doneSending close(numbers) eventSum := <-doneSum if checkSum != eventSum { t.Errorf("Not all messages sent were received.\n") } } // TestAddListenerForDifferentEvents sets up an EventSwitch, subscribes a single // listener to three different events and sends a thousand integers for each // of the three events. func TestAddListenerForDifferentEvents(t *testing.T) { evsw := NewEventSwitch() started, err := evsw.Start() if started == false || err != nil { t.Errorf("Failed to start EventSwitch, error: %v", err) } doneSum := make(chan uint64) doneSending1 := make(chan uint64) doneSending2 := make(chan uint64) doneSending3 := make(chan uint64) numbers := make(chan uint64, 4) // subscribe one listener to three events evsw.AddListenerForEvent("listener", "event1", func(data EventData) { numbers <- data.(uint64) }) evsw.AddListenerForEvent("listener", "event2", func(data EventData) { numbers <- data.(uint64) }) evsw.AddListenerForEvent("listener", "event3", func(data EventData) { numbers <- data.(uint64) }) // collect received events go sumReceivedNumbers(numbers, doneSum) // go fire events go fireEvents(evsw, "event1", doneSending1, uint64(1)) go fireEvents(evsw, "event2", doneSending2, uint64(1)) go fireEvents(evsw, "event3", doneSending3, uint64(1)) var checkSum uint64 = 0 checkSum += <-doneSending1 checkSum += <-doneSending2 checkSum += <-doneSending3 close(numbers) eventSum := <-doneSum if checkSum != eventSum { t.Errorf("Not all messages sent were received.\n") } } // TestAddDifferentListenerForDifferentEvents sets up an EventSwitch, // subscribes a first listener to three events, and subscribes a second // listener to two of those three events, and then sends a thousand integers // for each of the three events. func TestAddDifferentListenerForDifferentEvents(t *testing.T) { evsw := NewEventSwitch() started, err := evsw.Start() if started == false || err != nil { t.Errorf("Failed to start EventSwitch, error: %v", err) } doneSum1 := make(chan uint64) doneSum2 := make(chan uint64) doneSending1 := make(chan uint64) doneSending2 := make(chan uint64) doneSending3 := make(chan uint64) numbers1 := make(chan uint64, 4) numbers2 := make(chan uint64, 4) // subscribe two listener to three events evsw.AddListenerForEvent("listener1", "event1", func(data EventData) { numbers1 <- data.(uint64) }) evsw.AddListenerForEvent("listener1", "event2", func(data EventData) { numbers1 <- data.(uint64) }) evsw.AddListenerForEvent("listener1", "event3", func(data EventData) { numbers1 <- data.(uint64) }) evsw.AddListenerForEvent("listener2", "event2", func(data EventData) { numbers2 <- data.(uint64) }) evsw.AddListenerForEvent("listener2", "event3", func(data EventData) { numbers2 <- data.(uint64) }) // collect received events for listener1 go sumReceivedNumbers(numbers1, doneSum1) // collect received events for listener2 go sumReceivedNumbers(numbers2, doneSum2) // go fire events go fireEvents(evsw, "event1", doneSending1, uint64(1)) go fireEvents(evsw, "event2", doneSending2, uint64(1001)) go fireEvents(evsw, "event3", doneSending3, uint64(2001)) checkSumEvent1 := <-doneSending1 checkSumEvent2 := <-doneSending2 checkSumEvent3 := <-doneSending3 checkSum1 := checkSumEvent1 + checkSumEvent2 + checkSumEvent3 checkSum2 := checkSumEvent2 + checkSumEvent3 close(numbers1) close(numbers2) eventSum1 := <-doneSum1 eventSum2 := <-doneSum2 if checkSum1 != eventSum1 || checkSum2 != eventSum2 { t.Errorf("Not all messages sent were received for different listeners to different events.\n") } } // TestAddAndRemoveListener sets up an EventSwitch, subscribes a listener to // two events, fires a thousand integers for the first event, then unsubscribes // the listener and fires a thousand integers for the second event. func TestAddAndRemoveListener(t *testing.T) { evsw := NewEventSwitch() started, err := evsw.Start() if started == false || err != nil { t.Errorf("Failed to start EventSwitch, error: %v", err) } doneSum1 := make(chan uint64) doneSum2 := make(chan uint64) doneSending1 := make(chan uint64) doneSending2 := make(chan uint64) numbers1 := make(chan uint64, 4) numbers2 := make(chan uint64, 4) // subscribe two listener to three events evsw.AddListenerForEvent("listener", "event1", func(data EventData) { numbers1 <- data.(uint64) }) evsw.AddListenerForEvent("listener", "event2", func(data EventData) { numbers2 <- data.(uint64) }) // collect received events for event1 go sumReceivedNumbers(numbers1, doneSum1) // collect received events for event2 go sumReceivedNumbers(numbers2, doneSum2) // go fire events go fireEvents(evsw, "event1", doneSending1, uint64(1)) checkSumEvent1 := <-doneSending1 // after sending all event1, unsubscribe for all events evsw.RemoveListener("listener") go fireEvents(evsw, "event2", doneSending2, uint64(1001)) checkSumEvent2 := <-doneSending2 close(numbers1) close(numbers2) eventSum1 := <-doneSum1 eventSum2 := <-doneSum2 if checkSumEvent1 != eventSum1 || // correct value asserted by preceding tests, suffices to be non-zero checkSumEvent2 == uint64(0) || eventSum2 != uint64(0) { t.Errorf("Not all messages sent were received or unsubscription did not register.\n") } } // TestAddAndRemoveListenersAsync sets up an EventSwitch, subscribes two // listeners to three events, and fires a thousand integers for each event. // These two listeners serve as the baseline validation while other listeners // are randomly subscribed and unsubscribed. // More precisely it randomly subscribes new listeners (different from the first // two listeners) to one of these three events. At the same time it starts // randomly unsubscribing these additional listeners from all events they are // at that point subscribed to. // NOTE: it is important to run this test with race conditions tracking on, // `go test -race`, to examine for possible race conditions. func TestRemoveListenersAsync(t *testing.T) { evsw := NewEventSwitch() started, err := evsw.Start() if started == false || err != nil { t.Errorf("Failed to start EventSwitch, error: %v", err) } doneSum1 := make(chan uint64) doneSum2 := make(chan uint64) doneSending1 := make(chan uint64) doneSending2 := make(chan uint64) doneSending3 := make(chan uint64) numbers1 := make(chan uint64, 4) numbers2 := make(chan uint64, 4) // subscribe two listener to three events evsw.AddListenerForEvent("listener1", "event1", func(data EventData) { numbers1 <- data.(uint64) }) evsw.AddListenerForEvent("listener1", "event2", func(data EventData) { numbers1 <- data.(uint64) }) evsw.AddListenerForEvent("listener1", "event3", func(data EventData) { numbers1 <- data.(uint64) }) evsw.AddListenerForEvent("listener2", "event1", func(data EventData) { numbers2 <- data.(uint64) }) evsw.AddListenerForEvent("listener2", "event2", func(data EventData) { numbers2 <- data.(uint64) }) evsw.AddListenerForEvent("listener2", "event3", func(data EventData) { numbers2 <- data.(uint64) }) // collect received events for event1 go sumReceivedNumbers(numbers1, doneSum1) // collect received events for event2 go sumReceivedNumbers(numbers2, doneSum2) addListenersStress := func() { s1 := rand.NewSource(time.Now().UnixNano()) r1 := rand.New(s1) for k := uint16(0); k < 400; k++ { listenerNumber := r1.Intn(100) + 3 eventNumber := r1.Intn(3) + 1 go evsw.AddListenerForEvent(fmt.Sprintf("listener%v", listenerNumber), fmt.Sprintf("event%v", eventNumber), func(_ EventData) {}) } } removeListenersStress := func() { s2 := rand.NewSource(time.Now().UnixNano()) r2 := rand.New(s2) for k := uint16(0); k < 80; k++ { listenerNumber := r2.Intn(100) + 3 go evsw.RemoveListener(fmt.Sprintf("listener%v", listenerNumber)) } } addListenersStress() // go fire events go fireEvents(evsw, "event1", doneSending1, uint64(1)) removeListenersStress() go fireEvents(evsw, "event2", doneSending2, uint64(1001)) go fireEvents(evsw, "event3", doneSending3, uint64(2001)) checkSumEvent1 := <-doneSending1 checkSumEvent2 := <-doneSending2 checkSumEvent3 := <-doneSending3 checkSum := checkSumEvent1 + checkSumEvent2 + checkSumEvent3 close(numbers1) close(numbers2) eventSum1 := <-doneSum1 eventSum2 := <-doneSum2 if checkSum != eventSum1 || checkSum != eventSum2 { t.Errorf("Not all messages sent were received.\n") } } //------------------------------------------------------------------------------ // Helper functions // sumReceivedNumbers takes two channels and adds all numbers received // until the receiving channel `numbers` is closed; it then sends the sum // on `doneSum` and closes that channel. Expected to be run in a go-routine. func sumReceivedNumbers(numbers, doneSum chan uint64) { var sum uint64 = 0 for { j, more := <-numbers sum += j if !more { doneSum <- sum close(doneSum) return } } } // fireEvents takes an EventSwitch and fires a thousand integers under // a given `event` with the integers mootonically increasing from `offset` // to `offset` + 999. It additionally returns the addition of all integers // sent on `doneChan` for assertion that all events have been sent, and enabling // the test to assert all events have also been received. func fireEvents(evsw EventSwitch, event string, doneChan chan uint64, offset uint64) { var sentSum uint64 = 0 for i := offset; i <= offset+uint64(999); i++ { sentSum += i evsw.FireEvent(event, i) } doneChan <- sentSum close(doneChan) return }