func TestClientOverMax(t *testing.T) { rs := NewServer() k := key.Key("hello") numProvidersForHelloKey := 100 for i := 0; i < numProvidersForHelloKey; i++ { pi := testutil.RandIdentityOrFatal(t) err := rs.Client(pi).Provide(context.Background(), k) if err != nil { t.Fatal(err) } } max := 10 pi := testutil.RandIdentityOrFatal(t) client := rs.Client(pi) providersFromClient := client.FindProvidersAsync(context.Background(), k, max) i := 0 for _ = range providersFromClient { i++ } if i != max { t.Fatal("Too many providers returned") } }
func TestSendMessageAsyncButWaitForResponse(t *testing.T) { net := VirtualNetwork(mockrouting.NewServer(), delay.Fixed(0)) responderPeer := testutil.RandIdentityOrFatal(t) waiter := net.Adapter(testutil.RandIdentityOrFatal(t)) responder := net.Adapter(responderPeer) var wg sync.WaitGroup wg.Add(1) expectedStr := "received async" responder.SetDelegate(lambda(func( ctx context.Context, fromWaiter peer.ID, msgFromWaiter bsmsg.BitSwapMessage) { msgToWaiter := bsmsg.New(true) msgToWaiter.AddBlock(blocks.NewBlock([]byte(expectedStr))) waiter.SendMessage(ctx, fromWaiter, msgToWaiter) })) waiter.SetDelegate(lambda(func( ctx context.Context, fromResponder peer.ID, msgFromResponder bsmsg.BitSwapMessage) { // TODO assert that this came from the correct peer and that the message contents are as expected ok := false for _, b := range msgFromResponder.Blocks() { if string(b.Data) == expectedStr { wg.Done() ok = true } } if !ok { t.Fatal("Message not received from the responder") } })) messageSentAsync := bsmsg.New(true) messageSentAsync.AddBlock(blocks.NewBlock([]byte("data"))) errSending := waiter.SendMessage( context.Background(), responderPeer.ID(), messageSentAsync) if errSending != nil { t.Fatal(errSending) } wg.Wait() // until waiter delegate function is executed }
func TestClientFindProviders(t *testing.T) { pi := testutil.RandIdentityOrFatal(t) rs := NewServer() client := rs.Client(pi) k := key.Key("hello") err := client.Provide(context.Background(), k) if err != nil { t.Fatal(err) } // This is bad... but simulating networks is hard time.Sleep(time.Millisecond * 300) max := 100 providersFromClient := client.FindProvidersAsync(context.Background(), key.Key("hello"), max) isInClient := false for pi := range providersFromClient { if pi.ID == pi.ID { isInClient = true } } if !isInClient { t.Fatal("Despite client providing key, client didn't receive peer when finding providers") } }
func TestValidAfter(t *testing.T) { pi := testutil.RandIdentityOrFatal(t) var key = key.Key("mock key") var ctx = context.Background() conf := DelayConfig{ ValueVisibility: delay.Fixed(1 * time.Hour), Query: delay.Fixed(0), } rs := NewServerWithDelay(conf) rs.Client(pi).Provide(ctx, key) var providers []peer.PeerInfo providers, err := rs.Client(pi).FindProviders(ctx, key) if err != nil { t.Fatal(err) } if len(providers) > 0 { t.Fail() } conf.ValueVisibility.Set(0) providers, err = rs.Client(pi).FindProviders(ctx, key) if err != nil { t.Fatal(err) } t.Log("providers", providers) if len(providers) != 1 { t.Fail() } }
// TODO does dht ensure won't receive self as a provider? probably not. func TestCanceledContext(t *testing.T) { rs := NewServer() k := key.Key("hello") // avoid leaking goroutine, without using the context to signal // (we want the goroutine to keep trying to publish on a // cancelled context until we've tested it doesnt do anything.) done := make(chan struct{}) defer func() { done <- struct{}{} }() t.Log("async'ly announce infinite stream of providers for key") i := 0 go func() { // infinite stream for { select { case <-done: t.Log("exiting async worker") return default: } pi, err := testutil.RandIdentity() if err != nil { t.Error(err) } err = rs.Client(pi).Provide(context.Background(), k) if err != nil { t.Error(err) } i++ } }() local := testutil.RandIdentityOrFatal(t) client := rs.Client(local) t.Log("warning: max is finite so this test is non-deterministic") t.Log("context cancellation could simply take lower priority") t.Log("and result in receiving the max number of results") max := 1000 t.Log("cancel the context before consuming") ctx, cancelFunc := context.WithCancel(context.Background()) cancelFunc() providers := client.FindProvidersAsync(ctx, k, max) numProvidersReturned := 0 for _ = range providers { numProvidersReturned++ } t.Log(numProvidersReturned) if numProvidersReturned == max { t.Fatal("Context cancel had no effect") } }
func TestKeyNotFound(t *testing.T) { var pi = testutil.RandIdentityOrFatal(t) var key = key.Key("mock key") var ctx = context.Background() rs := NewServer() providers := rs.Client(pi).FindProvidersAsync(ctx, key, 10) _, ok := <-providers if ok { t.Fatal("should be closed") } }
func TestReprovide(t *testing.T) { ctx, cancel := context.WithCancel(context.Background()) defer cancel() mrserv := mock.NewServer() idA := testutil.RandIdentityOrFatal(t) idB := testutil.RandIdentityOrFatal(t) clA := mrserv.Client(idA) clB := mrserv.Client(idB) bstore := blockstore.NewBlockstore(dssync.MutexWrap(ds.NewMapDatastore())) blk := blocks.NewBlock([]byte("this is a test")) bstore.Put(blk) reprov := NewReprovider(clA, bstore) err := reprov.Reprovide(ctx) if err != nil { t.Fatal(err) } provs, err := clB.FindProviders(ctx, blk.Key()) if err != nil { t.Fatal(err) } if len(provs) == 0 { t.Fatal("Should have gotten a provider") } if provs[0].ID != idA.ID() { t.Fatal("Somehow got the wrong peer back as a provider.") } }