// Copyright 2012-2018 The NATS Authors // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package test import ( "bytes" "fmt" "math" "regexp" "runtime" "sync" "sync/atomic" "testing" "time" "github.com/nats-io/go-nats" ) func TestCloseLeakingGoRoutines(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() // Give time for things to settle before capturing the number of // go routines time.Sleep(500 * time.Millisecond) base := runtime.NumGoroutine() nc := NewDefaultConnection(t) nc.Flush() nc.Close() // Give time for things to settle before capturing the number of // go routines waitFor(t, 2*time.Second, 100*time.Millisecond, func() error { delta := (runtime.NumGoroutine() - base) if delta > 0 { return fmt.Errorf("%d Go routines still exist post Close()", delta) } return nil }) // Make sure we can call Close() multiple times nc.Close() } func TestLeakingGoRoutinesOnFailedConnect(t *testing.T) { // Give time for things to settle before capturing the number of // go routines time.Sleep(500 * time.Millisecond) base := runtime.NumGoroutine() nc, err := nats.Connect(nats.DefaultURL) if err == nil { nc.Close() t.Fatalf("Expected failure to connect") } // Give time for things to settle before capturing the number of // go routines waitFor(t, 2*time.Second, 100*time.Millisecond, func() error { delta := (runtime.NumGoroutine() - base) if delta > 0 { return fmt.Errorf("%d Go routines still exist post Close()", delta) } return nil }) } func TestConnectedServer(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() u := nc.ConnectedUrl() if u == "" || u != nats.DefaultURL { t.Fatalf("Unexpected connected URL of %s\n", u) } srv := nc.ConnectedServerId() if srv == "" { t.Fatal("Expected a connected server id") } nc.Close() u = nc.ConnectedUrl() if u != "" { t.Fatalf("Expected a nil connected URL, got %s\n", u) } srv = nc.ConnectedServerId() if srv != "" { t.Fatalf("Expected a nil connect server, got %s\n", srv) } } func TestMultipleClose(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) var wg sync.WaitGroup for i := 0; i < 10; i++ { wg.Add(1) go func() { nc.Close() wg.Done() }() } wg.Wait() } func TestBadOptionTimeoutConnect(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() opts := nats.GetDefaultOptions() opts.Timeout = -1 opts.Url = "nats://localhost:4222" _, err := opts.Connect() if err == nil { t.Fatal("Expected an error") } if err != nats.ErrNoServers { t.Fatalf("Expected a ErrNoServers error: Got %v\n", err) } } func TestSimplePublish(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() if err := nc.Publish("foo", []byte("Hello World")); err != nil { t.Fatal("Failed to publish string message: ", err) } } func TestSimplePublishNoData(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() if err := nc.Publish("foo", nil); err != nil { t.Fatal("Failed to publish empty message: ", err) } } func TestPublishDoesNotFailOnSlowConsumer(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() sub, err := nc.SubscribeSync("foo") if err != nil { t.Fatalf("Unable to create subscription: %v", err) } if err := sub.SetPendingLimits(1, 1000); err != nil { t.Fatalf("Unable to set pending limits: %v", err) } var pubErr error msg := []byte("Hello") for i := 0; i < 10; i++ { pubErr = nc.Publish("foo", msg) if pubErr != nil { break } nc.Flush() } if pubErr != nil { t.Fatalf("Publish() should not fail because of slow consumer. Got '%v'", pubErr) } } func TestAsyncSubscribe(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() omsg := []byte("Hello World") ch := make(chan bool) // Callback is mandatory if _, err := nc.Subscribe("foo", nil); err == nil { t.Fatal("Creating subscription without callback should have failed") } _, err := nc.Subscribe("foo", func(m *nats.Msg) { if !bytes.Equal(m.Data, omsg) { t.Fatal("Message received does not match") } if m.Sub == nil { t.Fatal("Callback does not have a valid Subscription") } ch <- true }) if err != nil { t.Fatal("Failed to subscribe: ", err) } nc.Publish("foo", omsg) if e := Wait(ch); e != nil { t.Fatal("Message not received for subscription") } } func TestAsyncSubscribeRoutineLeakOnUnsubscribe(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() ch := make(chan bool) // Give time for things to settle before capturing the number of // go routines time.Sleep(500 * time.Millisecond) // Take the base once the connection is established, but before // the subscriber is created. base := runtime.NumGoroutine() sub, err := nc.Subscribe("foo", func(m *nats.Msg) { ch <- true }) if err != nil { t.Fatal("Failed to subscribe: ", err) } // Send to ourself nc.Publish("foo", []byte("hello")) // This ensures that the async delivery routine is up and running. if err := Wait(ch); err != nil { t.Fatal("Failed to receive message") } // Make sure to give it time to go back into wait time.Sleep(200 * time.Millisecond) // Explicit unsubscribe sub.Unsubscribe() // Give time for things to settle before capturing the number of // go routines waitFor(t, 2*time.Second, 100*time.Millisecond, func() error { delta := (runtime.NumGoroutine() - base) if delta > 0 { return fmt.Errorf("%d Go routines still exist post Unsubscribe()", delta) } return nil }) } func TestAsyncSubscribeRoutineLeakOnClose(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() ch := make(chan bool) // Give time for things to settle before capturing the number of // go routines time.Sleep(500 * time.Millisecond) // Take the base before creating the connection, since we are going // to close it before taking the delta. base := runtime.NumGoroutine() nc := NewDefaultConnection(t) defer nc.Close() _, err := nc.Subscribe("foo", func(m *nats.Msg) { ch <- true }) if err != nil { t.Fatal("Failed to subscribe: ", err) } // Send to ourself nc.Publish("foo", []byte("hello")) // This ensures that the async delivery routine is up and running. if err := Wait(ch); err != nil { t.Fatal("Failed to receive message") } // Make sure to give it time to go back into wait time.Sleep(200 * time.Millisecond) // Close connection without explicit unsubscribe nc.Close() // Give time for things to settle before capturing the number of // go routines waitFor(t, 2*time.Second, 100*time.Millisecond, func() error { delta := (runtime.NumGoroutine() - base) if delta > 0 { return fmt.Errorf("%d Go routines still exist post Close()", delta) } return nil }) } func TestSyncSubscribe(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() sub, err := nc.SubscribeSync("foo") if err != nil { t.Fatal("Failed to subscribe: ", err) } omsg := []byte("Hello World") nc.Publish("foo", omsg) msg, err := sub.NextMsg(1 * time.Second) if err != nil || !bytes.Equal(msg.Data, omsg) { t.Fatal("Message received does not match") } } func TestPubSubWithReply(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() sub, err := nc.SubscribeSync("foo") if err != nil { t.Fatal("Failed to subscribe: ", err) } omsg := []byte("Hello World") nc.PublishMsg(&nats.Msg{Subject: "foo", Reply: "bar", Data: omsg}) msg, err := sub.NextMsg(10 * time.Second) if err != nil || !bytes.Equal(msg.Data, omsg) { t.Fatal("Message received does not match") } } func TestFlush(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() omsg := []byte("Hello World") for i := 0; i < 10000; i++ { nc.Publish("flush", omsg) } if err := nc.FlushTimeout(0); err == nil { t.Fatal("Calling FlushTimeout() with invalid timeout should fail") } if err := nc.Flush(); err != nil { t.Fatalf("Received error from flush: %s\n", err) } if nb, _ := nc.Buffered(); nb > 0 { t.Fatalf("Outbound buffer not empty: %d bytes\n", nb) } nc.Close() if _, err := nc.Buffered(); err == nil { t.Fatal("Calling Buffered() on closed connection should fail") } } func TestQueueSubscriber(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() s1, _ := nc.QueueSubscribeSync("foo", "bar") s2, _ := nc.QueueSubscribeSync("foo", "bar") omsg := []byte("Hello World") nc.Publish("foo", omsg) nc.Flush() r1, _ := s1.QueuedMsgs() r2, _ := s2.QueuedMsgs() if (r1 + r2) != 1 { t.Fatal("Received too many messages for multiple queue subscribers") } // Drain messages s1.NextMsg(time.Second) s2.NextMsg(time.Second) total := 1000 for i := 0; i < total; i++ { nc.Publish("foo", omsg) } nc.Flush() v := uint(float32(total) * 0.15) r1, _ = s1.QueuedMsgs() r2, _ = s2.QueuedMsgs() if r1+r2 != total { t.Fatalf("Incorrect number of messages: %d vs %d", (r1 + r2), total) } expected := total / 2 d1 := uint(math.Abs(float64(expected - r1))) d2 := uint(math.Abs(float64(expected - r2))) if d1 > v || d2 > v { t.Fatalf("Too much variance in totals: %d, %d > %d", d1, d2, v) } } func TestReplyArg(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() ch := make(chan bool) replyExpected := "bar" nc.Subscribe("foo", func(m *nats.Msg) { if m.Reply != replyExpected { t.Fatalf("Did not receive correct reply arg in callback: "+ "('%s' vs '%s')", m.Reply, replyExpected) } ch <- true }) nc.PublishMsg(&nats.Msg{Subject: "foo", Reply: replyExpected, Data: []byte("Hello")}) if e := Wait(ch); e != nil { t.Fatal("Did not receive callback") } } func TestSyncReplyArg(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() replyExpected := "bar" sub, _ := nc.SubscribeSync("foo") nc.PublishMsg(&nats.Msg{Subject: "foo", Reply: replyExpected, Data: []byte("Hello")}) msg, err := sub.NextMsg(1 * time.Second) if err != nil { t.Fatal("Received an err on NextMsg()") } if msg.Reply != replyExpected { t.Fatalf("Did not receive correct reply arg in callback: "+ "('%s' vs '%s')", msg.Reply, replyExpected) } } func TestUnsubscribe(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() received := int32(0) max := int32(10) ch := make(chan bool) nc.Subscribe("foo", func(m *nats.Msg) { atomic.AddInt32(&received, 1) if received == max { err := m.Sub.Unsubscribe() if err != nil { t.Fatal("Unsubscribe failed with err:", err) } ch <- true } }) send := 20 for i := 0; i < send; i++ { nc.Publish("foo", []byte("hello")) } nc.Flush() <-ch r := atomic.LoadInt32(&received) if r != max { t.Fatalf("Received wrong # of messages after unsubscribe: %d vs %d", r, max) } } func TestDoubleUnsubscribe(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() sub, err := nc.SubscribeSync("foo") if err != nil { t.Fatal("Failed to subscribe: ", err) } if err = sub.Unsubscribe(); err != nil { t.Fatal("Unsubscribe failed with err:", err) } if err = sub.Unsubscribe(); err == nil { t.Fatal("Unsubscribe should have reported an error") } } func TestRequestTimeout(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() if _, err := nc.Request("foo", []byte("help"), 10*time.Millisecond); err == nil { t.Fatalf("Expected to receive a timeout error") } } func TestOldRequest(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc, err := nats.Connect(nats.DefaultURL, nats.UseOldRequestStyle()) if err != nil { t.Fatalf("Failed to connect: %v", err) } defer nc.Close() response := []byte("I will help you") nc.Subscribe("foo", func(m *nats.Msg) { nc.Publish(m.Reply, response) }) msg, err := nc.Request("foo", []byte("help"), 500*time.Millisecond) if err != nil { t.Fatalf("Received an error on Request test: %s", err) } if !bytes.Equal(msg.Data, response) { t.Fatalf("Received invalid response") } } func TestRequest(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() response := []byte("I will help you") nc.Subscribe("foo", func(m *nats.Msg) { nc.Publish(m.Reply, response) }) msg, err := nc.Request("foo", []byte("help"), 500*time.Millisecond) if err != nil { t.Fatalf("Received an error on Request test: %s", err) } if !bytes.Equal(msg.Data, response) { t.Fatalf("Received invalid response") } } func TestRequestNoBody(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() response := []byte("I will help you") nc.Subscribe("foo", func(m *nats.Msg) { nc.Publish(m.Reply, response) }) msg, err := nc.Request("foo", nil, 500*time.Millisecond) if err != nil { t.Fatalf("Received an error on Request test: %s", err) } if !bytes.Equal(msg.Data, response) { t.Fatalf("Received invalid response") } } func TestSimultaneousRequests(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() response := []byte("I will help you") nc.Subscribe("foo", func(m *nats.Msg) { nc.Publish(m.Reply, response) }) var wg sync.WaitGroup for i := 0; i < 50; i++ { wg.Add(1) go func() { if _, err := nc.Request("foo", nil, 2*time.Second); err != nil { t.Fatalf("Expected to receive a timeout error") } else { wg.Done() } }() } wg.Wait() } func TestRequestClose(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() wg := &sync.WaitGroup{} wg.Add(1) go func() { defer wg.Done() time.Sleep(100 * time.Millisecond) nc.Close() }() if _, err := nc.Request("foo", []byte("help"), 2*time.Second); err != nats.ErrInvalidConnection && err != nats.ErrConnectionClosed { t.Fatalf("Expected connection error: got %v", err) } wg.Wait() } func TestRequestCloseTimeout(t *testing.T) { // Make sure we return a timeout when we close // the connection even if response is queued. s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() response := []byte("I will help you") nc.Subscribe("foo", func(m *nats.Msg) { nc.Publish(m.Reply, response) nc.Close() }) if _, err := nc.Request("foo", nil, 1*time.Second); err == nil { t.Fatalf("Expected to receive a timeout error") } } func TestFlushInCB(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() ch := make(chan bool) nc.Subscribe("foo", func(_ *nats.Msg) { nc.Flush() ch <- true }) nc.Publish("foo", []byte("Hello")) if e := Wait(ch); e != nil { t.Fatal("Flush did not return properly in callback") } } func TestReleaseFlush(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) for i := 0; i < 1000; i++ { nc.Publish("foo", []byte("Hello")) } go nc.Close() nc.Flush() } func TestInbox(t *testing.T) { inbox := nats.NewInbox() if matched, _ := regexp.Match(`_INBOX.\S`, []byte(inbox)); !matched { t.Fatal("Bad INBOX format") } } func TestStats(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() data := []byte("The quick brown fox jumped over the lazy dog") iter := 10 for i := 0; i < iter; i++ { nc.Publish("foo", data) } if nc.OutMsgs != uint64(iter) { t.Fatalf("Not properly tracking OutMsgs: received %d, wanted %d\n", nc.OutMsgs, iter) } obb := uint64(iter * len(data)) if nc.OutBytes != obb { t.Fatalf("Not properly tracking OutBytes: received %d, wanted %d\n", nc.OutBytes, obb) } // Clear outbound nc.OutMsgs, nc.OutBytes = 0, 0 // Test both sync and async versions of subscribe. nc.Subscribe("foo", func(_ *nats.Msg) {}) nc.SubscribeSync("foo") for i := 0; i < iter; i++ { nc.Publish("foo", data) } nc.Flush() if nc.InMsgs != uint64(2*iter) { t.Fatalf("Not properly tracking InMsgs: received %d, wanted %d\n", nc.InMsgs, 2*iter) } ibb := 2 * obb if nc.InBytes != ibb { t.Fatalf("Not properly tracking InBytes: received %d, wanted %d\n", nc.InBytes, ibb) } } func TestRaceSafeStats(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() go nc.Publish("foo", []byte("Hello World")) time.Sleep(200 * time.Millisecond) stats := nc.Stats() if stats.OutMsgs != uint64(1) { t.Fatalf("Not properly tracking OutMsgs: received %d, wanted %d\n", nc.OutMsgs, 1) } } func TestBadSubject(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc := NewDefaultConnection(t) defer nc.Close() err := nc.Publish("", []byte("Hello World")) if err == nil { t.Fatalf("Expected an error on bad subject to publish") } if err != nats.ErrBadSubject { t.Fatalf("Expected a ErrBadSubject error: Got %v\n", err) } } func TestOptions(t *testing.T) { s := RunDefaultServer() defer s.Shutdown() nc, err := nats.Connect(nats.DefaultURL, nats.Name("myName"), nats.MaxReconnects(2), nats.ReconnectWait(50*time.Millisecond), nats.PingInterval(20*time.Millisecond)) if err != nil { t.Fatalf("Failed to connect: %v", err) } defer nc.Close() rch := make(chan bool) cch := make(chan bool) nc.SetReconnectHandler(func(_ *nats.Conn) { rch <- true }) nc.SetClosedHandler(func(_ *nats.Conn) { cch <- true }) s.Shutdown() s = RunDefaultServer() defer s.Shutdown() if err := Wait(rch); err != nil { t.Fatal("Failed getting reconnected cb") } nc.Close() if err := Wait(cch); err != nil { t.Fatal("Failed getting closed cb") } nc, err = nats.Connect(nats.DefaultURL, nats.NoReconnect()) if err != nil { t.Fatalf("Failed to connect: %v", err) } defer nc.Close() nc.SetReconnectHandler(func(_ *nats.Conn) { rch <- true }) nc.SetClosedHandler(func(_ *nats.Conn) { cch <- true }) s.Shutdown() // We should not get a reconnect cb this time if err := WaitTime(rch, time.Second); err == nil { t.Fatal("Unexpected reconnect cb") } nc.Close() if err := Wait(cch); err != nil { t.Fatal("Failed getting closed cb") } } func TestNilConnection(t *testing.T) { var nc *nats.Conn data := []byte("ok") // Publish if err := nc.Publish("foo", data); err == nil || err != nats.ErrInvalidConnection { t.Fatalf("Expected ErrInvalidConnection error, got %v\n", err) } if err := nc.PublishMsg(nil); err == nil || err != nats.ErrInvalidMsg { t.Fatalf("Expected ErrInvalidMsg error, got %v\n", err) } if err := nc.PublishMsg(&nats.Msg{}); err == nil || err != nats.ErrInvalidConnection { t.Fatalf("Expected ErrInvalidConnection error, got %v\n", err) } if err := nc.PublishRequest("foo", "reply", data); err == nil || err != nats.ErrInvalidConnection { t.Fatalf("Expected ErrInvalidConnection error, got %v\n", err) } // Subscribe if _, err := nc.Subscribe("foo", nil); err == nil || err != nats.ErrInvalidConnection { t.Fatalf("Expected ErrInvalidConnection error, got %v\n", err) } if _, err := nc.SubscribeSync("foo"); err == nil || err != nats.ErrInvalidConnection { t.Fatalf("Expected ErrInvalidConnection error, got %v\n", err) } if _, err := nc.QueueSubscribe("foo", "bar", nil); err == nil || err != nats.ErrInvalidConnection { t.Fatalf("Expected ErrInvalidConnection error, got %v\n", err) } ch := make(chan *nats.Msg) if _, err := nc.ChanSubscribe("foo", ch); err == nil || err != nats.ErrInvalidConnection { t.Fatalf("Expected ErrInvalidConnection error, got %v\n", err) } if _, err := nc.ChanQueueSubscribe("foo", "bar", ch); err == nil || err != nats.ErrInvalidConnection { t.Fatalf("Expected ErrInvalidConnection error, got %v\n", err) } if _, err := nc.QueueSubscribeSyncWithChan("foo", "bar", ch); err == nil || err != nats.ErrInvalidConnection { t.Fatalf("Expected ErrInvalidConnection error, got %v\n", err) } // Flush if err := nc.Flush(); err == nil || err != nats.ErrInvalidConnection { t.Fatalf("Expected ErrInvalidConnection error, got %v\n", err) } if err := nc.FlushTimeout(time.Millisecond); err == nil || err != nats.ErrInvalidConnection { t.Fatalf("Expected ErrInvalidConnection error, got %v\n", err) } // Nil Subscribers var sub *nats.Subscription if sub.Type() != nats.NilSubscription { t.Fatalf("Got wrong type for nil subscription, %v\n", sub.Type()) } if sub.IsValid() { t.Fatalf("Expected IsValid() to return false") } if err := sub.Unsubscribe(); err == nil || err != nats.ErrBadSubscription { t.Fatalf("Expected Unsubscribe to return proper error, got %v\n", err) } if err := sub.AutoUnsubscribe(1); err == nil || err != nats.ErrBadSubscription { t.Fatalf("Expected ErrBadSubscription error, got %v\n", err) } if _, err := sub.NextMsg(time.Millisecond); err == nil || err != nats.ErrBadSubscription { t.Fatalf("Expected ErrBadSubscription error, got %v\n", err) } if _, err := sub.QueuedMsgs(); err == nil || err != nats.ErrBadSubscription { t.Fatalf("Expected ErrBadSubscription error, got %v\n", err) } if _, _, err := sub.Pending(); err == nil || err != nats.ErrBadSubscription { t.Fatalf("Expected ErrBadSubscription error, got %v\n", err) } if _, _, err := sub.MaxPending(); err == nil || err != nats.ErrBadSubscription { t.Fatalf("Expected ErrBadSubscription error, got %v\n", err) } if err := sub.ClearMaxPending(); err == nil || err != nats.ErrBadSubscription { t.Fatalf("Expected ErrBadSubscription error, got %v\n", err) } if _, _, err := sub.PendingLimits(); err == nil || err != nats.ErrBadSubscription { t.Fatalf("Expected ErrBadSubscription error, got %v\n", err) } if err := sub.SetPendingLimits(1, 1); err == nil || err != nats.ErrBadSubscription { t.Fatalf("Expected ErrBadSubscription error, got %v\n", err) } if _, err := sub.Delivered(); err == nil || err != nats.ErrBadSubscription { t.Fatalf("Expected ErrBadSubscription error, got %v\n", err) } if _, err := sub.Dropped(); err == nil || err != nats.ErrBadSubscription { t.Fatalf("Expected ErrBadSubscription error, got %v\n", err) } }