//+build functional package sarama import ( "fmt" "os" "strconv" "strings" "sync" "testing" "time" toxiproxy "github.com/Shopify/toxiproxy/client" "github.com/rcrowley/go-metrics" ) const TestBatchSize = 1000 func TestFuncProducing(t *testing.T) { config := NewConfig() testProducingMessages(t, config) } func TestFuncProducingGzip(t *testing.T) { config := NewConfig() config.Producer.Compression = CompressionGZIP testProducingMessages(t, config) } func TestFuncProducingSnappy(t *testing.T) { config := NewConfig() config.Producer.Compression = CompressionSnappy testProducingMessages(t, config) } func TestFuncProducingZstd(t *testing.T) { config := NewConfig() config.Version = V2_1_0_0 config.Producer.Compression = CompressionZSTD testProducingMessages(t, config) } func TestFuncProducingNoResponse(t *testing.T) { config := NewConfig() config.Producer.RequiredAcks = NoResponse testProducingMessages(t, config) } func TestFuncProducingFlushing(t *testing.T) { config := NewConfig() config.Producer.Flush.Messages = TestBatchSize / 8 config.Producer.Flush.Frequency = 250 * time.Millisecond testProducingMessages(t, config) } func TestFuncMultiPartitionProduce(t *testing.T) { setupFunctionalTest(t) defer teardownFunctionalTest(t) config := NewConfig() config.ChannelBufferSize = 20 config.Producer.Flush.Frequency = 50 * time.Millisecond config.Producer.Flush.Messages = 200 config.Producer.Return.Successes = true producer, err := NewSyncProducer(FunctionalTestEnv.KafkaBrokerAddrs, config) if err != nil { t.Fatal(err) } var wg sync.WaitGroup wg.Add(TestBatchSize) for i := 1; i <= TestBatchSize; i++ { go func(i int) { defer wg.Done() msg := &ProducerMessage{Topic: "test.64", Key: nil, Value: StringEncoder(fmt.Sprintf("hur %d", i))} if _, _, err := producer.SendMessage(msg); err != nil { t.Error(i, err) } }(i) } wg.Wait() if err := producer.Close(); err != nil { t.Error(err) } } func TestFuncProducingToInvalidTopic(t *testing.T) { setupFunctionalTest(t) defer teardownFunctionalTest(t) producer, err := NewSyncProducer(FunctionalTestEnv.KafkaBrokerAddrs, nil) if err != nil { t.Fatal(err) } if _, _, err := producer.SendMessage(&ProducerMessage{Topic: "in/valid"}); err != ErrUnknownTopicOrPartition { t.Error("Expected ErrUnknownTopicOrPartition, found", err) } if _, _, err := producer.SendMessage(&ProducerMessage{Topic: "in/valid"}); err != ErrUnknownTopicOrPartition { t.Error("Expected ErrUnknownTopicOrPartition, found", err) } safeClose(t, producer) } func TestFuncProducingIdempotentWithBrokerFailure(t *testing.T) { setupFunctionalTest(t) defer teardownFunctionalTest(t) config := NewConfig() config.Producer.Flush.Frequency = 250 * time.Millisecond config.Producer.Idempotent = true config.Producer.Timeout = 500 * time.Millisecond config.Producer.Retry.Max = 1 config.Producer.Retry.Backoff = 500 * time.Millisecond config.Producer.Return.Successes = true config.Producer.Return.Errors = true config.Producer.RequiredAcks = WaitForAll config.Net.MaxOpenRequests = 1 config.Version = V0_11_0_0 producer, err := NewSyncProducer(FunctionalTestEnv.KafkaBrokerAddrs, config) if err != nil { t.Fatal(err) } defer safeClose(t, producer) // Successfully publish a few messages for i := 0; i < 10; i++ { _, _, err = producer.SendMessage(&ProducerMessage{ Topic: "test.1", Value: StringEncoder(fmt.Sprintf("%d message", i)), }) if err != nil { t.Fatal(err) } } // break the brokers. for proxyName, proxy := range FunctionalTestEnv.Proxies { if !strings.Contains(proxyName, "kafka") { continue } if err := proxy.Disable(); err != nil { t.Fatal(err) } } // This should fail hard now for i := 10; i < 20; i++ { _, _, err = producer.SendMessage(&ProducerMessage{ Topic: "test.1", Value: StringEncoder(fmt.Sprintf("%d message", i)), }) if err == nil { t.Fatal(err) } } // Now bring the proxy back up for proxyName, proxy := range FunctionalTestEnv.Proxies { if !strings.Contains(proxyName, "kafka") { continue } if err := proxy.Enable(); err != nil { t.Fatal(err) } } // We should be able to publish again (once everything calms down) // (otherwise it times out) for { _, _, err = producer.SendMessage(&ProducerMessage{ Topic: "test.1", Value: StringEncoder("comeback message"), }) if err == nil { break } } } func TestInterceptors(t *testing.T) { config := NewConfig() setupFunctionalTest(t) defer teardownFunctionalTest(t) config.Producer.Return.Successes = true config.Consumer.Return.Errors = true config.Producer.Interceptors = []ProducerInterceptor{&appendInterceptor{i: 0}, &appendInterceptor{i: 100}} config.Consumer.Interceptors = []ConsumerInterceptor{&appendInterceptor{i: 20}} client, err := NewClient(FunctionalTestEnv.KafkaBrokerAddrs, config) if err != nil { t.Fatal(err) } initialOffset, err := client.GetOffset("test.1", 0, OffsetNewest) if err != nil { t.Fatal(err) } producer, err := NewAsyncProducerFromClient(client) if err != nil { t.Fatal(err) } for i := 0; i < 10; i++ { producer.Input() <- &ProducerMessage{Topic: "test.1", Key: nil, Value: StringEncoder(TestMessage)} } for i := 0; i < 10; i++ { select { case msg := <-producer.Errors(): t.Error(msg.Err) case msg := <-producer.Successes(): v, _ := msg.Value.Encode() expected := TestMessage + strconv.Itoa(i) + strconv.Itoa(i+100) if string(v) != expected { t.Errorf("Interceptor should have incremented the value, got %s, expected %s", v, expected) } } } safeClose(t, producer) master, err := NewConsumerFromClient(client) if err != nil { t.Fatal(err) } consumer, err := master.ConsumePartition("test.1", 0, initialOffset) if err != nil { t.Fatal(err) } for i := 0; i < 10; i++ { select { case <-time.After(10 * time.Second): t.Fatal("Not received any more events in the last 10 seconds.") case err := <-consumer.Errors(): t.Error(err) case msg := <-consumer.Messages(): prodInteExpectation := strconv.Itoa(i) + strconv.Itoa(i+100) consInteExpectation := strconv.Itoa(i + 20) expected := TestMessage + prodInteExpectation + consInteExpectation v := string(msg.Value) if v != expected { t.Errorf("Interceptor should have incremented the value, got %s, expected %s", v, expected) } } } safeClose(t, consumer) safeClose(t, client) } func testProducingMessages(t *testing.T, config *Config) { setupFunctionalTest(t) defer teardownFunctionalTest(t) // Configure some latency in order to properly validate the request latency metric for _, proxy := range FunctionalTestEnv.Proxies { if _, err := proxy.AddToxic("", "latency", "", 1, toxiproxy.Attributes{"latency": 10}); err != nil { t.Fatal("Unable to configure latency toxicity", err) } } config.Producer.Return.Successes = true config.Consumer.Return.Errors = true client, err := NewClient(FunctionalTestEnv.KafkaBrokerAddrs, config) if err != nil { t.Fatal(err) } // Keep in mind the current offset initialOffset, err := client.GetOffset("test.1", 0, OffsetNewest) if err != nil { t.Fatal(err) } producer, err := NewAsyncProducerFromClient(client) if err != nil { t.Fatal(err) } expectedResponses := TestBatchSize for i := 1; i <= TestBatchSize; { msg := &ProducerMessage{Topic: "test.1", Key: nil, Value: StringEncoder(fmt.Sprintf("testing %d", i))} select { case producer.Input() <- msg: i++ case ret := <-producer.Errors(): t.Fatal(ret.Err) case <-producer.Successes(): expectedResponses-- } } for expectedResponses > 0 { select { case ret := <-producer.Errors(): t.Fatal(ret.Err) case <-producer.Successes(): expectedResponses-- } } safeClose(t, producer) // Validate producer metrics before using the consumer minus the offset request validateMetrics(t, client) master, err := NewConsumerFromClient(client) if err != nil { t.Fatal(err) } consumer, err := master.ConsumePartition("test.1", 0, initialOffset) if err != nil { t.Fatal(err) } for i := 1; i <= TestBatchSize; i++ { select { case <-time.After(10 * time.Second): t.Fatal("Not received any more events in the last 10 seconds.") case err := <-consumer.Errors(): t.Error(err) case message := <-consumer.Messages(): if string(message.Value) != fmt.Sprintf("testing %d", i) { t.Fatalf("Unexpected message with index %d: %s", i, message.Value) } } } safeClose(t, consumer) safeClose(t, client) } func validateMetrics(t *testing.T, client Client) { // Get the broker used by test1 topic var broker *Broker if partitions, err := client.Partitions("test.1"); err != nil { t.Error(err) } else { for _, partition := range partitions { if b, err := client.Leader("test.1", partition); err != nil { t.Error(err) } else { if broker != nil && b != broker { t.Fatal("Expected only one broker, got at least 2") } broker = b } } } metricValidators := newMetricValidators() noResponse := client.Config().Producer.RequiredAcks == NoResponse compressionEnabled := client.Config().Producer.Compression != CompressionNone // We are adding 10ms of latency to all requests with toxiproxy minRequestLatencyInMs := 10 if noResponse { // but when we do not wait for a response it can be less than 1ms minRequestLatencyInMs = 0 } // We read at least 1 byte from the broker metricValidators.registerForAllBrokers(broker, minCountMeterValidator("incoming-byte-rate", 1)) // in at least 3 global requests (1 for metadata request, 1 for offset request and N for produce request) metricValidators.register(minCountMeterValidator("request-rate", 3)) metricValidators.register(minCountHistogramValidator("request-size", 3)) metricValidators.register(minValHistogramValidator("request-size", 1)) // and at least 2 requests to the registered broker (offset + produces) metricValidators.registerForBroker(broker, minCountMeterValidator("request-rate", 2)) metricValidators.registerForBroker(broker, minCountHistogramValidator("request-size", 2)) metricValidators.registerForBroker(broker, minValHistogramValidator("request-size", 1)) metricValidators.registerForBroker(broker, minValHistogramValidator("request-latency-in-ms", minRequestLatencyInMs)) // We send at least 1 batch metricValidators.registerForGlobalAndTopic("test_1", minCountHistogramValidator("batch-size", 1)) metricValidators.registerForGlobalAndTopic("test_1", minValHistogramValidator("batch-size", 1)) if compressionEnabled { // We record compression ratios between [0.50,-10.00] (50-1000 with a histogram) for at least one "fake" record metricValidators.registerForGlobalAndTopic("test_1", minCountHistogramValidator("compression-ratio", 1)) metricValidators.registerForGlobalAndTopic("test_1", minValHistogramValidator("compression-ratio", 50)) metricValidators.registerForGlobalAndTopic("test_1", maxValHistogramValidator("compression-ratio", 1000)) } else { // We record compression ratios of 1.00 (100 with a histogram) for every TestBatchSize record metricValidators.registerForGlobalAndTopic("test_1", countHistogramValidator("compression-ratio", TestBatchSize)) metricValidators.registerForGlobalAndTopic("test_1", minValHistogramValidator("compression-ratio", 100)) metricValidators.registerForGlobalAndTopic("test_1", maxValHistogramValidator("compression-ratio", 100)) } // We send exactly TestBatchSize messages metricValidators.registerForGlobalAndTopic("test_1", countMeterValidator("record-send-rate", TestBatchSize)) // We send at least one record per request metricValidators.registerForGlobalAndTopic("test_1", minCountHistogramValidator("records-per-request", 1)) metricValidators.registerForGlobalAndTopic("test_1", minValHistogramValidator("records-per-request", 1)) // We receive at least 1 byte from the broker metricValidators.registerForAllBrokers(broker, minCountMeterValidator("outgoing-byte-rate", 1)) if noResponse { // in exactly 2 global responses (metadata + offset) metricValidators.register(countMeterValidator("response-rate", 2)) metricValidators.register(minCountHistogramValidator("response-size", 2)) // and exactly 1 offset response for the registered broker metricValidators.registerForBroker(broker, countMeterValidator("response-rate", 1)) metricValidators.registerForBroker(broker, minCountHistogramValidator("response-size", 1)) metricValidators.registerForBroker(broker, minValHistogramValidator("response-size", 1)) } else { // in at least 3 global responses (metadata + offset + produces) metricValidators.register(minCountMeterValidator("response-rate", 3)) metricValidators.register(minCountHistogramValidator("response-size", 3)) // and at least 2 for the registered broker metricValidators.registerForBroker(broker, minCountMeterValidator("response-rate", 2)) metricValidators.registerForBroker(broker, minCountHistogramValidator("response-size", 2)) metricValidators.registerForBroker(broker, minValHistogramValidator("response-size", 1)) } // There should be no requests in flight anymore metricValidators.registerForAllBrokers(broker, counterValidator("requests-in-flight", 0)) // Run the validators metricValidators.run(t, client.Config().MetricRegistry) } // Benchmarks func BenchmarkProducerSmall(b *testing.B) { benchmarkProducer(b, nil, "test.64", ByteEncoder(make([]byte, 128))) } func BenchmarkProducerMedium(b *testing.B) { benchmarkProducer(b, nil, "test.64", ByteEncoder(make([]byte, 1024))) } func BenchmarkProducerLarge(b *testing.B) { benchmarkProducer(b, nil, "test.64", ByteEncoder(make([]byte, 8192))) } func BenchmarkProducerSmallSinglePartition(b *testing.B) { benchmarkProducer(b, nil, "test.1", ByteEncoder(make([]byte, 128))) } func BenchmarkProducerMediumSnappy(b *testing.B) { conf := NewConfig() conf.Producer.Compression = CompressionSnappy benchmarkProducer(b, conf, "test.1", ByteEncoder(make([]byte, 1024))) } func benchmarkProducer(b *testing.B, conf *Config, topic string, value Encoder) { setupFunctionalTest(b) defer teardownFunctionalTest(b) metricsDisable := os.Getenv("METRICS_DISABLE") if metricsDisable != "" { previousUseNilMetrics := metrics.UseNilMetrics Logger.Println("Disabling metrics using no-op implementation") metrics.UseNilMetrics = true // Restore previous setting defer func() { metrics.UseNilMetrics = previousUseNilMetrics }() } producer, err := NewAsyncProducer(FunctionalTestEnv.KafkaBrokerAddrs, conf) if err != nil { b.Fatal(err) } b.ResetTimer() for i := 1; i <= b.N; { msg := &ProducerMessage{Topic: topic, Key: StringEncoder(fmt.Sprintf("%d", i)), Value: value} select { case producer.Input() <- msg: i++ case ret := <-producer.Errors(): b.Fatal(ret.Err) } } safeClose(b, producer) }