private async Task SendMessageAvro(string message)
        {
            var config = new ProducerConfig
            {
                BootstrapServers = "kafka:29092",
                ClientId         = Dns.GetHostName()
            };

            String key        = "key1";
            String userSchema = "{\"type\":\"record\"," +
                                "\"name\":\"myrecord\"," +
                                "\"fields\":[{\"name\":\"f1\",\"type\":\"string\"}]}";
            var           schema     = (RecordSchema)RecordSchema.Parse(userSchema);
            GenericRecord avroRecord = new GenericRecord(schema);

            avroRecord.Add("f1", "value");

            var schemaRegistryUrl = "http://schema-registry:8085";

            using (var schemaRegistry = new CachedSchemaRegistryClient(new SchemaRegistryConfig {
                Url = schemaRegistryUrl
            }))
            {
                using (var producer = new ProducerBuilder <string, GenericRecord>(config)
                                      .SetKeySerializer(new AvroSerializer <string>(schemaRegistry))
                                      .SetValueSerializer(new AvroSerializer <GenericRecord>(schemaRegistry))
                                      .Build())
                {
                    await producer.ProduceAsync("api-methods-requested-avro",
                                                new Message <string, GenericRecord> {
                        Key = Guid.NewGuid().ToString("N"), Value = avroRecord
                    });
                }
            }
        }
Exemplo n.º 2
0
        /**
         *      This is an example function that creates an Avro schema object based on pre-defined Avro JSON-like schema. It then
         *      adds some example data into the record fields, creates a buffer  associated with the record, and sends the buffer
         *      out through UDP connection.
         **/
        public static void sender()
        {
            /**
             * Creating a schema object by loading schema object file (.avsc)
             * Example.AVSC looks like this:
             *
             *          {"namespace": "example.avro",
             *           "type": "record",
             *           "name": "User",
             *           "fields": [
             *               {"name": "name", "type": "string"},
             *               {"name": "favorite_number",  "type": ["int", "null"]},
             *               {"name": "favorite_color", "type": ["string", "null"]}
             *           ]
             *          }
             **/
            var schema = RecordSchema.Parse(File.ReadAllText(@"C:\Users\user\src\example.avsc")) as RecordSchema;

            //Passing in schema object to get a record object
            var exampleRecorder = new GenericRecord(schema);

            //Filling out records with the corresponding schema
            exampleRecorder.Add("name", "myExample");
            exampleRecorder.Add("favorite_number", 999);
            exampleRecorder.Add("favorite_color", "read");

            //Creating an Avro buffer stream
            ByteBufferOutputStream buffer = new ByteBufferOutputStream();

            //Wraping the buffer stream with the encoder that does low level serialization
            Avro.IO.Encoder encoder = new BinaryEncoder(buffer);

            //Creating a writer with the corresponding schema object
            var writer = new DefaultWriter(schema);

            //Write (serialize) record object into buffer outputStream with encoder
            writer.Write <GenericRecord>(exampleRecorder, encoder);

            //And flush
            buffer.Flush();

            //Creating a UDP client
            UdpClient udpClient = new UdpClient(0);

            //Connect to endpoint with host and port number arguments
            udpClient.Connect("my_udp_end_point.com", 9999);

            //Get buffer list from buffer stream
            List <MemoryStream> bufferList = buffer.GetBufferList();

            //For each memory stream, creating a byte array, and deliver the byte array to endpoint
            //You actually do not need a foreach loop, because you will only have one memory stream
            foreach (MemoryStream ms in bufferList)
            {
                byte[] bufferArray;
                bufferArray = ms.ToArray();
                udpClient.Send(bufferArray, bufferArray.Length);
            }
            udpClient.Close();
        }
Exemplo n.º 3
0
 static AvroEventFormatter()
 {
     // we're going to confidently assume that the embedded schema works. If not, type initialization
     // will fail and that's okay since the type is useless without the proper schema
     using (var sr = new StreamReader(typeof(AvroEventFormatter).Assembly.GetManifestResourceStream("CloudNative.CloudEvents.Avro.AvroSchema.json")))
     {
         avroSchema = (RecordSchema)RecordSchema.Parse(sr.ReadToEnd());
     }
     avroReader = new DefaultReader(avroSchema, avroSchema);
     avroWriter = new DefaultWriter(avroSchema);
 }
        public static void ProduceGenericMultipleTopics(string bootstrapServers, string schemaRegistryServers)
        {
            var s = (RecordSchema)RecordSchema.Parse(
                @"{
                    ""namespace"": ""Confluent.Kafka.Examples.AvroSpecific"",
                    ""type"": ""record"",
                    ""name"": ""User"",
                    ""fields"": [
                        {""name"": ""name"", ""type"": ""string""},
                        {""name"": ""favorite_number"",  ""type"": [""int"", ""null""]},
                        {""name"": ""favorite_color"", ""type"": [""string"", ""null""]}
                    ]
                  }"
                );

            var config = new ProducerConfig {
                BootstrapServers = bootstrapServers
            };
            var schemaRegistryConfig = new SchemaRegistryConfig {
                SchemaRegistryUrl = schemaRegistryServers
            };

            var topic  = Guid.NewGuid().ToString();
            var topic2 = Guid.NewGuid().ToString();

            DeliveryResult <Null, GenericRecord> dr;
            DeliveryResult <Null, GenericRecord> dr2;

            using (var schemaRegistry = new CachedSchemaRegistryClient(schemaRegistryConfig))
                using (var p =
                           new ProducerBuilder <Null, GenericRecord>(config)
                           .SetKeySerializer(Serializers.Null)
                           .SetValueSerializer(new AvroSerializer <GenericRecord>(schemaRegistry))
                           .Build())
                {
                    var record = new GenericRecord(s);
                    record.Add("name", "my name 2");
                    record.Add("favorite_number", 44);
                    record.Add("favorite_color", null);
                    dr = p.ProduceAsync(topic, new Message <Null, GenericRecord> {
                        Key = null, Value = record
                    }).Result;
                    dr2 = p.ProduceAsync(topic2, new Message <Null, GenericRecord> {
                        Key = null, Value = record
                    }).Result;
                }

            Assert.Null(dr.Key);
            Assert.NotNull(dr.Value);

            Assert.Null(dr2.Key);
            Assert.NotNull(dr2.Value);
        }
        public async Task <string> PublishGenericAvroMessage(PublishSingleRequest request)
        {
            var schema = (RecordSchema)RecordSchema.Parse(
                @"{
                    ""namespace"": ""Kafka.Workshop.Avro"",
                    ""type"": ""record"",
                    ""name"": ""JustAMessage"",
                    ""fields"": [
                        {""name"": ""title"", ""type"": ""string""},
                        {""name"": ""message"",  ""type"": ""string""}
                    ]
                  }"
                );

            var cts = new CancellationTokenSource();

            using (var schemaRegistry = new CachedSchemaRegistryClient(new SchemaRegistryConfig
            {
                Url = _schemaRegistryUrl
            }))
                using (var producer =
                           new ProducerBuilder <string, GenericRecord>(new ProducerConfig
                {
                    BootstrapServers = _defaultBrokerString,
                    SocketTimeoutMs = 5000,
                    MessageTimeoutMs = 3000,
                    RequestTimeoutMs = 3000,
                })
                           .SetKeySerializer(new AvroSerializer <string>(schemaRegistry))
                           .SetValueSerializer(new AvroSerializer <GenericRecord>(schemaRegistry))
                           .Build())
                {
                    var record = new GenericRecord(schema);
                    record.Add("title", request.Message.Title);
                    record.Add("message", request.Message.Message);
                    var res = await producer
                              .ProduceAsync(request.Topic, new Message <string, GenericRecord> {
                        Key = "producer", Value = record
                    })
                              .ContinueWith(task => task.IsFaulted
                        ? $"Error producing message {task.Exception.Message}"
                        : $"Message sent to: {task.Result.TopicPartitionOffset}", cts.Token);

                    return(res);
                }
        }
Exemplo n.º 6
0
 public AvroSerializer(string schema, bool isPath)
 {
     if (isPath)
     {
         var fullPath = Path.GetFullPath(schema);
         if (File.Exists(fullPath))
         {
             Schema = Avro.RecordSchema.Parse(File.ReadAllText(fullPath));
         }
     }
     else
     {
         if (!string.IsNullOrEmpty(schema))
         {
             Schema = RecordSchema.Parse(schema);
         }
     }
 }
        public static void ProduceConsumeGeneric(string bootstrapServers, string schemaRegistryServers)
        {
            var s = (RecordSchema)RecordSchema.Parse(
                @"{
                    ""namespace"": ""Confluent.Kafka.Examples.AvroSpecific"",
                    ""type"": ""record"",
                    ""name"": ""User"",
                    ""fields"": [
                        {""name"": ""name"", ""type"": ""string""},
                        {""name"": ""favorite_number"",  ""type"": [""int"", ""null""]},
                        {""name"": ""favorite_color"", ""type"": [""string"", ""null""]}
                    ]
                  }"
                );

            var config = new ProducerConfig {
                BootstrapServers = bootstrapServers
            };
            var schemaRegistryConfig = new SchemaRegistryConfig {
                SchemaRegistryUrl = schemaRegistryServers
            };

            var topic = Guid.NewGuid().ToString();

            DeliveryResult <Null, GenericRecord> dr;

            using (var schemaRegistry = new CachedSchemaRegistryClient(schemaRegistryConfig))
                using (var p =
                           new ProducerBuilder <Null, GenericRecord>(config)
                           .SetKeySerializer(Serializers.Null)
                           .SetValueSerializer(new AvroSerializer <GenericRecord>(schemaRegistry))
                           .Build())
                {
                    var record = new GenericRecord(s);
                    record.Add("name", "my name 2");
                    record.Add("favorite_number", 44);
                    record.Add("favorite_color", null);
                    dr = p.ProduceAsync(topic, new Message <Null, GenericRecord> {
                        Value = record
                    }).Result;
                }

            // produce a specific record (to later consume back as a generic record).
            using (var schemaRegistry = new CachedSchemaRegistryClient(schemaRegistryConfig))
                using (var p =
                           new ProducerBuilder <Null, User>(config)
                           .SetKeySerializer(Serializers.Null)
                           .SetValueSerializer(new AvroSerializer <User>(schemaRegistry))
                           .Build())
                {
                    var user = new User
                    {
                        name            = "my name 3",
                        favorite_number = 47,
                        favorite_color  = "orange"
                    };

                    p.ProduceAsync(topic, new Message <Null, User> {
                        Value = user
                    }).Wait();
                }

            Assert.Null(dr.Message.Key);
            Assert.NotNull(dr.Message.Value);
            dr.Message.Value.TryGetValue("name", out object name);
            dr.Message.Value.TryGetValue("favorite_number", out object number);
            dr.Message.Value.TryGetValue("favorite_color", out object color);

            Assert.IsType <string>(name);
            Assert.IsType <int>(number);

            Assert.Equal("my name 2", name);
            Assert.Equal(44, number);
            Assert.Null(color);

            var cconfig = new ConsumerConfig {
                GroupId = Guid.NewGuid().ToString(), BootstrapServers = bootstrapServers
            };

            using (var schemaRegistry = new CachedSchemaRegistryClient(schemaRegistryConfig))
                using (var consumer =
                           new ConsumerBuilder <Null, GenericRecord>(cconfig)
                           .SetKeyDeserializer(Deserializers.Null)
                           .SetValueDeserializer(new AvroDeserializer <GenericRecord>(schemaRegistry).AsSyncOverAsync())
                           .Build())
                {
                    // consume generic record produced as a generic record.
                    consumer.Assign(new List <TopicPartitionOffset> {
                        new TopicPartitionOffset(topic, 0, dr.Offset)
                    });
                    var record = consumer.Consume(new CancellationTokenSource(TimeSpan.FromSeconds(10)).Token);
                    record.Message.Value.TryGetValue("name", out object msgName);
                    record.Message.Value.TryGetValue("favorite_number", out object msgNumber);
                    record.Message.Value.TryGetValue("favorite_color", out object msgColor);

                    Assert.IsType <string>(msgName);
                    Assert.IsType <int>(msgNumber);

                    Assert.Equal("my name 2", msgName);
                    Assert.Equal(44, msgNumber);
                    Assert.Null(msgColor);

                    // consume generic record produced as a specific record.
                    record = consumer.Consume(new CancellationTokenSource(TimeSpan.FromSeconds(10)).Token);
                    record.Message.Value.TryGetValue("name", out msgName);
                    record.Message.Value.TryGetValue("favorite_number", out msgNumber);
                    record.Message.Value.TryGetValue("favorite_color", out msgColor);

                    Assert.IsType <string>(msgName);
                    Assert.IsType <int>(msgNumber);
                    Assert.IsType <string>(msgColor);

                    Assert.Equal("my name 3", msgName);
                    Assert.Equal(47, msgNumber);
                    Assert.Equal("orange", msgColor);
                }

            using (var schemaRegistry = new CachedSchemaRegistryClient(schemaRegistryConfig))
                using (var consumer =
                           new ConsumerBuilder <Null, User>(cconfig)
                           .SetKeyDeserializer(Deserializers.Null)
                           .SetValueDeserializer(new AvroDeserializer <User>(schemaRegistry).AsSyncOverAsync())
                           .Build())
                {
                    consumer.Assign(new List <TopicPartitionOffset> {
                        new TopicPartitionOffset(topic, 0, dr.Offset)
                    });
                    var record = consumer.Consume(new CancellationTokenSource(TimeSpan.FromSeconds(10)).Token);
                    Assert.Equal("my name 2", record.Message.Value.name);
                    Assert.Equal(44, record.Message.Value.favorite_number);
                    Assert.Null(record.Message.Value.favorite_color);
                }
        }
Exemplo n.º 8
0
        static async Task Main(string[] args)
        {
            if (args.Length != 3)
            {
                Console.WriteLine("Usage: .. bootstrapServers schemaRegistryUrl topicName");
                return;
            }

            string bootstrapServers  = args[0];
            string schemaRegistryUrl = args[1];
            string topicName         = args[2];
            string groupName         = "avro-generic-example-group";

            // var s = (RecordSchema)RecordSchema.Parse(File.ReadAllText("my-schema.json"));
            var s = (RecordSchema)RecordSchema.Parse(
                @"{
                    ""namespace"": ""Confluent.Kafka.Examples.AvroSpecific"",
                    ""type"": ""record"",
                    ""name"": ""User"",
                    ""fields"": [
                        {""name"": ""name"", ""type"": ""string""},
                        {""name"": ""favorite_number"",  ""type"": [""int"", ""null""]},
                        {""name"": ""favorite_color"", ""type"": [""string"", ""null""]}
                    ]
                  }"
                );

            CancellationTokenSource cts = new CancellationTokenSource();
            var consumeTask             = Task.Run(() =>
            {
                using (var schemaRegistry = new CachedSchemaRegistryClient(new SchemaRegistryConfig {
                    SchemaRegistryUrl = schemaRegistryUrl
                }))
                    using (var consumer =
                               new ConsumerBuilder <string, GenericRecord>(new ConsumerConfig {
                        BootstrapServers = bootstrapServers, GroupId = groupName
                    })
                               .SetKeyDeserializer(new AvroDeserializer <string>(schemaRegistry))
                               .SetValueDeserializer(new AvroDeserializer <GenericRecord>(schemaRegistry))
                               .SetErrorHandler((_, e) => Console.WriteLine($"Error: {e.Reason}"))
                               .Build())
                    {
                        consumer.Subscribe(topicName);

                        try
                        {
                            while (true)
                            {
                                try
                                {
                                    var consumeResult = consumer.Consume(cts.Token);

                                    Console.WriteLine($"Key: {consumeResult.Message.Key}\nValue: {consumeResult.Value}");
                                }
                                catch (ConsumeException e)
                                {
                                    Console.WriteLine($"Consume error: {e.Error.Reason}");
                                }
                            }
                        }
                        catch (OperationCanceledException)
                        {
                            // commit final offsets and leave the group.
                            consumer.Close();
                        }
                    }
            });

            using (var schemaRegistry = new CachedSchemaRegistryClient(new SchemaRegistryConfig {
                SchemaRegistryUrl = schemaRegistryUrl
            }))
                using (var producer =
                           new ProducerBuilder <string, GenericRecord>(new ProducerConfig {
                    BootstrapServers = bootstrapServers
                })
                           .SetKeySerializer(new AvroSerializer <string>(schemaRegistry))
                           .SetValueSerializer(new AvroSerializer <GenericRecord>(schemaRegistry))
                           .Build())
                {
                    Console.WriteLine($"{producer.Name} producing on {topicName}. Enter user names, q to exit.");

                    int    i = 0;
                    string text;
                    while ((text = Console.ReadLine()) != "q")
                    {
                        var record = new GenericRecord(s);
                        record.Add("name", text);
                        record.Add("favorite_number", i++);
                        record.Add("favorite_color", "blue");

                        await producer
                        .ProduceAsync(topicName, new Message <string, GenericRecord> {
                            Key = text, Value = record
                        })
                        .ContinueWith(task => task.IsFaulted
                            ? $"error producing message: {task.Exception.Message}"
                            : $"produced to: {task.Result.TopicPartitionOffset}");
                    }
                }

            cts.Cancel();
        }
Exemplo n.º 9
0
        static async Task Main(string[] args)
        {
            if (args.Length != 3)
            {
                Console.WriteLine("Usage: .. bootstrapServers schemaRegistryUrl topicName");
                return;
            }

            string bootstrapServers  = args[0];
            string schemaRegistryUrl = args[1];
            string topicName         = args[2];
            string groupName         = "avro-generic-example-group";

            // var s = (RecordSchema)RecordSchema.Parse(File.ReadAllText("my-schema.json"));
            var s = (RecordSchema)RecordSchema.Parse(
                @"{
                    ""type"": ""record"",
                    ""name"": ""User"",
                    ""fields"": [
                        {""name"": ""name"", ""type"": ""string""},
                        {""name"": ""favorite_number"",  ""type"": ""long""},
                        {""name"": ""favorite_color"", ""type"": ""string""}
                    ]
                  }"
                );

            CancellationTokenSource cts = new CancellationTokenSource();
            var consumeTask             = Task.Run(() =>
            {
                using (var schemaRegistry = new CachedSchemaRegistryClient(new SchemaRegistryConfig {
                    Url = schemaRegistryUrl
                }))
                    using (var consumer =
                               new ConsumerBuilder <string, GenericRecord>(new ConsumerConfig {
                        BootstrapServers = bootstrapServers, GroupId = groupName
                    })
                               .SetValueDeserializer(new AvroDeserializer <GenericRecord>(schemaRegistry).AsSyncOverAsync())
                               .SetErrorHandler((_, e) => Console.WriteLine($"Error: {e.Reason}"))
                               .Build())
                    {
                        consumer.Subscribe(topicName);

                        try
                        {
                            while (true)
                            {
                                try
                                {
                                    var consumeResult = consumer.Consume(cts.Token);

                                    Console.WriteLine($"Key: {consumeResult.Message.Key}\nValue: {consumeResult.Message.Value}");
                                }
                                catch (ConsumeException e)
                                {
                                    Console.WriteLine($"Consume error: {e.Error.Reason}");
                                }
                            }
                        }
                        catch (OperationCanceledException)
                        {
                            // commit final offsets and leave the group.
                            consumer.Close();
                        }
                    }
            });

            using (var schemaRegistry = new CachedSchemaRegistryClient(new SchemaRegistryConfig {
                Url = schemaRegistryUrl
            }))
                using (var producer =
                           new ProducerBuilder <string, GenericRecord>(new ProducerConfig {
                    BootstrapServers = bootstrapServers
                })
                           .SetValueSerializer(new AvroSerializer <GenericRecord>(schemaRegistry))
                           .Build())
                {
                    Console.WriteLine($"{producer.Name} producing on {topicName}. Enter user names, q to exit.");

                    long   i = 1;
                    string text;
                    while ((text = Console.ReadLine()) != "q")
                    {
                        var record = new GenericRecord(s);
                        record.Add("name", text);
                        record.Add("favorite_number", i++);
                        record.Add("favorite_color", "blue");

                        try
                        {
                            var dr = await producer.ProduceAsync(topicName, new Message <string, GenericRecord> {
                                Key = text, Value = record
                            });

                            Console.WriteLine($"produced to: {dr.TopicPartitionOffset}");
                        }
                        catch (ProduceException <string, GenericRecord> ex)
                        {
                            // In some cases (notably Schema Registry connectivity issues), the InnerException
                            // of the ProduceException contains additional informatiom pertaining to the root
                            // cause of the problem. This information is automatically included in the output
                            // of the ToString() method of the ProduceException, called implicitly in the below.
                            Console.WriteLine($"error producing message: {ex}");
                        }
                    }
                }

            cts.Cancel();
        }
Exemplo n.º 10
0
        private static void ProduceConsumeGeneric(string bootstrapServers, string schemaRegistryServers, SubjectNameStrategy nameStrategy)
        {
            var rs = (RecordSchema)RecordSchema.Parse(
                @"{
                    ""namespace"": ""Confluent.Kafka.Examples.AvroSpecific"",
                    ""type"": ""record"",
                    ""name"": ""ProduceConsumeUser2"",
                    ""fields"": [
                        {""name"": ""name"", ""type"": ""string""},
                        {""name"": ""favorite_number"",  ""type"": [""int"", ""null""]},
                        {""name"": ""favorite_color"", ""type"": [""string"", ""null""]}
                    ]
                  }"
                );

            var config = new ProducerConfig {
                BootstrapServers = bootstrapServers
            };
            var schemaRegistryConfig = new SchemaRegistryConfig
            {
                Url = schemaRegistryServers,
            };

            var avroSerializerConfig = new AvroSerializerConfig
            {
                SubjectNameStrategy = nameStrategy
            };

            var topic = Guid.NewGuid().ToString();

            DeliveryResult <GenericRecord, Null> dr;

            using (var schemaRegistry = new CachedSchemaRegistryClient(schemaRegistryConfig))
                using (var p =
                           new ProducerBuilder <GenericRecord, Null>(config)
                           // Test KeySubjectNameStrategy here,
                           // and ValueSubjectNameStrategy in ProduceConsume.
                           .SetKeySerializer(new AvroSerializer <GenericRecord>(schemaRegistry, avroSerializerConfig))
                           .SetValueSerializer(Serializers.Null)
                           .Build())
                {
                    var record = new GenericRecord(rs);
                    record.Add("name", "my name 2");
                    record.Add("favorite_number", 44);
                    record.Add("favorite_color", null);
                    dr = p.ProduceAsync(topic, new Message <GenericRecord, Null> {
                        Key = record
                    }).Result;
                }

            // produce a specific record (to later consume back as a generic record).
            using (var schemaRegistry = new CachedSchemaRegistryClient(schemaRegistryConfig))
                using (var p =
                           new ProducerBuilder <ProduceConsumeUser2, Null>(config)
                           .SetKeySerializer(new AvroSerializer <ProduceConsumeUser2>(schemaRegistry, avroSerializerConfig))
                           .SetValueSerializer(Serializers.Null)
                           .Build())
                {
                    var user = new ProduceConsumeUser2
                    {
                        name            = "my name 3",
                        favorite_number = 47,
                        favorite_color  = "orange"
                    };

                    p.ProduceAsync(topic, new Message <ProduceConsumeUser2, Null> {
                        Key = user
                    }).Wait();
                }

            Assert.Null(dr.Message.Value);
            Assert.NotNull(dr.Message.Key);
            dr.Message.Key.TryGetValue("name", out object name);
            dr.Message.Key.TryGetValue("favorite_number", out object number);
            dr.Message.Key.TryGetValue("favorite_color", out object color);

            Assert.IsType <string>(name);
            Assert.IsType <int>(number);

            Assert.Equal("my name 2", name);
            Assert.Equal(44, number);
            Assert.Null(color);

            var cconfig = new ConsumerConfig {
                GroupId = Guid.NewGuid().ToString(), BootstrapServers = bootstrapServers
            };

            using (var schemaRegistry = new CachedSchemaRegistryClient(schemaRegistryConfig))
                using (var consumer =
                           new ConsumerBuilder <GenericRecord, Null>(cconfig)
                           .SetKeyDeserializer(new AvroDeserializer <GenericRecord>(schemaRegistry).AsSyncOverAsync())
                           .SetValueDeserializer(Deserializers.Null)
                           .Build())
                {
                    // consume generic record produced as a generic record.
                    consumer.Assign(new List <TopicPartitionOffset> {
                        new TopicPartitionOffset(topic, 0, dr.Offset)
                    });
                    var record = consumer.Consume(new CancellationTokenSource(TimeSpan.FromSeconds(10)).Token);
                    record.Message.Key.TryGetValue("name", out object msgName);
                    record.Message.Key.TryGetValue("favorite_number", out object msgNumber);
                    record.Message.Key.TryGetValue("favorite_color", out object msgColor);

                    Assert.IsType <string>(msgName);
                    Assert.IsType <int>(msgNumber);

                    Assert.Equal("my name 2", msgName);
                    Assert.Equal(44, msgNumber);
                    Assert.Null(msgColor);

                    // consume generic record produced as a specific record.
                    record = consumer.Consume(new CancellationTokenSource(TimeSpan.FromSeconds(10)).Token);
                    record.Message.Key.TryGetValue("name", out msgName);
                    record.Message.Key.TryGetValue("favorite_number", out msgNumber);
                    record.Message.Key.TryGetValue("favorite_color", out msgColor);

                    Assert.IsType <string>(msgName);
                    Assert.IsType <int>(msgNumber);
                    Assert.IsType <string>(msgColor);

                    Assert.Equal("my name 3", msgName);
                    Assert.Equal(47, msgNumber);
                    Assert.Equal("orange", msgColor);
                }

            using (var schemaRegistry = new CachedSchemaRegistryClient(schemaRegistryConfig))
                using (var consumer =
                           new ConsumerBuilder <ProduceConsumeUser2, Null>(cconfig)
                           .SetKeyDeserializer(new AvroDeserializer <ProduceConsumeUser2>(schemaRegistry).AsSyncOverAsync())
                           .SetValueDeserializer(Deserializers.Null)
                           .Build())
                {
                    consumer.Assign(new List <TopicPartitionOffset> {
                        new TopicPartitionOffset(topic, 0, dr.Offset)
                    });
                    var record = consumer.Consume(new CancellationTokenSource(TimeSpan.FromSeconds(10)).Token);
                    Assert.Equal("my name 2", record.Message.Key.name);
                    Assert.Equal(44, record.Message.Key.favorite_number);
                    Assert.Null(record.Message.Key.favorite_color);
                }

            // Check that what's in schema registry is what's expected.
            using (var schemaRegistry = new CachedSchemaRegistryClient(schemaRegistryConfig))
            {
                var subjects = schemaRegistry.GetAllSubjectsAsync().Result;

                if (nameStrategy == SubjectNameStrategy.TopicRecord)
                {
                    Assert.Single(subjects.Where(s => s.Contains(topic)));
                    Assert.Single(subjects.Where(s => s == $"{topic}-{((Avro.RecordSchema)ProduceConsumeUser2._SCHEMA).Fullname}"));
                }

                if (nameStrategy == SubjectNameStrategy.Topic)
                {
                    Assert.Single(subjects.Where(s => s.Contains(topic)));
                    Assert.Single(subjects.Where(s => s == $"{topic}-key"));
                }

                if (nameStrategy == SubjectNameStrategy.Record)
                {
                    Assert.Single(subjects.Where(s => s.Contains(topic))); // the string key.
                    Assert.Single(subjects.Where(s => s == $"{((Avro.RecordSchema)ProduceConsumeUser2._SCHEMA).Fullname}"));
                }
            }
        }
Exemplo n.º 11
0
        }  // end createSchemaFromString()

        /// <summary>
        /// Create an avro schema from either the columns or the schema string.
        /// </summary>
        private void createSchema()
        {
            // First, check if the schema has already been created
            if (m_data.schema != null)
            {
                // nothing to do
                return;
            }

            // Check if the schema string exists, if so, create the schema from that
            if (m_data.schemaString != null)
            {
                try
                {
                    m_data.schema = RecordSchema.Parse(m_data.schemaString);
                    return;
                }
                catch (Exception ex)
                {
                    throw new KineticaException(ex.ToString());
                }
            }  // done creating the schema from the schema string

            // Since the shortcuts didn't apply, create a JSON object from the columns
            // and then create the schema and the schema string off it
            // --------------------------------------------------------------------------
            // Create the json string for the type
            string schema_string = "";
            // Create the json string opening with empty fields (with a generic 'type_name' (because the
            // server always replaces the name with this string anyway) )
            string schema_opening = "{'type':'record','name':'type_name','fields':[";
            // Create the json string closing
            string schema_closing = "]}";

            schema_string += schema_opening;

            // Create the json substrings for the columns
            foreach (var column in m_data.columns)
            {
                // Add the name
                string field_name = ("'name':'" + column.getName() + "'");

                // Add the type
                string field_type = "";
                if (column.isNullable())
                {  // the column is nullable, so we need a union
                    field_type = ("['" + column.getTypeString() + "','null']");
                }
                else  // regular type, no union needed
                {
                    field_type = ("'" + column.getTypeString() + "'");
                }
                field_type = ("'type':" + field_type);

                // Put the field together
                string field = ("{" + field_name + "," + field_type + "},");
                schema_string += field;
            }  // end looping over the fields

            // Trim the trailing comma from the fields
            char[] comma = { ',' };
            schema_string = schema_string.TrimEnd(comma);
            // Add the ending of the json string
            schema_string += schema_closing;

            // Create the RecordSchema from the JSON string
            try
            {
                m_data.schema = RecordSchema.Parse(schema_string);
            }
            catch (Exception ex)
            {
                throw new KineticaException(ex.ToString());
            }

            // Save the schema string
            m_data.schemaString = m_data.schema.ToString();
            return;
        } // end createSchema()
Exemplo n.º 12
0
        }  // end initialize()

        /// <summary>
        /// Creates a schema object from a string.
        /// </summary>
        /// <param name="typeSchema">The schema in a string format.</param>
        /// <param name="properties">Properties for the columns.</param>
        private void createSchemaFromString(string typeSchema,
                                            IDictionary <string, IList <string> > properties = null)
        {
            // Create the avro schema from the string and save it
            try
            {
                m_data.schema = RecordSchema.Parse(typeSchema);
            }
            catch (Exception ex)
            {
                throw new KineticaException(ex.ToString());
            }

            var root = JObject.Parse(typeSchema);

            var rootType = root["type"];

            if ((null == rootType) || !rootType.ToString().Contains("record"))
            {
                throw new ArgumentException("Schema must be of type record.");
            }

            var fields = root["fields"];

            if ((null == fields) || !fields.HasValues)
            {
                throw new ArgumentException("Schema has no fields.");
            }

            foreach (var field in fields)
            {
                //if (!field->first.empty() || field->second.empty())
                //{
                //    throw std::invalid_argument("Schema has invalid field.");
                //}

                // Do NOT use ToString 'cause it includes the double quotes (turns it into a JSON representation)
                var fieldName = (string)field["name"];
                if (string.IsNullOrEmpty(fieldName))
                {
                    throw new ArgumentException("Schema has unnamed field.");
                }

                if (m_data.columnMap.ContainsKey(fieldName))
                {
                    throw new ArgumentException($"Duplicate field name {fieldName}.");
                }

                var fieldType = field["type"];
                if (null == fieldType)
                {
                    throw new ArgumentException($"Field {fieldName} has no type.");
                }

                // Flag for nullability
                bool is_column_nullable = false;

                if (fieldType.HasValues) // If it has children
                {
                    var fieldTypeArray = fieldType;

                    foreach (var fieldTypeElement in fieldTypeArray.Children())
                    {
                        bool valid = false;
                        //if (fieldTypeElement->first.empty())
                        {
                            var fieldTypeElementString = fieldTypeElement.ToString();

                            if (!string.IsNullOrEmpty(fieldTypeElementString))
                            {
                                if (fieldTypeElementString == "null" || fieldTypeElementString == "\"null\"")
                                {
                                    is_column_nullable = true;
                                    valid = true;
                                }
                                else //if (fieldType->empty())
                                {
                                    fieldType = fieldTypeElement; // fieldTypeElementString;
                                    valid     = true;
                                }
                            }
                        }

                        if (!valid)
                        {
                            throw new ArgumentException("Field {fieldName} has invalid type.");
                        }
                    }

                    //if (fieldType->empty())
                    //{
                    //    throw new ArgumentException("Field " + *fieldName + " has invalid type.");
                    //}
                }

                Column.ColumnType columnType;

                if (fieldType.ToString().Equals("bytes") || fieldType.ToString().Equals("\"bytes\""))
                {
                    columnType = Column.ColumnType.BYTES;
                }
                else if (fieldType.ToString().Equals("double") || fieldType.ToString().Equals("\"double\""))
                {
                    columnType = Column.ColumnType.DOUBLE;
                }
                else if (fieldType.ToString().Equals("float") || fieldType.ToString().Equals("\"float\""))
                {
                    columnType = Column.ColumnType.FLOAT;
                }
                else if (fieldType.ToString().Equals("int") || fieldType.ToString().Equals("\"int\""))
                {
                    columnType = Column.ColumnType.INT;
                }
                else if (fieldType.ToString().Equals("long") || fieldType.ToString().Equals("\"long\""))
                {
                    columnType = Column.ColumnType.LONG;
                }
                else if (fieldType.ToString().Equals("string") || fieldType.ToString().Equals("\"string\""))
                {
                    columnType = Column.ColumnType.STRING;
                }
                else
                {
                    throw new ArgumentException("Field {fieldName} must be of type bytes, double, float, int, long or string.");
                }

                IList <string> columnProperties = null;
                if (null != properties)
                {
                    properties.TryGetValue(fieldName, out columnProperties);
                }
                // Check the column properties for nullability
                if ((null != columnProperties) &&
                    (columnProperties.Contains(ColumnProperty.NULLABLE)))
                {
                    is_column_nullable = true;
                }

                // Create the column to be added
                Column column = new Column(fieldName, columnType, columnProperties);

                // Set the "nullability"
                column.setIsNullable(is_column_nullable);

                m_data.columns.Add(column);

                m_data.columnMap[fieldName] = m_data.columns.Count - 1;
            }
        }  // end createSchemaFromString()
Exemplo n.º 13
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        public opcSchemas()
        {
            stringType  = (RecordSchema)RecordSchema.Parse(buildSchema("string"));
            doubleType  = (RecordSchema)RecordSchema.Parse(buildSchema("double"));
            intType     = (RecordSchema)RecordSchema.Parse(buildSchema("int"));
            floatType   = (RecordSchema)RecordSchema.Parse(buildSchema("float"));
            booleanType = (RecordSchema)RecordSchema.Parse(buildSchema("boolean"));
            longType    = (RecordSchema)RecordSchema.Parse(buildSchema("long"));

            rpcRequest = (RecordSchema)RecordSchema.Parse(@"{
                    'name': 'JSON_RPC_2_0_Request',
                    'type': 'record',
                    'fields': [
                        {
                            'name': 'method',
                            'type': 'string'
                        },
                        {
                            'name': 'params',
                            'type':['null',{'type':'array', 'items': 'string'}],
                            'default': null
                        },
                        {
                            'name': 'id',
                            'type': ['null','long'],
                            'default' : null
                        }
                    ]
                }");

            rpcResponse = (RecordSchema)RecordSchema.Parse(@"
                                    {
                        'name': 'JSON_RPC_2_0_Response',
                        'type': 'record',
                        'fields': [
                            {
                                'name': 'result',
                                'type': ['null','string'],
                                'default':null
                            },
                            {
                                'name': 'error',
                                'type':[
                                    'null',
                                    {
                                        'type':'record', 
                                        'name':'error', 
                                        'fields': [
                                            {'name':'code', 'type':'int'},
                                            {'name':'message', 'type':'string'}
                                        ]
                                    }
                                ],
                                'default': null
                            },
                            {
                                'name': 'id',
                                'type': 'long'
                            }
                        ]
                    }");

            rpcError = (RecordSchema)RecordSchema.Parse(@"
                {
                    'type':'record', 
                    'name':'error', 
                    'fields': [
                        {'name':'code', 'type':'int'},
                        {'name':'message', 'type':'string'}
                    ]
                }");
        }