using System; using System.Collections.Generic; using System.Linq; using System.Net.Sockets; using System.Threading; using System.Threading.Tasks; using Microsoft.VisualStudio.TestTools.UnitTesting; using MQTTnet.Client; using MQTTnet.Client.Connecting; using MQTTnet.Client.Disconnecting; using MQTTnet.Client.Options; using MQTTnet.Client.Subscribing; using MQTTnet.Exceptions; using MQTTnet.Protocol; using MQTTnet.Server; using MQTTnet.Tests.Mockups; namespace MQTTnet.Tests { [TestClass] public class Client_Tests { [TestMethod] public async Task PacketIdentifier_In_Publish_Result() { using (var testEnvironment = new TestEnvironment()) { await testEnvironment.StartServerAsync(); var client = await testEnvironment.ConnectClientAsync(); var result = await client.PublishAsync("a", "a", MqttQualityOfServiceLevel.AtMostOnce); Assert.AreEqual(null, result.PacketIdentifier); result = await client.PublishAsync("b", "b", MqttQualityOfServiceLevel.AtMostOnce); Assert.AreEqual(null, result.PacketIdentifier); result = await client.PublishAsync("a", "a", MqttQualityOfServiceLevel.AtLeastOnce); Assert.AreEqual((ushort)1, result.PacketIdentifier); result = await client.PublishAsync("b", "b", MqttQualityOfServiceLevel.AtLeastOnce); Assert.AreEqual((ushort)2, result.PacketIdentifier); result = await client.PublishAsync("a", "a", MqttQualityOfServiceLevel.ExactlyOnce); Assert.AreEqual((ushort)3, result.PacketIdentifier); result = await client.PublishAsync("b", "b", MqttQualityOfServiceLevel.ExactlyOnce); Assert.AreEqual((ushort)4, result.PacketIdentifier); } } [TestMethod] public async Task Invalid_Connect_Throws_Exception() { var factory = new MqttFactory(); using (var client = factory.CreateMqttClient()) { try { await client.ConnectAsync(new MqttClientOptionsBuilder().WithTcpServer("wrong-server").Build()); Assert.Fail("Must fail!"); } catch (Exception exception) { Assert.IsNotNull(exception); Assert.IsInstanceOfType(exception, typeof(MqttCommunicationException)); Assert.IsInstanceOfType(exception.InnerException, typeof(SocketException)); } } } [TestMethod] public async Task Disconnect_Event_Contains_Exception() { var factory = new MqttFactory(); using (var client = factory.CreateMqttClient()) { Exception ex = null; client.DisconnectedHandler = new MqttClientDisconnectedHandlerDelegate(e => { ex = e.Exception; }); try { await client.ConnectAsync(new MqttClientOptionsBuilder().WithTcpServer("wrong-server").Build()); } catch { } Assert.IsNotNull(ex); Assert.IsInstanceOfType(ex, typeof(MqttCommunicationException)); Assert.IsInstanceOfType(ex.InnerException, typeof(SocketException)); } } [TestMethod] public async Task Preserve_Message_Order() { // The messages are sent in reverse or to ensure that the delay in the handler // needs longer for the first messages and later messages may be processed earlier (if there // is an issue). const int MessagesCount = 50; using (var testEnvironment = new TestEnvironment()) { await testEnvironment.StartServerAsync(); var client1 = await testEnvironment.ConnectClientAsync(); await client1.SubscribeAsync("x"); var receivedValues = new List(); async Task Handler1(MqttApplicationMessageReceivedEventArgs eventArgs) { var value = int.Parse(eventArgs.ApplicationMessage.ConvertPayloadToString()); await Task.Delay(value); lock (receivedValues) { receivedValues.Add(value); } } client1.UseApplicationMessageReceivedHandler(Handler1); var client2 = await testEnvironment.ConnectClientAsync(); for (var i = MessagesCount; i > 0; i--) { await client2.PublishAsync("x", i.ToString()); } await Task.Delay(5000); for (var i = MessagesCount; i > 0; i--) { Assert.AreEqual(i, receivedValues[MessagesCount - i]); } } } [TestMethod] public async Task Send_Reply_For_Any_Received_Message() { using (var testEnvironment = new TestEnvironment()) { await testEnvironment.StartServerAsync(); var client1 = await testEnvironment.ConnectClientAsync(); await client1.SubscribeAsync("request/+"); async Task Handler1(MqttApplicationMessageReceivedEventArgs eventArgs) { await client1.PublishAsync($"reply/{eventArgs.ApplicationMessage.Topic}"); } client1.UseApplicationMessageReceivedHandler(Handler1); var client2 = await testEnvironment.ConnectClientAsync(); await client2.SubscribeAsync("reply/#"); var replies = new List(); void Handler2(MqttApplicationMessageReceivedEventArgs eventArgs) { lock (replies) { replies.Add(eventArgs.ApplicationMessage.Topic); } } client2.UseApplicationMessageReceivedHandler((Action)Handler2); await Task.Delay(500); await client2.PublishAsync("request/a"); await client2.PublishAsync("request/b"); await client2.PublishAsync("request/c"); await Task.Delay(500); Assert.AreEqual("reply/request/a,reply/request/b,reply/request/c", string.Join(",", replies)); } } [TestMethod] public async Task Publish_With_Correct_Retain_Flag() { using (var testEnvironment = new TestEnvironment()) { await testEnvironment.StartServerAsync(); var receivedMessages = new List(); var client1 = await testEnvironment.ConnectClientAsync(); client1.UseApplicationMessageReceivedHandler(c => { lock (receivedMessages) { receivedMessages.Add(c.ApplicationMessage); } }); await client1.SubscribeAsync("a"); var client2 = await testEnvironment.ConnectClientAsync(); var message = new MqttApplicationMessageBuilder().WithTopic("a").WithRetainFlag().Build(); await client2.PublishAsync(message); await Task.Delay(500); Assert.AreEqual(1, receivedMessages.Count); Assert.IsFalse(receivedMessages.First().Retain); // Must be false even if set above! } } [TestMethod] public async Task Subscribe_In_Callback_Events() { using (var testEnvironment = new TestEnvironment()) { await testEnvironment.StartServerAsync(); var receivedMessages = new List(); var client = testEnvironment.CreateClient(); client.ConnectedHandler = new MqttClientConnectedHandlerDelegate(async e => { await client.SubscribeAsync("RCU/P1/H0001/R0003"); var msg = new MqttApplicationMessageBuilder() .WithPayload("DA|18RS00SC00XI0000RV00R100R200R300R400L100L200L300L400Y100Y200AC0102031800BELK0000BM0000|") .WithTopic("RCU/P1/H0001/R0003"); await client.PublishAsync(msg.Build()); }); client.UseApplicationMessageReceivedHandler(c => { lock (receivedMessages) { receivedMessages.Add(c.ApplicationMessage); } }); await client.ConnectAsync(new MqttClientOptionsBuilder().WithTcpServer("localhost", testEnvironment.ServerPort).Build()); await Task.Delay(500); Assert.AreEqual(1, receivedMessages.Count); Assert.AreEqual("DA|18RS00SC00XI0000RV00R100R200R300R400L100L200L300L400Y100Y200AC0102031800BELK0000BM0000|", receivedMessages.First().ConvertPayloadToString()); } } [TestMethod] public async Task Message_Send_Retry() { using (var testEnvironment = new TestEnvironment()) { testEnvironment.IgnoreClientLogErrors = true; testEnvironment.IgnoreServerLogErrors = true; await testEnvironment.StartServerAsync( new MqttServerOptionsBuilder() .WithPersistentSessions() .WithDefaultCommunicationTimeout(TimeSpan.FromMilliseconds(250))); var client1 = await testEnvironment.ConnectClientAsync(new MqttClientOptionsBuilder().WithCleanSession(false)); await client1.SubscribeAsync("x", MqttQualityOfServiceLevel.AtLeastOnce); var retries = 0; async Task Handler1(MqttApplicationMessageReceivedEventArgs eventArgs) { retries++; await Task.Delay(1000); throw new Exception("Broken!"); } client1.UseApplicationMessageReceivedHandler(Handler1); var client2 = await testEnvironment.ConnectClientAsync(); await client2.PublishAsync("x"); await Task.Delay(3000); // The server should disconnect clients which are not responding. Assert.IsFalse(client1.IsConnected); await client1.ReconnectAsync().ConfigureAwait(false); await Task.Delay(1000); Assert.AreEqual(2, retries); } } [TestMethod] public async Task NoConnectedHandler_Connect_DoesNotThrowException() { using (var testEnvironment = new TestEnvironment()) { await testEnvironment.StartServerAsync(); var client = await testEnvironment.ConnectClientAsync(); Assert.IsTrue(client.IsConnected); } } [TestMethod] public async Task NoDisconnectedHandler_Disconnect_DoesNotThrowException() { using (var testEnvironment = new TestEnvironment()) { await testEnvironment.StartServerAsync(); var client = await testEnvironment.ConnectClientAsync(); Assert.IsTrue(client.IsConnected); await client.DisconnectAsync(); Assert.IsFalse(client.IsConnected); } } [TestMethod] public async Task Frequent_Connects() { using (var testEnvironment = new TestEnvironment()) { await testEnvironment.StartServerAsync(); var clients = new List(); for (var i = 0; i < 100; i++) { clients.Add(await testEnvironment.ConnectClientAsync(new MqttClientOptionsBuilder().WithClientId("a"))); } var clientStatus = await testEnvironment.Server.GetClientStatusAsync(); var sessionStatus = await testEnvironment.Server.GetSessionStatusAsync(); for (var i = 0; i < 98; i++) { Assert.IsFalse(clients[i].IsConnected); } Assert.IsTrue(clients[99].IsConnected); Assert.AreEqual(1, clientStatus.Count); Assert.AreEqual(1, sessionStatus.Count); var receiveClient = clients[99]; object receivedPayload = null; receiveClient.UseApplicationMessageReceivedHandler(e => { receivedPayload = e.ApplicationMessage.ConvertPayloadToString(); }); await receiveClient.SubscribeAsync("x"); var sendClient = await testEnvironment.ConnectClientAsync(); await sendClient.PublishAsync("x", "1"); await Task.Delay(100); Assert.AreEqual("1", receivedPayload); } } [TestMethod] public async Task No_Payload() { using (var testEnvironment = new TestEnvironment()) { await testEnvironment.StartServerAsync(); var sender = await testEnvironment.ConnectClientAsync(); var receiver = await testEnvironment.ConnectClientAsync(); var message = new MqttApplicationMessageBuilder() .WithTopic("A"); await receiver.SubscribeAsync(new MqttClientSubscribeOptions { TopicFilters = new List { new TopicFilter { Topic = "#" } } }, CancellationToken.None); MqttApplicationMessage receivedMessage = null; receiver.UseApplicationMessageReceivedHandler(e => receivedMessage = e.ApplicationMessage); await sender.PublishAsync(message.Build(), CancellationToken.None); await Task.Delay(1000); Assert.IsNotNull(receivedMessage); Assert.AreEqual("A", receivedMessage.Topic); Assert.AreEqual(null, receivedMessage.Payload); } } } }