using System; using System.Collections.Generic; using System.Text; using System.Threading; using System.Threading.Tasks; using Microsoft.VisualStudio.TestTools.UnitTesting; using MQTTnet.Diagnostics; using MQTTnet.Protocol; using MQTTnet.Server; using MQTTnet.Client; namespace MQTTnet.Core.Tests { [TestClass] public class MqttServerTests { [TestMethod] public void MqttServer_PublishSimple_AtMostOnce() { TestPublishAsync( "A/B/C", MqttQualityOfServiceLevel.AtMostOnce, "A/B/C", MqttQualityOfServiceLevel.AtMostOnce, 1).Wait(); } [TestMethod] public void MqttServer_PublishSimple_AtLeastOnce() { TestPublishAsync( "A/B/C", MqttQualityOfServiceLevel.AtLeastOnce, "A/B/C", MqttQualityOfServiceLevel.AtLeastOnce, 1).Wait(); } [TestMethod] public void MqttServer_PublishSimple_ExactlyOnce() { TestPublishAsync( "A/B/C", MqttQualityOfServiceLevel.ExactlyOnce, "A/B/C", MqttQualityOfServiceLevel.ExactlyOnce, 1).Wait(); } [TestMethod] public async Task MqttServer_WillMessage() { var serverAdapter = new TestMqttServerAdapter(); var s = new MqttFactory().CreateMqttServer(new[] { serverAdapter }, new MqttNetLogger()); var receivedMessagesCount = 0; try { await s.StartAsync(new MqttServerOptions()); var willMessage = new MqttApplicationMessageBuilder().WithTopic("My/last/will").WithAtMostOnceQoS().Build(); var c1 = await serverAdapter.ConnectTestClient("c1"); var c2 = await serverAdapter.ConnectTestClient("c2", willMessage); c1.ApplicationMessageReceived += (_, __) => receivedMessagesCount++; await c1.SubscribeAsync(new TopicFilterBuilder().WithTopic("#").Build()); await c2.DisconnectAsync(); await Task.Delay(1000); await c1.DisconnectAsync(); } finally { await s.StopAsync(); } Assert.AreEqual(0, receivedMessagesCount); } [TestMethod] public async Task MqttServer_SubscribeUnsubscribe() { var serverAdapter = new TestMqttServerAdapter(); var s = new MqttFactory().CreateMqttServer(new[] { serverAdapter }, new MqttNetLogger()); var receivedMessagesCount = 0; try { await s.StartAsync(new MqttServerOptions()); var c1 = await serverAdapter.ConnectTestClient("c1"); var c2 = await serverAdapter.ConnectTestClient("c2"); c1.ApplicationMessageReceived += (_, __) => receivedMessagesCount++; var message = new MqttApplicationMessageBuilder().WithTopic("a").WithAtLeastOnceQoS().Build(); await c2.PublishAsync(message); Assert.AreEqual(0, receivedMessagesCount); var subscribeEventCalled = false; s.ClientSubscribedTopic += (_, e) => { subscribeEventCalled = e.TopicFilter.Topic == "a" && e.ClientId == "c1"; }; await c1.SubscribeAsync(new TopicFilter("a", MqttQualityOfServiceLevel.AtLeastOnce)); await Task.Delay(100); Assert.IsTrue(subscribeEventCalled, "Subscribe event not called."); await c2.PublishAsync(message); await Task.Delay(500); Assert.AreEqual(1, receivedMessagesCount); var unsubscribeEventCalled = false; s.ClientUnsubscribedTopic += (_, e) => { unsubscribeEventCalled = e.TopicFilter == "a" && e.ClientId == "c1"; }; await c1.UnsubscribeAsync("a"); await Task.Delay(100); Assert.IsTrue(unsubscribeEventCalled, "Unsubscribe event not called."); await c2.PublishAsync(message); await Task.Delay(500); Assert.AreEqual(1, receivedMessagesCount); } finally { await s.StopAsync(); } await Task.Delay(500); Assert.AreEqual(1, receivedMessagesCount); } [TestMethod] public async Task MqttServer_Publish() { var serverAdapter = new TestMqttServerAdapter(); var s = new MqttFactory().CreateMqttServer(new[] { serverAdapter }, new MqttNetLogger()); var receivedMessagesCount = 0; try { await s.StartAsync(new MqttServerOptions()); var c1 = await serverAdapter.ConnectTestClient("c1"); c1.ApplicationMessageReceived += (_, __) => receivedMessagesCount++; var message = new MqttApplicationMessageBuilder().WithTopic("a").WithAtLeastOnceQoS().Build(); await c1.SubscribeAsync(new TopicFilter("a", MqttQualityOfServiceLevel.AtLeastOnce)); await s.PublishAsync(message); await Task.Delay(500); } finally { await s.StopAsync(); } Assert.AreEqual(1, receivedMessagesCount); } [TestMethod] public async Task MqttServer_RetainedMessagesFlow() { var retainedMessage = new MqttApplicationMessageBuilder().WithTopic("r").WithPayload("r").WithRetainFlag().Build(); var serverAdapter = new TestMqttServerAdapter(); var s = new MqttFactory().CreateMqttServer(new[] { serverAdapter }, new MqttNetLogger()); await s.StartAsync(new MqttServerOptions()); var c1 = await serverAdapter.ConnectTestClient("c1"); await c1.PublishAsync(retainedMessage); Thread.Sleep(500); await c1.DisconnectAsync(); Thread.Sleep(500); var receivedMessages = 0; var c2 = await serverAdapter.ConnectTestClient("c2"); c2.ApplicationMessageReceived += (_, e) => { receivedMessages++; }; for (var i = 0; i < 5; i++) { await c2.UnsubscribeAsync("r"); await Task.Delay(500); Assert.AreEqual(i, receivedMessages); await c2.SubscribeAsync("r"); await Task.Delay(500); Assert.AreEqual(i + 1, receivedMessages); } await c2.DisconnectAsync(); } [TestMethod] public async Task MqttServer_NoRetainedMessage() { var serverAdapter = new TestMqttServerAdapter(); var s = new MqttFactory().CreateMqttServer(new[] { serverAdapter }, new MqttNetLogger()); var receivedMessagesCount = 0; try { await s.StartAsync(new MqttServerOptions()); var c1 = await serverAdapter.ConnectTestClient("c1"); await c1.PublishAsync(new MqttApplicationMessageBuilder().WithTopic("retained").WithPayload(new byte[3]).Build()); await c1.DisconnectAsync(); var c2 = await serverAdapter.ConnectTestClient("c2"); c2.ApplicationMessageReceived += (_, __) => receivedMessagesCount++; await c2.SubscribeAsync(new TopicFilterBuilder().WithTopic("retained").Build()); await Task.Delay(500); } finally { await s.StopAsync(); } Assert.AreEqual(0, receivedMessagesCount); } [TestMethod] public async Task MqttServer_RetainedMessage() { var serverAdapter = new TestMqttServerAdapter(); var s = new MqttFactory().CreateMqttServer(new[] { serverAdapter }, new MqttNetLogger()); var receivedMessagesCount = 0; try { await s.StartAsync(new MqttServerOptions()); var c1 = await serverAdapter.ConnectTestClient("c1"); await c1.PublishAndWaitForAsync(s, new MqttApplicationMessageBuilder().WithTopic("retained").WithPayload(new byte[3]).WithRetainFlag().Build()); await c1.DisconnectAsync(); var c2 = await serverAdapter.ConnectTestClient("c2"); c2.ApplicationMessageReceived += (_, __) => receivedMessagesCount++; await c2.SubscribeAsync(new TopicFilterBuilder().WithTopic("retained").Build()); await Task.Delay(500); } finally { await s.StopAsync(); } Assert.AreEqual(1, receivedMessagesCount); } [TestMethod] public async Task MqttServer_ClearRetainedMessage() { var serverAdapter = new TestMqttServerAdapter(); var s = new MqttFactory().CreateMqttServer(new[] { serverAdapter }, new MqttNetLogger()); var receivedMessagesCount = 0; try { await s.StartAsync(new MqttServerOptions()); var c1 = await serverAdapter.ConnectTestClient("c1"); await c1.PublishAsync(new MqttApplicationMessageBuilder().WithTopic("retained").WithPayload(new byte[3]).WithRetainFlag().Build()); await c1.PublishAsync(new MqttApplicationMessageBuilder().WithTopic("retained").WithPayload(new byte[0]).WithRetainFlag().Build()); await c1.DisconnectAsync(); var c2 = await serverAdapter.ConnectTestClient("c2"); c2.ApplicationMessageReceived += (_, __) => receivedMessagesCount++; await Task.Delay(200); await c2.SubscribeAsync(new TopicFilter("retained", MqttQualityOfServiceLevel.AtMostOnce)); await Task.Delay(500); } finally { await s.StopAsync(); } Assert.AreEqual(0, receivedMessagesCount); } [TestMethod] public async Task MqttServer_PersistRetainedMessage() { var storage = new TestStorage(); var serverAdapter = new TestMqttServerAdapter(); var s = new MqttFactory().CreateMqttServer(new[] { serverAdapter }, new MqttNetLogger()); try { var options = new MqttServerOptions { Storage = storage }; await s.StartAsync(options); var c1 = await serverAdapter.ConnectTestClient("c1"); await c1.PublishAndWaitForAsync(s, new MqttApplicationMessageBuilder().WithTopic("retained").WithPayload(new byte[3]).WithRetainFlag().Build()); await c1.DisconnectAsync(); } finally { await s.StopAsync(); } Assert.AreEqual(1, storage.Messages.Count); s = new MqttFactory().CreateMqttServer(new[] { serverAdapter }, new MqttNetLogger()); var receivedMessagesCount = 0; try { var options = new MqttServerOptions { Storage = storage }; await s.StartAsync(options); var c2 = await serverAdapter.ConnectTestClient("c2"); c2.ApplicationMessageReceived += (_, __) => receivedMessagesCount++; await c2.SubscribeAsync(new TopicFilterBuilder().WithTopic("retained").Build()); await Task.Delay(500); } finally { await s.StopAsync(); } Assert.AreEqual(1, receivedMessagesCount); } [TestMethod] public async Task MqttServer_InterceptMessage() { void Interceptor(MqttApplicationMessageInterceptorContext context) { context.ApplicationMessage.Payload = Encoding.ASCII.GetBytes("extended"); } var serverAdapter = new TestMqttServerAdapter(); var s = new MqttFactory().CreateMqttServer(new[] { serverAdapter }, new MqttNetLogger()); try { var options = new MqttServerOptions { ApplicationMessageInterceptor = Interceptor }; await s.StartAsync(options); var c1 = await serverAdapter.ConnectTestClient("c1"); var c2 = await serverAdapter.ConnectTestClient("c2"); await c2.SubscribeAsync(new TopicFilterBuilder().WithTopic("test").Build()); var isIntercepted = false; c2.ApplicationMessageReceived += (sender, args) => { isIntercepted = string.Compare("extended", Encoding.UTF8.GetString(args.ApplicationMessage.Payload), StringComparison.Ordinal) == 0; }; var m = new MqttApplicationMessageBuilder().WithTopic("test").Build(); await c1.PublishAsync(m); await c1.DisconnectAsync(); await Task.Delay(500); Assert.IsTrue(isIntercepted); } finally { await s.StopAsync(); } } [TestMethod] public async Task MqttServer_Body() { var serverAdapter = new TestMqttServerAdapter(); var s = new MqttFactory().CreateMqttServer(new[] { serverAdapter }, new MqttNetLogger()); var bodyIsMatching = false; try { await s.StartAsync(new MqttServerOptions()); var c1 = await serverAdapter.ConnectTestClient("c1"); var c2 = await serverAdapter.ConnectTestClient("c2"); c1.ApplicationMessageReceived += (_, e) => { if (Encoding.UTF8.GetString(e.ApplicationMessage.Payload) == "The body") { bodyIsMatching = true; } }; await c1.SubscribeAsync("A", MqttQualityOfServiceLevel.AtMostOnce); await c2.PublishAsync(new MqttApplicationMessageBuilder().WithTopic("A").WithPayload(Encoding.UTF8.GetBytes("The body")).Build()); await Task.Delay(500); } finally { await s.StopAsync(); } Assert.IsTrue(bodyIsMatching); } private class TestStorage : IMqttServerStorage { public IList Messages = new List(); public Task SaveRetainedMessagesAsync(IList messages) { Messages = messages; return Task.CompletedTask; } public Task> LoadRetainedMessagesAsync() { return Task.FromResult(Messages); } } private static async Task TestPublishAsync( string topic, MqttQualityOfServiceLevel qualityOfServiceLevel, string topicFilter, MqttQualityOfServiceLevel filterQualityOfServiceLevel, int expectedReceivedMessagesCount) { var serverAdapter = new TestMqttServerAdapter(); var s = new MqttFactory().CreateMqttServer(new[] { serverAdapter }, new MqttNetLogger()); var receivedMessagesCount = 0; try { await s.StartAsync(new MqttServerOptions()); var c1 = await serverAdapter.ConnectTestClient("c1"); var c2 = await serverAdapter.ConnectTestClient("c2"); c1.ApplicationMessageReceived += (_, __) => receivedMessagesCount++; await c1.SubscribeAsync(new TopicFilterBuilder().WithTopic(topicFilter).WithQualityOfServiceLevel(filterQualityOfServiceLevel).Build()); await c2.PublishAsync(new MqttApplicationMessageBuilder().WithTopic(topic).WithPayload(new byte[0]).WithQualityOfServiceLevel(qualityOfServiceLevel).Build()); await Task.Delay(500); await c1.UnsubscribeAsync(topicFilter); await Task.Delay(500); } finally { await s.StopAsync(); } Assert.AreEqual(expectedReceivedMessagesCount, receivedMessagesCount); } } }