WingMan – Rev 35
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using System;
using System.IO;
using System.IO.Compression;
using System.Net;
using System.Threading;
using System.Threading.Tasks;
using LZ4;
using MQTTnet;
using MQTTnet.Client;
using MQTTnet.Extensions.ManagedClient;
using MQTTnet.Protocol;
using MQTTnet.Server;
using WingMan.Utilities;
using MqttClientConnectedEventArgs = MQTTnet.Client.MqttClientConnectedEventArgs;
using MqttClientDisconnectedEventArgs = MQTTnet.Client.MqttClientDisconnectedEventArgs;
namespace WingMan.Communication
{
public class MqttCommunication : IDisposable
{
public delegate void ClientAuthenticationFailed(object sender, MqttAuthenticationFailureEventArgs e);
public delegate void ClientConnected(object sender, MqttClientConnectedEventArgs e);
public delegate void ClientConnectionFailed(object sender, MqttManagedProcessFailedEventArgs e);
public delegate void ClientDisconnected(object sender, MqttClientDisconnectedEventArgs e);
public delegate void ClientSubscribed(object sender, MqttClientSubscribedTopicEventArgs e);
public delegate void ClientUnsubscribed(object sender, MqttClientUnsubscribedTopicEventArgs e);
public delegate void MessageReceived(object sender, MqttCommunicationMessageReceivedEventArgs e);
public delegate void ServerAuthenticationFailed(object sender, MqttAuthenticationFailureEventArgs e);
public delegate void ServerClientConnected(object sender, MQTTnet.Server.MqttClientConnectedEventArgs e);
public delegate void ServerClientDisconnected(object sender, MQTTnet.Server.MqttClientDisconnectedEventArgs e);
public delegate void ServerStarted(object sender, EventArgs e);
public delegate void ServerStopped(object sender, EventArgs e);
public MqttCommunication(TaskScheduler taskScheduler, CancellationToken cancellationToken)
{
TaskScheduler = taskScheduler;
CancellationToken = cancellationToken;
Client = new MqttFactory().CreateManagedMqttClient();
Server = new MqttFactory().CreateMqttServer();
}
private TaskScheduler TaskScheduler { get; }
private IManagedMqttClient Client { get; }
private IMqttServer Server { get; }
public bool Running { get; set; }
public string Nick { get; set; }
private IPAddress IpAddress { get; set; }
private int Port { get; set; }
private string Password { get; set; }
private CancellationToken CancellationToken { get; }
public MqttCommunicationType Type { get; set; }
public async void Dispose()
{
await Stop();
}
public event ClientAuthenticationFailed OnClientAuthenticationFailed;
public event ServerAuthenticationFailed OnServerAuthenticationFailed;
public event MessageReceived OnMessageReceived;
public event ClientConnected OnClientConnected;
public event ClientDisconnected OnClientDisconnected;
public event ClientConnectionFailed OnClientConnectionFailed;
public event ClientUnsubscribed OnClientUnsubscribed;
public event ClientSubscribed OnClientSubscribed;
public event ServerClientDisconnected OnServerClientDisconnected;
public event ServerClientConnected OnServerClientConnected;
public event ServerStarted OnServerStarted;
public event ServerStopped OnServerStopped;
public async Task<bool> Start(MqttCommunicationType type, IPAddress ipAddress, int port, string nick,
string password)
{
Type = type;
IpAddress = ipAddress;
Port = port;
Nick = nick;
Password = password;
switch (type)
{
case MqttCommunicationType.Client:
return await StartClient();
case MqttCommunicationType.Server:
return await StartServer();
}
return false;
}
private async Task<bool> StartClient()
{
var clientOptions = new MqttClientOptionsBuilder()
.WithTcpServer(IpAddress.ToString(), Port);
// Setup and start a managed MQTT client.
var options = new ManagedMqttClientOptionsBuilder()
.WithClientOptions(clientOptions.Build())
.Build();
BindClientHandlers();
await Client.SubscribeAsync(
new TopicFilterBuilder()
.WithTopic("lobby")
.Build()
);
await Client.SubscribeAsync(
new TopicFilterBuilder()
.WithTopic("exchange")
.Build()
);
await Client.SubscribeAsync(
new TopicFilterBuilder()
.WithTopic("execute")
.Build()
);
await Client.StartAsync(options);
Running = true;
return Running;
}
private async Task StopClient()
{
UnbindClientHandlers();
await Client.StopAsync();
}
public void BindClientHandlers()
{
Client.Connected += ClientOnConnected;
Client.Disconnected += ClientOnDisconnected;
Client.ConnectingFailed += ClientOnConnectingFailed;
Client.ApplicationMessageReceived += ClientOnApplicationMessageReceived;
}
public void UnbindClientHandlers()
{
Client.Connected -= ClientOnConnected;
Client.Disconnected -= ClientOnDisconnected;
Client.ConnectingFailed -= ClientOnConnectingFailed;
Client.ApplicationMessageReceived -= ClientOnApplicationMessageReceived;
}
private async void ClientOnApplicationMessageReceived(object sender, MqttApplicationMessageReceivedEventArgs e)
{
try
{
using (var inputStream = new MemoryStream(e.ApplicationMessage.Payload))
{
using (var decryptedStream = await AES.Decrypt(inputStream, Password))
{
using (var lz4Decompress = new LZ4Stream(decryptedStream, CompressionMode.Decompress))
{
var outpuStream = new MemoryStream();
await lz4Decompress.CopyToAsync(outpuStream);
outpuStream.Position = 0L;
await Task.Delay(0, CancellationToken).ContinueWith(
_ => OnMessageReceived?.Invoke(sender,
new MqttCommunicationMessageReceivedEventArgs(e.ApplicationMessage.Topic,
outpuStream)),
CancellationToken, TaskContinuationOptions.None, TaskScheduler);
}
}
}
}
catch (Exception ex)
{
await Task.Delay(0, CancellationToken).ContinueWith(
_ => OnClientAuthenticationFailed?.Invoke(sender, new MqttAuthenticationFailureEventArgs(e, ex)),
CancellationToken, TaskContinuationOptions.None, TaskScheduler);
}
}
private async void ClientOnConnectingFailed(object sender, MqttManagedProcessFailedEventArgs e)
{
await Task.Delay(0, CancellationToken).ContinueWith(_ => OnClientConnectionFailed?.Invoke(sender, e),
CancellationToken, TaskContinuationOptions.None, TaskScheduler);
}
private async void ClientOnDisconnected(object sender, MqttClientDisconnectedEventArgs e)
{
await Task.Delay(0, CancellationToken).ContinueWith(_ => OnClientDisconnected?.Invoke(sender, e),
CancellationToken, TaskContinuationOptions.None, TaskScheduler);
}
private async void ClientOnConnected(object sender, MqttClientConnectedEventArgs e)
{
await Task.Delay(0, CancellationToken).ContinueWith(_ => OnClientConnected?.Invoke(sender, e),
CancellationToken, TaskContinuationOptions.None, TaskScheduler);
}
private async Task<bool> StartServer()
{
var optionsBuilder = new MqttServerOptionsBuilder()
.WithDefaultEndpointBoundIPAddress(IpAddress)
.WithDefaultEndpointPort(Port);
BindServerHandlers();
try
{
await Server.StartAsync(optionsBuilder.Build());
Running = true;
}
catch (Exception)
{
Running = false;
}
return Running;
}
private async Task StopServer()
{
UnbindServerHandlers();
await Server.StopAsync();
}
private void BindServerHandlers()
{
Server.Started += ServerOnStarted;
Server.Stopped += ServerOnStopped;
Server.ClientConnected += ServerOnClientConnected;
Server.ClientDisconnected += ServerOnClientDisconnected;
Server.ClientSubscribedTopic += ServerOnClientSubscribedTopic;
Server.ClientUnsubscribedTopic += ServerOnClientUnsubscribedTopic;
Server.ApplicationMessageReceived += ServerOnApplicationMessageReceived;
}
private void UnbindServerHandlers()
{
Server.Started -= ServerOnStarted;
Server.Stopped -= ServerOnStopped;
Server.ClientConnected -= ServerOnClientConnected;
Server.ClientDisconnected -= ServerOnClientDisconnected;
Server.ClientSubscribedTopic -= ServerOnClientSubscribedTopic;
Server.ClientUnsubscribedTopic -= ServerOnClientUnsubscribedTopic;
Server.ApplicationMessageReceived -= ServerOnApplicationMessageReceived;
}
private async void ServerOnApplicationMessageReceived(object sender, MqttApplicationMessageReceivedEventArgs e)
{
try
{
using (var inputStream = new MemoryStream(e.ApplicationMessage.Payload))
{
using (var decryptedStream = await AES.Decrypt(inputStream, Password))
{
using (var lz4Decompress = new LZ4Stream(decryptedStream, CompressionMode.Decompress))
{
var outpuStream = new MemoryStream();
await lz4Decompress.CopyToAsync(outpuStream);
outpuStream.Position = 0L;
await Task.Delay(0, CancellationToken).ContinueWith(
_ => OnMessageReceived?.Invoke(sender,
new MqttCommunicationMessageReceivedEventArgs(e.ApplicationMessage.Topic,
outpuStream)),
CancellationToken, TaskContinuationOptions.None, TaskScheduler);
}
}
}
}
catch (Exception ex)
{
foreach (var clientSessionStatus in await Server.GetClientSessionsStatusAsync())
{
if (!string.Equals(clientSessionStatus.ClientId, e.ClientId, StringComparison.Ordinal))
continue;
await clientSessionStatus.DisconnectAsync();
}
await Task.Delay(0, CancellationToken).ContinueWith(
_ => OnServerAuthenticationFailed?.Invoke(sender, new MqttAuthenticationFailureEventArgs(e, ex)),
CancellationToken, TaskContinuationOptions.None, TaskScheduler);
}
}
private async void ServerOnClientUnsubscribedTopic(object sender, MqttClientUnsubscribedTopicEventArgs e)
{
await Task.Delay(0, CancellationToken).ContinueWith(_ => OnClientUnsubscribed?.Invoke(sender, e),
CancellationToken, TaskContinuationOptions.None, TaskScheduler);
}
private async void ServerOnClientSubscribedTopic(object sender, MqttClientSubscribedTopicEventArgs e)
{
await Task.Delay(0, CancellationToken).ContinueWith(_ => OnClientSubscribed?.Invoke(sender, e),
CancellationToken, TaskContinuationOptions.None, TaskScheduler);
}
private async void ServerOnClientDisconnected(object sender, MQTTnet.Server.MqttClientDisconnectedEventArgs e)
{
await Task.Delay(0, CancellationToken).ContinueWith(_ => OnServerClientDisconnected?.Invoke(sender, e),
CancellationToken, TaskContinuationOptions.None, TaskScheduler);
}
private async void ServerOnClientConnected(object sender, MQTTnet.Server.MqttClientConnectedEventArgs e)
{
await Task.Delay(0, CancellationToken).ContinueWith(_ => OnServerClientConnected?.Invoke(sender, e),
CancellationToken, TaskContinuationOptions.None, TaskScheduler);
}
private async void ServerOnStopped(object sender, EventArgs e)
{
await Task.Delay(0, CancellationToken).ContinueWith(_ => OnServerStopped?.Invoke(sender, e),
CancellationToken, TaskContinuationOptions.None, TaskScheduler);
}
private async void ServerOnStarted(object sender, EventArgs e)
{
await Task.Delay(0, CancellationToken).ContinueWith(_ => OnServerStarted?.Invoke(sender, e),
CancellationToken, TaskContinuationOptions.None, TaskScheduler);
}
public async Task Stop()
{
switch (Type)
{
case MqttCommunicationType.Server:
await StopServer();
break;
case MqttCommunicationType.Client:
await StopClient();
break;
}
Running = false;
}
public async Task Broadcast(string topic, byte[] payload)
{
using (var compressStream = new MemoryStream())
{
using (var lz4Stream = new LZ4Stream(compressStream, CompressionMode.Compress))
{
await lz4Stream.WriteAsync(payload, 0, payload.Length);
await lz4Stream.FlushAsync();
compressStream.Position = 0L;
using (var outputStream = await AES.Encrypt(compressStream, Password))
{
var data = outputStream.ToArray();
switch (Type)
{
case MqttCommunicationType.Client:
await Client.PublishAsync(new[]
{
new MqttApplicationMessage
{
Topic = topic,
Payload = data,
QualityOfServiceLevel = MqttQualityOfServiceLevel.AtMostOnce
}
});
break;
case MqttCommunicationType.Server:
await Server.PublishAsync(new[]
{
new MqttApplicationMessage
{
Topic = topic,
Payload = data,
QualityOfServiceLevel = MqttQualityOfServiceLevel.AtMostOnce
}
});
break;
}
}
}
}
}
}
}