/*
* public void Write(MessageBase message, EncryptionOption encryptionOptions, MessageTagCollection tags)
* {
* Write(message, "", encryptionOptions, tags);
* }
*
* public void Write(MessageBase message, IBasicProperties basicProperties, EncryptionOption encryptionOptions, MessageTagCollection tags)
* {
* if (basicProperties is null)
* {
* throw new ArgumentNullException(nameof(basicProperties));
* }
*
* Write(message, "", basicProperties, encryptionOptions, tags);
* }
*/
public void WriteToBoundExchange(MessageBase message, bool encryptMessage, MessageTagCollection tags)
{
var encryptionOption = encryptMessage switch
{
true => EncryptionOption.EncryptWithSystemSharedKey,
false => EncryptionOption.None
};
Write(message, boundExchangeName, encryptionOption, tags);
}
public TrustCoordinatorModule(TimeSpan keyRotationTime, MessageTagCollection tags) : this(keyRotationTime, tags.ToArray())
{
// No implementation here. Use the other constructor.
}
/// <summary>
///
/// </summary>
/// <param name="message"></param>
/// <param name="exchangeName"></param>
/// <param name="basicProperties"></param>
private void Write(MessageBase message, string exchangeName, IBasicProperties basicProperties, EncryptionOption encryptionOption, MessageTagCollection tags)
{
if (message == null)
{
throw new ArgumentNullException(nameof(message));
}
//message.ClientName = _clientName;
var envelope = MessageEnvelope.WrapMessage(message, "", this.ParentMessageClient, encryptionOption);
byte[] hashedMessage = envelope.Serialize();
//TODO: Move this into the message serialization?
basicProperties.Headers = new Dictionary <string, object>();
basicProperties.Headers.Add(new MessageSenderTag(this._clientName).GetMangledTagAndValue(), "");
foreach (var tag in tags)
{
string mangledTag = tag.GetMangledTagName();
if (!basicProperties.Headers.ContainsKey(mangledTag))
{
basicProperties.Headers.Add(mangledTag, "");
}
// If this is a tag with a value (not just a tag)
if (tag.HasValue)
{
basicProperties.Headers.Add(tag.GetMangledTagAndValue(), "");
}
}
lock (Channel)
{
Channel.BasicPublish(
exchange: exchangeName,
routingKey: queueInfo.QueueName,
basicProperties: basicProperties,
hashedMessage);
}
}
/// <summary>
///
/// </summary>
/// <param name="message"></param>
/// <param name="exchangeName"></param>
private void Write(MessageBase message, string exchangeName, EncryptionOption encryptionOptions, MessageTagCollection tags)
{
Write(message, exchangeName, Channel.CreateBasicProperties(), encryptionOptions, tags);
}
/// <summary>
/// Declares a queue and binds it to an exchange. Exchanges allow messages to be sent to more than one queue. Exchange-bound queues are useful when a
/// receiver needs to consume broadcast messages.
/// </summary>
/// <param name="channel"></param>
/// <param name="queueName"></param>
internal static TQueueType CreateExchangeBoundMessageQueue <TQueueType>(MessageClientBase parentMessageClient, IModel channel, string clientName, string exchangeName, string queueName, bool durable, bool autoDelete, MessageTagCollection subscriptionTags) where TQueueType : MessageQueue, new()
{
var queue = new TQueueType()
{
Channel = channel,
queueInfo = channel.QueueDeclare(
queue: queueName,
durable: durable,
exclusive: true,
autoDelete: autoDelete),
_clientName = clientName,
ParentMessageClient = parentMessageClient,
boundExchangeName = exchangeName
};
if (!subscriptionTags.Any())
{
channel.QueueBind(queueName, exchangeName, "");
}
else
{
var map = new Dictionary <string, object>();
map.Add("x-match", "any");
foreach (var item in subscriptionTags)
{
map.Add(item.GetMangledTagAndValue(), "");
}
channel.QueueBind(queueName, exchangeName, "", map);
}
return(queue);
}
public PushoverModule(string pushoverAppApiKey, string pushoverUserKey, MessageTagCollection tags) : this(pushoverAppApiKey, pushoverAppApiKey, tags.ToArray())
{
}
public XBeeNetworkGatewayModule(string xbeeComPortName, XBeeLibrary.Windows.Connection.Serial.SerialPortParameters xbeeComPortParameters, MessageTagCollection tags) :
this(xbeeComPortName, xbeeComPortParameters, tags.ToArray())
{
// Implement in constructor below:
}
protected override void SetupConnections(TimeSpan timeout, MessageTagCollection subscriptionTags)
{
base.SetupConnections(timeout, subscriptionTags);
ServerQueue = MessageQueue.CreateMessageQueue <TServerQueue>(this, Channel, ClientName, ServerQueueName, this.QueuesAreDurable, this.AutoDeleteQueuesOnClose);
}
public AzureIoTModule(string azureIoTHubConnectionString, MessageTagCollection tags) : this(azureIoTHubConnectionString, tags.ToArray())
{
// Do not implement
}
/// <summary>
/// Connects the server's queues to the RabbitMQ server and begins processing of messages.
/// </summary>
/// <param name="timeout">The maximum amount of time to wait for a successful connection. An exception occurs upon timeout.</param>
/// <param name="subscriptionTags"></param>
public void Connect(TimeSpan timeout, MessageTagCollection subscriptionTags)
{
//TODO: Add subscription of broadcast tags
SetupConnections(timeout, subscriptionTags);
DedicatedQueue = MessageQueue.CreateExchangeBoundMessageQueue <ReadableMessageQueue>(this, Channel, ClientName, BroadcastExchangeName, DedicatedQueueName, this.QueuesAreDurable, this.AutoDeleteQueuesOnClose);
DedicatedQueue.MessageReceived += DedicatedQueue_MessageReceived;
DedicatedQueue.AsynchronousException += (sender, eventArgs) => FireAsynchronousExceptionEvent(this, eventArgs);
DedicatedQueue.BeginFullConsume(true);
// Announce client to server
ClientAnnounceMessage message = new ClientAnnounceMessage(PublicKeystore.ParentClientInfo);
//TODO: Encrypt this?
this.BroadcastToAllClients(message, false);
//var result = this.WriteToServer(message, out response, out rawResponse, (int)timeout.TotalMilliseconds);
#if false
if (result.CallResult == RpcCallResult.Timeout)
{
throw new ConnectionException("Timeout trying to communicate with the server.");
}
var resultMessage = (ClientAnnounceResponseMessage)result.ResponseMessageEnvelope.Message;
switch (resultMessage.Response)
{
case AnnounceResponse.Accepted:
clientServerHandshakeComplete = true;
//serverName = result.ResponseMessageEnvelope.SenderName;
PublicKeystore.SystemSharedKeys[resultMessage.SystemSharedKeyId] = resultMessage.SystemSharedKey;
break;
case AnnounceResponse.Rejected:
throw new ConnectionException($"Client rejected by server with the following message: {result.ResponseMessageEnvelope.Message.MessageText}.");
}
//result.ResponseMessageEnvelope.ReverifySignature(PublicKeystore[result.ResponseMessageEnvelope.SenderName].Dsa);
//TODO: This is where we need to determine what to do with a new unstrusted signature
if (result.ResponseMessageEnvelope.SignatureVerificationStatus != SignatureVerificationStatus.SignatureValid &&
result.ResponseMessageEnvelope.SignatureVerificationStatus != SignatureVerificationStatus.SignatureValidButUntrusted)
{
throw new Exception("Bad server key.");
}
else
{
//PublicKeystore.Merge(((ClientAnnounceResponseMessage)result.ResponseMessageEnvelope.Message).PublicKeystore);
//TODO: Fix PublicKeystore[result.ResponseMessageEnvelope.SenderName].Iv = ((ClientAnnounceResponseMessage)result.ResponseMessageEnvelope.Message).Iv;
if (HeartbeatInterval > 0)
{
serverHeartbeatTimer.Interval = HeartbeatInterval * 2;
serverHeartbeatTimer.Elapsed += ServerHeartbeatTimer_Elapsed;
serverHeartbeatTimer.Start();
heartbeatSendTimer.Interval = HeartbeatInterval;
heartbeatSendTimer.Elapsed += HeartbeatSendTimer_Elapsed;
heartbeatSendTimer.Start();
}
}
#endif
IsConnected = true;
}
public ClientModule(MessageTagCollection tags) : this(tags.ToArray())
{
}
