public async Task <Result> ReadVariable(string pVarName)
{
Result result = new Result();
// Read Variable request packet structure example:
// 0 1 2 3 4 5 6
// xx xx | 00 0A | 00 | 00 07 | 24 4F 56 5F 50 52 4F
// | 10 | 0 | 7 | $ O V _ P R O
// REQ ID | REQ LEN | READ=00 | VAR NAME LEN | VAR NAME CHARS
// (RANDOM)|
if (pVarName.Length == 0)
{
result.ErrorMessage = "No variable was written";
return(result);
}
var PKT_var_name = new byte[pVarName.Length];
PKT_var_name = Encoding.UTF8.GetBytes(pVarName);
var PKT_name_length = new byte[2];
PKT_name_length[0] = (byte)((pVarName.Length >> 8) & 255);
PKT_name_length[1] = (byte)(pVarName.Length & 255);
byte PKT_mode_is_read = 0;
var PKT_req_len = new byte[2];
PKT_req_len[0] = (byte)(((pVarName.Length + 3) >> 8) & 255);
PKT_req_len[1] = (byte)((pVarName.Length + 3) & 255);
var PKT_req_id = new byte[2];
PKT_req_id[0] = (byte)((_msgID >> 8) & 255);
PKT_req_id[1] = (byte)(_msgID & 255);
_msgID++;
if (_msgID > _lastID)
{
_msgID = _firstID;
}
var REQ_packet = new byte[pVarName.Length + 7 + 1];
REQ_packet[0] = PKT_req_id[0];
REQ_packet[1] = PKT_req_id[1];
REQ_packet[2] = PKT_req_len[0];
REQ_packet[3] = PKT_req_len[1];
REQ_packet[4] = PKT_mode_is_read;
REQ_packet[5] = PKT_name_length[0];
REQ_packet[6] = PKT_name_length[1];
PKT_var_name.CopyTo(REQ_packet, 7);
DataWriter writer;
using (writer = new DataWriter(_socket.OutputStream))
{
// Set the Unicode character encoding for the output stream
writer.UnicodeEncoding = Windows.Storage.Streams.UnicodeEncoding.Utf8;
// Specify the byte order of a stream.
writer.ByteOrder = ByteOrder.LittleEndian;
// Gets the size of UTF-8 string.
writer.MeasureString(Encoding.UTF8.GetString(REQ_packet));
// Write a string value to the output stream.
writer.WriteBytes(REQ_packet);
// Send the contents of the writer to the backing stream.
try
{
await writer.StoreAsync();
await writer.FlushAsync();
}
catch (Exception ex)
{
SocketErrorStatus webErrorStatus = Windows.Networking.Sockets.SocketError.GetStatus(ex.GetBaseException().HResult);
result.ErrorMessage = (webErrorStatus.ToString() != "Unknown" ? webErrorStatus.ToString() : ex.Message);
return(result);
}
// In order to prolong the lifetime of the stream, detach it from the DataWriter
writer.DetachStream();
}
// Read Variable response packet structure example:
// 0 1 2 3 4 5 6
// xx xx | 00 0A | 00 | 00 06 | 35 35 33 39 39 33 | 00 01 01
// | 10 | 0 | 6 | 5 5 3 9 9 3 | 0 1 1
// SAME AS| RSP LEN | READ=00 | VALUE LEN | VALUE CHARS | TRAILER
// REQUEST|
DataReader reader;
ByteBuilder byteBuilder = new ByteBuilder();
using (reader = new DataReader(_socket.InputStream))
{
// Read the length of the payload that will be received.
reader.InputStreamOptions = InputStreamOptions.Partial;
// The encoding and byte order need to match the settings of the writer we previously used.
reader.UnicodeEncoding = Windows.Storage.Streams.UnicodeEncoding.Utf8;
reader.ByteOrder = ByteOrder.LittleEndian;
// Send the contents of the writer to the backing stream.
// Get the size of the buffer that has not been read.
try
{
do
{
await reader.LoadAsync(_readBuffer);
var bytes = new Byte[reader.UnconsumedBufferLength];
reader.ReadBytes(bytes);
byteBuilder.AppendBytes(bytes);
// Keep reading until we consume the complete stream.
}while (reader.UnconsumedBufferLength > 0);
}
catch (Exception ex)
{
SocketErrorStatus webErrorStatus = SocketError.GetStatus(ex.GetBaseException().HResult);
result.ErrorMessage = (webErrorStatus.ToString() != "Unknown" ? webErrorStatus.ToString() : ex.Message);
return(result);
}
finally
{
reader.DetachStream();
}
}
var flattenedList = byteBuilder._bytes.SelectMany(bytes => bytes);
var RSP_packet = flattenedList.ToArray();
try
{
int RSP_len = (RSP_packet[2] << 8) | RSP_packet[3];
int RSP_val_len = (RSP_packet[5] << 8) | RSP_packet[6];
result.Data = Encoding.ASCII.GetString(RSP_packet, 7, RSP_val_len);
int RSP_read_status = RSP_packet[7 + (RSP_val_len + 2)];
if ((RSP_read_status > 0) & (RSP_val_len > 0) &
(RSP_packet[0] == PKT_req_id[0]) & (RSP_packet[1] == PKT_req_id[1]))
{
result.Succeeded = true;
return(result);
}
else
{
result.ErrorMessage = "Cannot be read";
return(result);
}
}
catch (Exception ex)
{
result.ErrorMessage = ex.Message;
return(result);
}
}
/// <summary>
/// This is the click handler for the 'StartListener' button.
/// </summary>
/// <param name="sender">Object for which the event was generated.</param>
/// <param name="e">Event's parameters.</param>
public async void StartListener()
{
// Overriding the listener here is safe as it will be deleted once all references to it are gone.
// However, in many cases this is a dangerous pattern to override data semi-randomly (each time user
// clicked the button) so we block it here.
if (CoreApplication.Properties.ContainsKey("listener"))
{
Util.Log(
"This step has already been executed. Please move to the next one.",
NotifyType.ErrorMessage);
return;
}
if (String.IsNullOrEmpty(PortOrServicenameForListener))
{
Util.Log("Please provide a service name.", NotifyType.ErrorMessage);
return;
}
CoreApplication.Properties.Remove("serverAddress");
LocalHostItem selectedLocalHost = null;
if ((BindToAddress_IsChecked == true) || (BindToAdapter_IsChecked == true))
{
selectedLocalHost = new LocalHostItem(RemoteSocketListenerSvrName);
if (selectedLocalHost == null)
{
Util.Log("Please select an address / adapter.", NotifyType.ErrorMessage);
return;
}
// The user selected an address. For demo purposes, we ensure that connect will be using the same
// address.
CoreApplication.Properties.Add("serverAddress", selectedLocalHost.LocalHost.CanonicalName);
}
StreamSocketListener listener = new StreamSocketListener();
listener.ConnectionReceived += OnConnection;
// If necessary, tweak the listener's control options before carrying out the bind operation.
// These options will be automatically applied to the connected StreamSockets resulting from
// incoming connections (i.e., those passed as arguments to the ConnectionReceived event handler).
// Refer to the StreamSocketListenerControl class' MSDN documentation for the full list of control options.
listener.Control.KeepAlive = false;
// Save the socket, so subsequent steps can use it.
CoreApplication.Properties.Add("listener", listener);
// Start listen operation.
try
{
if (BindToAny_IsChecked == true)
{
// Don't limit traffic to an address or an adapter.
await listener.BindServiceNameAsync(PortOrServicenameForListener);
Util.Log("Listening", NotifyType.StatusMessage);
}
else if (BindToAddress_IsChecked == true)
{
// Try to bind to a specific address.
await listener.BindEndpointAsync(selectedLocalHost.LocalHost, PortOrServicenameForListener);
Util.Log(
"Listening on address " + selectedLocalHost.LocalHost.CanonicalName,
NotifyType.StatusMessage);
Util.Log(
"On Port " + PortOrServicenameForListener,
NotifyType.StatusMessage);
}
else if (BindToAdapter_IsChecked == true)
{
// Try to limit traffic to the selected adapter.
// This option will be overridden by interfaces with weak-host or forwarding modes enabled.
NetworkAdapter selectedAdapter = selectedLocalHost.LocalHost.IPInformation.NetworkAdapter;
// For demo purposes, ensure that we use the same adapter in the client connect scenario.
CoreApplication.Properties.Add("adapter", selectedAdapter);
await listener.BindServiceNameAsync(
PortOrServicenameForListener,
SocketProtectionLevel.PlainSocket,
selectedAdapter);
Util.Log(
"Listening on adapter " + selectedAdapter.NetworkAdapterId,
NotifyType.StatusMessage);
}
}
catch (Exception exception)
{
CoreApplication.Properties.Remove("listener");
// If this is an unknown status it means that the error is fatal and retry will likely fail.
if (SocketError.GetStatus(exception.HResult) == SocketErrorStatus.Unknown)
{
throw;
}
Util.Log(
"Start listening failed with error: " + exception.Message,
NotifyType.ErrorMessage);
}
}
public void MainLoop()
{
try
{
bool shutdownCleanly = false;
try
{
while (m_running)
{
try
{
MainLoopIteration();
}
catch (SoftProtocolException spe)
{
QuiesceChannel(spe);
}
}
shutdownCleanly = true;
}
catch (EndOfStreamException eose)
{
// Possible heartbeat exception
HandleMainLoopException(new ShutdownEventArgs(
ShutdownInitiator.Library,
0,
"End of stream",
eose));
}
catch (HardProtocolException hpe)
{
shutdownCleanly = HardProtocolExceptionHandler(hpe);
}
#if !NETFX_CORE
catch (Exception ex)
{
HandleMainLoopException(new ShutdownEventArgs(ShutdownInitiator.Library,
Constants.InternalError,
"Unexpected Exception",
ex));
}
#endif
// If allowed for clean shutdown, run main loop until the
// connection closes.
if (shutdownCleanly)
{
#pragma warning disable 0168
try
{
ClosingLoop();
}
#if NETFX_CORE
catch (Exception ex)
{
if (SocketError.GetStatus(ex.HResult) != SocketErrorStatus.Unknown)
{
// means that socket was closed when frame handler
// attempted to use it. Since we are shutting down,
// ignore it.
}
else
{
throw ex;
}
}
#else
catch (SocketException se)
{
// means that socket was closed when frame handler
// attempted to use it. Since we are shutting down,
// ignore it.
}
#endif
#pragma warning restore 0168
}
FinishClose();
}
finally
{
m_appContinuation.Set();
}
}
private static NtpNetworkException ExceptionToNtpNetworkException(Exception ex)
{
return(new NtpNetworkException(ex.Message, (int)SocketError.GetStatus(ex.HResult), ex));
}
/// <summary>
/// A client has connected (nothing has been sent or received yet)
/// </summary>
/// <returns></returns>
private async void OnClientConnected(StreamSocketListener sender, StreamSocketListenerConnectionReceivedEventArgs args)
{
if (args == null || args.Socket == null)
{
return;
}
_logger.Debug("Connection from {0}:{1} to {2}:{3} was opened",
args.Socket.Information.RemoteHostName.DisplayName,
args.Socket.Information.RemotePort,
args.Socket.Information.LocalAddress.DisplayName,
args.Socket.Information.LocalPort);
_logger.Trace("Pipeline => HttpServer.OnClientConnected");
ClientConnectedEventArgs connectedArgs = new ClientConnectedEventArgs(args);
try
{
ClientConnected(sender, connectedArgs);
if (connectedArgs.AllowConnect == false)
{
if (connectedArgs.Response != null)
{
await connectedArgs.Response.FlushAsync();
}
_logger.Debug("Connection from {0}:{1} to {2}:{3} was denied access to connect",
args.Socket.Information.RemoteHostName.DisplayName,
args.Socket.Information.RemotePort,
args.Socket.Information.LocalAddress.DisplayName,
args.Socket.Information.LocalPort);
}
else
{
OnMessageReceived(connectedArgs.Socket);
}
}
catch (Exception ex)
{
// If this is an unknown status it means that the error is fatal and retry will likely fail.
if (SocketError.GetStatus(ex.HResult) == SocketErrorStatus.Unknown)
{
IsActive = false;
ListenerError(_listener, ex);
_logger.Error("Http request failed with error: {0}", ex.Message, ex);
}
else
{
OnClientDisconnected(_listener, ex, SocketError.GetStatus(ex.HResult));
}
_logger.Debug("Connection from {0}:{1} to {2}:{3} was {4}",
args.Socket.Information.RemoteHostName.DisplayName,
args.Socket.Information.RemotePort,
args.Socket.Information.LocalAddress.DisplayName,
args.Socket.Information.LocalPort,
SocketError.GetStatus(ex.HResult).ToString());
}
}
async private void SendHello(uint sizeOfArray)
{
if (!CoreApplication.Properties.ContainsKey("connected"))
{
rootPage.NotifyUser("Please run previous steps before doing this one.", NotifyType.ErrorMessage);
return;
}
object outValue;
StreamSocket socket;
if (!CoreApplication.Properties.TryGetValue("clientSocket", out outValue))
{
rootPage.NotifyUser("Please run previous steps before doing this one.", NotifyType.ErrorMessage);
return;
}
socket = (StreamSocket)outValue;
// Create a DataWriter if we did not create one yet. Otherwise use one that is already cached.
DataWriter writer;
if (!CoreApplication.Properties.TryGetValue("clientDataWriter", out outValue))
{
writer = new DataWriter(socket.OutputStream);
CoreApplication.Properties.Add("clientDataWriter", writer);
}
else
{
writer = (DataWriter)outValue;
}
writer.WriteUInt32(sizeOfArray);
// Write first the length of the string as UINT32 value followed up by the string.
// Writing data to the writer will just store data in memory.
DateTime now = DateTime.Now;
//string stringToSend = now.ToString("yyyy-MM-ddTHH:mm:ss.fff");
//writer.WriteUInt32(writer.MeasureString(stringToSend));
//writer.WriteString(stringToSend);
for (int i = 0; i < sizeOfArray; i++)
{
writer.WriteSingle(dataInFloat[i]);
}
// Write the locally buffered data to the network.
try
{
await writer.StoreAsync();
DateTime after = DateTime.Now;
TimeSpan delay = after - now;
Debug.WriteLine("RTT is " + delay.ToString() + " sent successfully.");
}
catch (Exception exception)
{
// If this is an unknown status it means that the error if fatal and retry will likely fail.
if (SocketError.GetStatus(exception.HResult) == SocketErrorStatus.Unknown)
{
throw;
}
rootPage.NotifyUser("Send failed with error: " + exception.Message, NotifyType.ErrorMessage);
}
}
/// <summary>
/// This is the click handler for the 'SendHello' button.
/// </summary>
/// <param name="sender">Object for which the event was generated.</param>
/// <param name="e">Event's parameters.</param>
public async Task <bool> Send(string SendData)
{
if (Sox.AppMode != AppMode.ClientSocketReadyToSend)
{
if (Sox.AppMode == AppMode.ClientSocketConnected)
{
Sox.Instance.Log(
"Client send failed with warning: App Client Socket connected but not ready to send.",
NotifyType.ErrorMessage);
}
else
{
Sox.Instance.Log(
"Client send failed with error: App not in new Client Ready To Send Mode",
NotifyType.ErrorMessage);
}
return(false);
}
string stringToSend = SendData;// "Hello";
if (!CoreApplication.Properties.ContainsKey("connected"))
{
Sox.Instance.Log("Client not connected.", NotifyType.ErrorMessage);
return(false);
}
else
{
object outValue;
StreamSocket socket;
if (!CoreApplication.Properties.TryGetValue("clientSocket", out outValue))
{
Sox.Instance.Log("Client socket not enabled.", NotifyType.ErrorMessage);
return(false);
}
else
{
socket = (StreamSocket)outValue;
// Create a DataWriter if we did not create one yet. Otherwise use one that is already cached.
DataWriter writer;
if (!CoreApplication.Properties.TryGetValue("clientDataWriter", out outValue))
{
writer = new DataWriter(socket.OutputStream);
CoreApplication.Properties.Add("clientDataWriter", writer);
}
else
{
writer = (DataWriter)outValue;
}
// Write first the length of the string as UINT32 value followed up by the string.
// Writing data to the writer will just store data in memory.
string actualStringToSend = Passkey + stringToSend;
writer.WriteUInt32(writer.MeasureString(actualStringToSend));
writer.WriteString(actualStringToSend);
// Write the locally buffered data to the network.
try
{
Sox.StartToken();
await writer.StoreAsync().AsTask(Sox.CancelToken);
SendOutput = "\"" + stringToSend + "\" sent successfully.";
}
catch (TaskCanceledException)
{
Sox.Instance.Log("Canceled.", NotifyType.StatusMessage);
return(false);
}
catch (Exception exception)
{
// If this is an unknown status it means that the error if fatal and retry will likely fail.
if (SocketError.GetStatus(exception.HResult) == SocketErrorStatus.Unknown)
{
throw;
}
Sox.Instance.Log("Send failed with error: " + exception.Message, NotifyType.ErrorMessage);
return(false);
}
}
}
return(true);
}
/// <summary>
/// This is the click handler for the 'StartListener' button.
/// </summary>
/// <param name="sender">Object for which the event was generated.</param>
/// <param name="e">Event's parameters.</param>
private async void StartListener_Click(object sender, RoutedEventArgs e)
{
if (String.IsNullOrEmpty(ServiceName.Text))
{
rootPage.NotifyUser("Please provide a service name.", NotifyType.ErrorMessage);
return;
}
if (listenerSocket != null)
{
rootPage.NotifyUser("A listener socket is already set up.", NotifyType.ErrorMessage);
return;
}
bool isMulticastSocket = (MulticastRadioButton.IsChecked == true);
listenerSocket = new DatagramSocket();
listenerSocket.MessageReceived += MessageReceived;
if (isMulticastSocket)
{
// DatagramSockets conduct exclusive (SO_EXCLUSIVEADDRUSE) binds by default, effectively blocking
// any other UDP socket on the system from binding to the same local port. This is done to prevent
// other applications from eavesdropping or hijacking a DatagramSocket's unicast traffic.
//
// Setting the MulticastOnly control option to 'true' enables a DatagramSocket instance to share its
// local port with any Win32 sockets that are bound using SO_REUSEADDR/SO_REUSE_MULTICASTPORT and
// with any other DatagramSocket instances that have MulticastOnly set to true. However, note that any
// attempt to use a multicast-only DatagramSocket instance to send or receive unicast data will result
// in an exception being thrown.
//
// This control option is particularly useful when implementing a well-known multicast-based protocol,
// such as mDNS and UPnP, since it enables a DatagramSocket instance to coexist with other applications
// running on the system that also implement that protocol.
listenerSocket.Control.MulticastOnly = true;
}
// Start listen operation.
try
{
await listenerSocket.BindServiceNameAsync(ServiceName.Text);
if (isMulticastSocket)
{
// Join the multicast group to start receiving datagrams being sent to that group.
listenerSocket.JoinMulticastGroup(new HostName(RemoteAddress.Text));
rootPage.NotifyUser(
"Listening on port " + listenerSocket.Information.LocalPort + " and joined to multicast group",
NotifyType.StatusMessage);
}
else
{
rootPage.NotifyUser(
"Listening on port " + listenerSocket.Information.LocalPort,
NotifyType.StatusMessage);
}
// Enable scenario steps that require us to have an active listening socket.
SendMessageButton.IsEnabled = true;
CloseListenerButton.IsEnabled = true;
}
catch (Exception exception)
{
listenerSocket.Dispose();
listenerSocket = null;
// If this is an unknown status it means that the error is fatal and retry will likely fail.
if (SocketError.GetStatus(exception.HResult) == SocketErrorStatus.Unknown)
{
throw;
}
rootPage.NotifyUser(
"Start listening failed with error: " + exception.Message,
NotifyType.ErrorMessage);
}
}
public async void Connect(Uri uri)
{
if (ConnectionState != ConnectionStateType.Disconnected)
{
switch (ConnectionState)
{
case ConnectionStateType.Connecting:
Notify("Connecting...", NotifyType.ErrorMessage);
break;
case ConnectionStateType.Connected:
Notify("Already connected.", NotifyType.ErrorMessage);
break;
default:
break;
}
return;
}
try
{
Notify("Trying to connect ...", NotifyType.StatusMessage);
if (clientSocket == null)
{
clientSocket = new StreamSocket();
}
ConnectionState = ConnectionStateType.Connecting;
// Set timeout 3 sec
canclConnect = new CancellationTokenSource();
canclConnect.CancelAfter(1000);
// Try to connect to the
await clientSocket.ConnectAsync(new HostName(uri.Host), uri.Port.ToString(),
SocketProtectionLevel.PlainSocket).AsTask(canclConnect.Token);
ConnectionState = ConnectionStateType.Connected;
Notify("Connection established", NotifyType.StatusMessage);
}
catch (TaskCanceledException exception)
{
Notify("Connection timedout: " + exception.Message, NotifyType.ErrorMessage);
// the Close method is mapped to the C# Dispose
if (clientSocket != null)
{
clientSocket.Dispose();
}
clientSocket = null;
ConnectionState = ConnectionStateType.Disconnected;
}
catch (Exception exception)
{
// If this is an unknown status,
// it means that the error is fatal and retry will likely fail.
if (SocketError.GetStatus(exception.HResult) == SocketErrorStatus.Unknown)
{
throw;
}
Notify("Connect failed with error: " + exception.Message, NotifyType.ErrorMessage);
// the Close method is mapped to the C# Dispose
if (clientSocket != null)
{
clientSocket.Dispose();
}
clientSocket = null;
ConnectionState = ConnectionStateType.Disconnected;
}
}
async void Connect(object sender, RoutedEventArgs e)
{
rootPage.NotifyUser("", NotifyType.ErrorMessage);
DeviceInformation chosenDevInfo = null;
EndpointPair endpointPair = null;
try
{
// If nothing is selected, return
if (FoundDevicesList.SelectedIndex == -1)
{
rootPage.NotifyUser("Please select a device", NotifyType.StatusMessage);
return;
}
else
{
chosenDevInfo = devInfoCollection[FoundDevicesList.SelectedIndex];
}
rootPage.NotifyUser("Connecting to " + chosenDevInfo.Name + "....", NotifyType.StatusMessage);
// Connect to the selected WiFiDirect device
wfdDevice = await Windows.Devices.WiFiDirect.WiFiDirectDevice.FromIdAsync(chosenDevInfo.Id);
if (wfdDevice == null)
{
rootPage.NotifyUser("Connection to " + chosenDevInfo.Name + " failed.", NotifyType.StatusMessage);
return;
}
// Register for Connection status change notification
wfdDevice.ConnectionStatusChanged += new TypedEventHandler <Windows.Devices.WiFiDirect.WiFiDirectDevice, object>(DisconnectNotification);
// Get the EndpointPair collection
var EndpointPairCollection = wfdDevice.GetConnectionEndpointPairs();
if (EndpointPairCollection.Count > 0)
{
endpointPair = EndpointPairCollection[0];
}
else
{
rootPage.NotifyUser("Connection to " + chosenDevInfo.Name + " failed.", NotifyType.StatusMessage);
return;
}
PCIpAddress.Text = "PC's IP Address: " + endpointPair.LocalHostName.ToString();
DeviceIpAddress.Text = "Device's IP Address: " + endpointPair.RemoteHostName.ToString();
PCIpAddress.Visibility = Visibility.Visible;
DeviceIpAddress.Visibility = Visibility.Visible;
//SendTextButton.Visibility = Visibility.Visible;
DisconnectButton.Visibility = Visibility.Visible;
ConnectButton.Visibility = Visibility.Collapsed;
FoundDevicesList.Visibility = Visibility.Collapsed;
GetDevicesButton.Visibility = Visibility.Collapsed;
rootPage.NotifyUser("Connection succeeded", NotifyType.StatusMessage);
//Server Socket open
StreamSocketListener listener = new StreamSocketListener();
listener.ConnectionReceived += OnConnection;
// Start listen operation.
try
{
// bind to any
// Don't limit traffic to an address or an adapter.
await listener.BindServiceNameAsync("9190");
rootPage.NotifyUser("Listening", NotifyType.StatusMessage);
// bind to specific address
// Try to bind to a specific address.
//BindEndpointAsync(Target IPAddr, Port Number)
//HostName DeviceIPHostName = new HostName(endpointPair.RemoteHostName.ToString());
//await listener.BindEndpointAsync(DeviceIPHostName, "9190");
//rootPage.NotifyUser(
// "Listening on address " + DeviceIPHostName.ToString(), NotifyType.StatusMessage);
}
catch (Exception exception)
{
// If this is an unknown status it means that the error is fatal and retry will likely fail.
if (SocketError.GetStatus(exception.HResult) == SocketErrorStatus.Unknown)
{
throw;
}
rootPage.NotifyUser(
"Start listening failed with error: " + exception.Message, NotifyType.ErrorMessage);
}
}
catch (Exception err)
{
rootPage.NotifyUser("Connection to " + chosenDevInfo.Name + " failed: " + err.Message, NotifyType.ErrorMessage);
}
}
public async void WriteToLight(double red, double green, double blue, double brightness)
{
if (isConnected)
{
/**********************************************************
* This is a port from https://www.npmjs.com/package/rgb-led
* Credits to:
* Secesh aka Matthew R Chase ([email protected])
* This is the core of the protocol we discovered. Commands
* look like this:
* [STX], [RED], [GREEN], [BLUE], [ETX]
* Each field is a hex byte with possible values 00-FF, which
* are expressed in decimal as 0-255.
*
* Each command starts (the STX value) with a value of 86.
* Each command ends (the ETX value) with a value of 170.
*
* The red, green, blue values combine to determine the color
* and brightness level. For example:
*
* Bright red would be: 255,0,0
* reduce the value to dim; a dim red could be: 40,0,0
* Bright green would be: 0,255,0
* Bright purple would be: 255,0,255
* a dim purple could be 40,0,40
* a less dim purple could be 160,0,160
*
* White is: 255,255,255
* Off is: 0,0,0
************************************************************/
red = Math.Round(red * brightness / 100);
green = Math.Round(green * brightness / 100);
blue = Math.Round(blue * brightness / 100);
DataWriter writer = new DataWriter(socket.OutputStream);
// Create the data writer object backed by the in-memory stream.
using (writer = new DataWriter(socket.OutputStream))
{
var message = new int[] { 86, Convert.ToInt32(red), Convert.ToInt32(green), Convert.ToInt32(blue), 170 };
byte[] messageBytes = message.SelectMany(value => BitConverter.GetBytes(value)).ToArray();
writer.WriteBytes(messageBytes);
// Send the contents of the writer to the backing stream.
try
{
await writer.StoreAsync();
}
catch (Exception exception)
{
switch (SocketError.GetStatus(exception.HResult))
{
case SocketErrorStatus.HostNotFound:
// Handle HostNotFound Error
Debug.WriteLine("LED Host/Port not found");
break;
default:
// If this is an unknown status it means that the error is fatal and retry will likely fail.
Debug.WriteLine(exception.Message);
break;
}
}
await writer.FlushAsync();
// In order to prolong the lifetime of the stream, detach it from the DataWriter
writer.DetachStream();
}
}
else
{
Debug.WriteLine("LED not connected");
}
}
public async Task <bool> Connect()
{
if (_connected)
{
return(false);
}
try
{
_serverHost = new Windows.Networking.HostName(_IPAddress);
_clientSocket.Control.KeepAlive = true;
// Try to connect to the
await _clientSocket.ConnectAsync(_serverHost, _port);
_connected = true;
}
catch (Exception exception)
{
// If this is an unknown status,
// it means that the error is fatal and retry will likely fail.
if (SocketError.GetStatus(exception.HResult) == SocketErrorStatus.Unknown)
{
throw;
}
// Could retry the connection, but for this simple example
// just close the socket.
_closing = true;
// the Close method is mapped to the C# Dispose
_clientSocket.Dispose();
_clientSocket = null;
return(false);
}
if (_connected)
{
return(true);
}
try
{
_clientSocket.Control.KeepAlive = true;
_serverHost = new Windows.Networking.HostName(_IPAddress);
// Try to connect to the
await _clientSocket.ConnectAsync(_serverHost, _port);
_connected = true;
return(_connected);
}
catch (Exception exception)
{
// If this is an unknown status,
// it means that the error is fatal and retry will likely fail.
if (SocketError.GetStatus(exception.HResult) == SocketErrorStatus.Unknown)
{
throw;
}
// Could retry the connection, but for this simple example
// just close the socket.
_closing = true;
// the Close method is mapped to the C# Dispose
_clientSocket.Dispose();
_clientSocket = null;
return(false);
}
}
/// <summary>
/// 接收数据
/// </summary>
/// <returns></returns>
private async Task BeginReceived()
{
//绑定已连接的StreamSocket到DataReader
DataReader reader = new DataReader(clientSocket.InputStream);
while (true)
{
try
{
byte[] tempByteArr;
//获取数据长度
tempByteArr = new byte[4];
await reader.LoadAsync(sizeof(uint));
reader.ReadBytes(tempByteArr);
uint dataLength = System.BitConverter.ToUInt32(tempByteArr, 0);
//StatusText.Text = dataLength.ToString();
//获取msgID
tempByteArr = new byte[4];
await reader.LoadAsync(sizeof(int));
reader.ReadBytes(tempByteArr);
int msgID = System.BitConverter.ToInt32(tempByteArr, 0);
//读完数据头
tempByteArr = new byte[32];
await reader.LoadAsync(32);
reader.ReadBytes(tempByteArr);
if (dataLength > 0)
{
//读取数据正文
tempByteArr = new byte[dataLength];
await reader.LoadAsync(dataLength);
reader.ReadBytes(tempByteArr);
StatusText.Text = System.Text.UnicodeEncoding.UTF8.GetString(tempByteArr, 0, int.Parse(dataLength.ToString()));
}
else
{
StatusText.Text = "";
}
}
catch (Exception exception)
{
// If this is an unknown status,
// it means that the error is fatal and retry will likely fail.
if (SocketError.GetStatus(exception.HResult) == SocketErrorStatus.Unknown)
{
throw;
}
StatusText.Text = "Send data or receive failed with error: " + exception.Message;
// Could retry the connection, but for this simple example
// just close the socket.
closing = true;
clientSocket.Dispose();
clientSocket = null;
connected = false;
}
}
}
//int frameCount = 0;
async void Discover()
{
Debug.Log("Discovering...");
//make handshake with TCP_client, and the port is set to be 4444
tcpSocket = new StreamSocket();
HostName networkHost = new HostName(CommandSet.IP.Trim());
try
{
await tcpSocket.ConnectAsync(networkHost, CommandSet.DISCOVERY_PORT.ToString());
Debug.Log("tcpSocket Connected!");
} catch (Exception e) {
Debug.Log(e.ToString());
Debug.Log(SocketError.GetStatus(e.HResult).ToString());
return;
}
//Write data to the echo server.
Stream streamOut = tcpSocket.OutputStream.AsStreamForWrite();
StreamWriter writer = new StreamWriter(streamOut);
//when the drone receive the message bellow, it will return the confirmation
string handshake_Message = "{\"controller_type\":\"computer\", \"controller_name\":\"halley\", \"d2c_port\":\"43210\", \"arstream2_client_stream_port\":\"55004\",\"arstream2_client_control_port\":\"55005\"}";
try
{
await writer.WriteLineAsync(handshake_Message);
await writer.FlushAsync();
Debug.Log("tcpSocket writer successful!");
} catch (Exception e) {
Debug.Log(e.ToString());
Debug.Log(SocketError.GetStatus(e.HResult).ToString());
return;
}
//Read data from the echo server.
Stream streamIn = tcpSocket.InputStream.AsStreamForRead();
StreamReader reader = new StreamReader(streamIn);
string receive_Message = await reader.ReadLineAsync();
if (receive_Message == null)
{
Debug.Log("Discover failed");
//return -1;
isConnected = false;
}
else
{
Debug.Log("The message from the drone shows: " + receive_Message);
//initialize
initPCMD();
initCMD();
//All State setting
generateAllStates();
generateAllSettings();
isConnected = true;
Debug.Log("isConnected = true");
pcmdThreadActive();
//return 1;
}
}
private async void Listener_ConnectionReceived(StreamSocketListener sender, StreamSocketListenerConnectionReceivedEventArgs args)
{
temp = "connected!";
DataReader reader = new DataReader(args.Socket.InputStream);
DataWriter writer = new DataWriter(args.Socket.OutputStream);
try
{
while (true)
{
//发送数据格式: 命令(1) 长度(1) 数据(长度)
byte[] ba = { 0 };
//读取命令,1字节
uint actualLength = await reader.LoadAsync(1);
if (actualLength != 1)
{
return; //socket提前close()了
}
command = uint.Parse(reader.ReadByte().ToString()); //解析命令
//读取数据长度, 1字节
actualLength = await reader.LoadAsync(1);
if (actualLength != 1)
{
return;
}
uint dataLength = uint.Parse(reader.ReadByte().ToString());; //解析数据长度
// Matrix4x4[] matrixGroup;
//读取所有数据,matrixlength长度
if (dataLength != 0)
{
bDataOK = true;
actualLength = await reader.LoadAsync(dataLength);
if (actualLength != dataLength)
{
return;//socket提前close()了
}
uint numberOfMatrix = dataLength / 64;
if (numberOfMatrix < 1)
{
return; //未收到一个矩阵
}
matrixGroup = new Matrix4x4[numberOfMatrix];
for (int i = 0; i < numberOfMatrix; i++)
{
for (int j = 0; j < 4; j++)
{
float[] column = new float[4];
for (int k = 0; k < 4; k++)
{
byte[] temp = new byte[4];
reader.ReadBytes(temp);
column[k] = BitConverter.ToSingle(temp, 0);
}
matrixGroup[i].SetColumn(j, new Vector4(column[0], column[1], column[2], column[3]));
}
}
}
//返回一个初始化的矩阵做测试
Matrix4x4 mat = new Matrix4x4(); //这里为要发送的矩阵
mat = fanhui;
for (int i = 0; i < 4; i++)
{
for (int j = 0; j < 4; j++)
{
byte[] b = BitConverter.GetBytes(mat[j, i]);
writer.WriteBytes(b);
}
}
await writer.StoreAsync();
Debug.Log("Return Matrixs");
bDataOK = true;
}
}
catch (Exception exception)
{
// If this is an unknown status it means that the error if fatal and retry will likely fail.
if (SocketError.GetStatus(exception.HResult) == SocketErrorStatus.Unknown)
{
throw;
}
}
}
public void startReaderTask()
{
if (state != ConnectionState.CONNECTED)
{
throw new InvalidOperationException("[TCPConnection2]: Unable to start reader task! ConnectionState != CONNECTED - state = " + state);
}
// Ensure no other reader task is running:
if (readingCTS != null && !readingCTS.IsCancellationRequested)
{
readingCTS.Cancel();
}
readingCTS = new CancellationTokenSource();
try
{
Task.Run(async() =>
{
TCPReadResult readResult = null;
int lastReadingFailedCount = 0;
int errorCount = 0;
DateTime lastReadingFailed = DateTime.MinValue;
while (state == ConnectionState.CONNECTED && errorCount < 3)
{
try
{
readResult = await readAsync();
// Check if reading failed:
switch (readResult.STATE)
{
case TCPReadState.SUCCESS:
lastReadingFailedCount = 0;
errorCount = 0;
Logger.Debug("[TCPConnection2]: Received from (" + account.serverAddress + "):" + readResult.DATA);
// Trigger the NewDataReceived event:
NewDataReceived?.Invoke(this, new NewDataReceivedEventArgs(readResult.DATA));
break;
case TCPReadState.FAILURE:
if (lastReadingFailedCount++ <= 0)
{
lastReadingFailed = DateTime.Now;
}
// Read 5 empty or null strings in an interval lower than 1 second:
double c = DateTime.Now.Subtract(lastReadingFailed).TotalSeconds;
if (lastReadingFailedCount > 5 && c < 1)
{
lastConnectionError = new ConnectionError(ConnectionErrorCode.READING_LOOP);
errorCount = int.MaxValue;
continue;
}
break;
case TCPReadState.END_OF_STREAM:
Logger.Info("Socket closed because received 0-length message from: " + account.serverAddress);
disconnect();
break;
}
}
catch (OperationCanceledException)
{
lastConnectionError = new ConnectionError(ConnectionErrorCode.READING_CANCELED);
errorCount++;
}
catch (Exception e)
{
SocketErrorStatus status = SocketErrorStatus.Unknown;
if (e is AggregateException aggregateException && aggregateException.InnerException != null)
{
status = SocketError.GetStatus(e.InnerException.HResult);
}
else
{
Exception baseException = e.GetBaseException();
if (baseException != null)
{
status = SocketError.GetStatus(e.GetBaseException().HResult);
}
else
{
status = SocketError.GetStatus(e.HResult);
}
}
lastConnectionError = new ConnectionError(status, e.Message);
switch (status)
{
// Some kind of connection lost:
case SocketErrorStatus.ConnectionTimedOut:
case SocketErrorStatus.ConnectionRefused:
case SocketErrorStatus.NetworkDroppedConnectionOnReset:
case SocketErrorStatus.SoftwareCausedConnectionAbort:
case SocketErrorStatus.ConnectionResetByPeer:
errorCount = int.MaxValue;
break;
default:
errorCount++;
break;
}
}
void PrintException(string from, Exception exception)
{
Log(from + " " + SocketError.GetStatus(exception.HResult).ToString());
}
private async void StartListener_Click(object sender, RoutedEventArgs e)
{
// Overriding the listener here is safe as it will be deleted once all references to it are gone.
// However, in many cases this is a dangerous pattern to override data semi-randomly (each time user
// clicked the button) so we block it here.
if (CoreApplication.Properties.ContainsKey("listener"))
{
rootPage.NotifyUser(
"This step has already been executed. Please move to the next one.",
NotifyType.ErrorMessage);
return;
}
if (String.IsNullOrEmpty(ServiceNameForListener.Text))
{
rootPage.NotifyUser("Please provide a service name.", NotifyType.ErrorMessage);
return;
}
CoreApplication.Properties.Remove("serverAddress");
CoreApplication.Properties.Remove("adapter");
LocalHostItem selectedLocalHost = null;
selectedLocalHost = (LocalHostItem)AdapterList.SelectedItem;
if (selectedLocalHost == null)
{
rootPage.NotifyUser("Please select an address / adapter.", NotifyType.ErrorMessage);
return;
}
// The user selected an address. For demo purposes, we ensure that connect will be using the same
// address.
CoreApplication.Properties.Add("serverAddress", selectedLocalHost.LocalHost.CanonicalName);
StreamSocketListener listener = new StreamSocketListener();
listener.ConnectionReceived += OnConnection;
// If necessary, tweak the listener's control options before carrying out the bind operation.
// These options will be automatically applied to the connected StreamSockets resulting from
// incoming connections (i.e., those passed as arguments to the ConnectionReceived event handler).
// Refer to the StreamSocketListenerControl class' MSDN documentation for the full list of control options.
listener.Control.KeepAlive = false;
// Save the socket, so subsequent steps can use it.
CoreApplication.Properties.Add("listener", listener);
// Start listen operation.
try
{
// Try to bind to a specific address.
await listener.BindEndpointAsync(selectedLocalHost.LocalHost, ServiceNameForListener.Text);
rootPage.NotifyUser(
"Listening on address " + selectedLocalHost.LocalHost.CanonicalName,
NotifyType.StatusMessage);
}
catch (Exception exception)
{
CoreApplication.Properties.Remove("listener");
// If this is an unknown status it means that the error is fatal and retry will likely fail.
if (SocketError.GetStatus(exception.HResult) == SocketErrorStatus.Unknown)
{
throw;
}
rootPage.NotifyUser(
"Start listening failed with error: " + exception.Message,
NotifyType.ErrorMessage);
}
}
/// <summary>
/// This is the click handler for the 'ConnectSocket' button.
/// </summary>
/// <param name="sender">Object for which the event was generated.</param>
/// <param name="e">Event's parameters.</param>
private async void ConnectSocket_Click(object sender, RoutedEventArgs e)
{
if (CoreApplication.Properties.ContainsKey("clientSocket"))
{
rootPage.NotifyUser(
"This step has already been executed. Please move to the next one.",
NotifyType.ErrorMessage);
return;
}
if (String.IsNullOrEmpty(ServiceNameForConnect.Text))
{
rootPage.NotifyUser("Please provide a service name.", NotifyType.ErrorMessage);
return;
}
// By default 'HostNameForConnect' is disabled and host name validation is not required. When enabling the
// text box validating the host name is required since it was received from an untrusted source
// (user input). The host name is validated by catching ArgumentExceptions thrown by the HostName
// constructor for invalid input.
HostName hostName;
try
{
hostName = new HostName(HostNameForConnect.Text);
}
catch (ArgumentException)
{
rootPage.NotifyUser("Error: Invalid host name.", NotifyType.ErrorMessage);
return;
}
StreamSocket socket = new StreamSocket();
// If necessary, tweak the socket's control options before carrying out the connect operation.
// Refer to the StreamSocketControl class' MSDN documentation for the full list of control options.
socket.Control.KeepAlive = false;
// Save the socket, so subsequent steps can use it.
CoreApplication.Properties.Add("clientSocket", socket);
try
{
if (adapter == null)
{
rootPage.NotifyUser("Connecting to: " + HostNameForConnect.Text, NotifyType.StatusMessage);
// Connect to the server (by default, the listener we created in the previous step).
await socket.ConnectAsync(hostName, ServiceNameForConnect.Text);
rootPage.NotifyUser("Connected", NotifyType.StatusMessage);
}
else
{
rootPage.NotifyUser(
"Connecting to: " + HostNameForConnect.Text +
" using network adapter " + adapter.NetworkAdapterId,
NotifyType.StatusMessage);
// Connect to the server (by default, the listener we created in the previous step)
// limiting traffic to the same adapter that the user specified in the previous step.
// This option will be overridden by interfaces with weak-host or forwarding modes enabled.
await socket.ConnectAsync(
hostName,
ServiceNameForConnect.Text,
SocketProtectionLevel.PlainSocket,
adapter);
rootPage.NotifyUser(
"Connected using network adapter " + adapter.NetworkAdapterId,
NotifyType.StatusMessage);
}
// Mark the socket as connected. Set the value to null, as we care only about the fact that the
// property is set.
CoreApplication.Properties.Add("connected", null);
}
catch (Exception exception)
{
// If this is an unknown status it means that the error is fatal and retry will likely fail.
if (SocketError.GetStatus(exception.HResult) == SocketErrorStatus.Unknown)
{
throw;
}
rootPage.NotifyUser("Connect failed with error: " + exception.Message, NotifyType.ErrorMessage);
}
}
private static string GetErrorText(Exception ex)
{
return(string.Format("{0} ({1})", ex.Message, SocketError.GetStatus(ex.GetBaseException().HResult)));
}
public async Task NetworkRequestAsync(byte[] requestBytes,
TimeSpan scanTime,
int retries,
int retryDelayMilliseconds,
Action <string, byte[]> onResponse,
CancellationToken cancellationToken)
{
using (var socket = new DatagramSocket())
{
// setup delegate to detach from later
TypedEventHandler <DatagramSocket, DatagramSocketMessageReceivedEventArgs> handler =
(sock, args) =>
{
var dr = args.GetDataReader();
var buffer = dr.ReadBuffer(dr.UnconsumedBufferLength).ToArray();
onResponse(args.RemoteAddress.CanonicalName.ToString(), buffer);
};
socket.MessageReceived += handler;
var socketBound = false;
for (var i = 0; i < retries; i++)
{
cancellationToken.ThrowIfCancellationRequested();
try
{
await BindToSocketAndWriteQuery(socket,
requestBytes,
cancellationToken).ConfigureAwait(false);
socketBound = true;
}
catch (Exception e)
{
socketBound = false;
Debug.WriteLine("Exception trying to Bind:\n{0}", e);
// Most likely a fatal error
if (SocketError.GetStatus(e.HResult) == SocketErrorStatus.Unknown)
{
throw;
}
// If we're not connected on the last retry, rethrow the underlying exception
if (i + 1 >= retries)
{
throw;
}
}
if (socketBound)
{
break;
}
Debug.WriteLine("Retrying in {0} ms", retryDelayMilliseconds);
// Not found, wait to try again
await Task.Delay(retryDelayMilliseconds, cancellationToken).ConfigureAwait(false);
}
if (socketBound)
{
// wait for responses
await Task.Delay(scanTime, cancellationToken).ConfigureAwait(false);
Debug.WriteLine("Done Scanning");
}
}
}
private async void OnConnection(StreamSocketListener sender, StreamSocketListenerConnectionReceivedEventArgs args)
{
try
{
while (true)
{
reader = new DataReader(args.Socket.InputStream);
// Read first 4 bytes (length of the subsequent string).
uint sizeFieldCount = await reader.LoadAsync(sizeof(uint));
if (sizeFieldCount != sizeof(uint))
{
// The underlying socket was closed before we were able to read the whole data.
return;
}
// Read the string.
uint stringLength = reader.ReadUInt32();
uint actualStringLength = await reader.LoadAsync(stringLength);
if (stringLength != actualStringLength)
{
// The underlying socket was closed before we were able to read the whole data.
return;
}
string s = reader.ReadString(actualStringLength);
// Display the string on the screen. The event is invoked on a non-UI thread, so we need to marshal
// the text back to the UI thread.
NotifyUserFromAsyncThread(
String.Format("Received data: \"{0}\"", s),
NotifyType.StatusMessage);
bool t = s.ToLower().Contains("on");
bool f = s.ToLower().Contains("off");
if (t)
{
if (bGpioStatus)
{
pinValue = GpioPinValue.High;
myPin.Write(pinValue);
NotifyUserFromAsyncThreadBulb(1);
}
}
else
if (f)
{
if (bGpioStatus)
{
pinValue = GpioPinValue.Low;
myPin.Write(pinValue);
NotifyUserFromAsyncThreadBulb(0);
}
}
//reader.DetachStream();
}
}
catch (Exception exception)
{
// If this is an unknown status it means that the error is fatal and retry will likely fail.
if (SocketError.GetStatus(exception.HResult) == SocketErrorStatus.Unknown)
{
throw;
}
//SendMessage.Text =
// "Read stream failed with error: " + exception.Message;
}
}
/// <summary>
/// This is the click handler for the 'StartListener' button.
/// </summary>
/// <param name="sender">Object for which the event was generated.</param>
/// <param name="e">Event's parameters.</param>
private async void StartListener_Click(object sender, RoutedEventArgs e)
{
if (String.IsNullOrEmpty(ServiceNameForListener.Text))
{
rootPage.NotifyUser("Please provide a service name.", NotifyType.ErrorMessage);
return;
}
if (CoreApplication.Properties.ContainsKey("listener"))
{
rootPage.NotifyUser(
"This step has already been executed. Please move to the next one.",
NotifyType.ErrorMessage);
return;
}
CoreApplication.Properties.Remove("serverAddress");
DatagramSocket listener = new DatagramSocket();
listener.MessageReceived += MessageReceived;
if (!String.IsNullOrWhiteSpace(InboundBufferSize.Text))
{
uint inboundBufferSize = 0;
if (!uint.TryParse(InboundBufferSize.Text, out inboundBufferSize))
{
rootPage.NotifyUser(
"Please provide a positive numeric Inbound buffer size.",
NotifyType.ErrorMessage);
return;
}
try
{
// Running both client and server on localhost will most likely not reach the buffer limit.
listener.Control.InboundBufferSizeInBytes = inboundBufferSize;
}
catch (ArgumentException)
{
rootPage.NotifyUser("Please provide a valid Inbound buffer size.", NotifyType.ErrorMessage);
return;
}
}
LocalHostItem selectedLocalHost = null;
if ((BindToAddress.IsChecked == true) || (BindToAdapter.IsChecked == true))
{
selectedLocalHost = (LocalHostItem)AdapterList.SelectedItem;
if (selectedLocalHost == null)
{
rootPage.NotifyUser("Please select an address / adapter.", NotifyType.ErrorMessage);
return;
}
// The user selected an address. For demo purposes, we ensure that connect will be using the same
// address.
CoreApplication.Properties.Add("serverAddress", selectedLocalHost.LocalHost.CanonicalName);
}
// Save the socket, so subsequent steps can use it.
CoreApplication.Properties.Add("listener", listener);
// Start listen operation.
try
{
if (BindToAny.IsChecked == true)
{
// Don't limit traffic to an address or an adapter.
await listener.BindServiceNameAsync(ServiceNameForListener.Text);
rootPage.NotifyUser("Listening", NotifyType.StatusMessage);
}
else if (BindToAddress.IsChecked == true)
{
// Try to bind to a specific address.
await listener.BindEndpointAsync(selectedLocalHost.LocalHost, ServiceNameForListener.Text);
rootPage.NotifyUser(
"Listening on address " + selectedLocalHost.LocalHost.CanonicalName,
NotifyType.StatusMessage);
}
else if (BindToAdapter.IsChecked == true)
{
// Try to limit traffic to the selected adapter.
// This option will be overriden by interfaces with weak-host or forwarding modes enabled.
NetworkAdapter selectedAdapter = selectedLocalHost.LocalHost.IPInformation.NetworkAdapter;
await listener.BindServiceNameAsync(ServiceNameForListener.Text, selectedAdapter);
rootPage.NotifyUser(
"Listening on adapter " + selectedAdapter.NetworkAdapterId,
NotifyType.StatusMessage);
}
}
catch (Exception exception)
{
CoreApplication.Properties.Remove("listener");
// If this is an unknown status it means that the error is fatal and retry will likely fail.
if (SocketError.GetStatus(exception.HResult) == SocketErrorStatus.Unknown)
{
throw;
}
rootPage.NotifyUser(
"Start listening failed with error: " + exception.Message,
NotifyType.ErrorMessage);
}
}
/// <summary>
/// This is the click handler for the 'ConnectSocket' button.
/// </summary>
/// <param name="sender">Object for which the event was generated.</param>
/// <param name="e">Event's parameters.</param>
private async void ConnectSocket_Click(object sender, RoutedEventArgs e)
{
if (String.IsNullOrEmpty(ServiceNameForConnect.Text))
{
rootPage.NotifyUser("Please provide a service name.", NotifyType.ErrorMessage);
return;
}
// By default 'HostNameForConnect' is disabled and host name validation is not required. When enabling the
// text box validating the host name is required since it was received from an untrusted source (user
// input). The host name is validated by catching ArgumentExceptions thrown by the HostName constructor for
// invalid input.
HostName hostName;
try
{
hostName = new HostName(HostNameForConnect.Text);
}
catch (ArgumentException)
{
rootPage.NotifyUser("Error: Invalid host name.", NotifyType.ErrorMessage);
return;
}
if (CoreApplication.Properties.ContainsKey("clientSocket"))
{
rootPage.NotifyUser(
"This step has already been executed. Please move to the next one.",
NotifyType.ErrorMessage);
return;
}
DatagramSocket socket = new DatagramSocket();
if (DontFragment.IsOn)
{
// Set the IP DF (Don't Fragment) flag.
// This won't have any effect when running both client and server on localhost.
// Refer to the DatagramSocketControl class' MSDN documentation for the full list of control options.
socket.Control.DontFragment = true;
}
socket.MessageReceived += MessageReceived;
// Save the socket, so subsequent steps can use it.
CoreApplication.Properties.Add("clientSocket", socket);
rootPage.NotifyUser("Connecting to: " + HostNameForConnect.Text, NotifyType.StatusMessage);
try
{
// Connect to the server (by default, the listener we created in the previous step).
await socket.ConnectAsync(hostName, ServiceNameForConnect.Text);
rootPage.NotifyUser("Connected", NotifyType.StatusMessage);
// Mark the socket as connected. Set the value to null, as we care only about the fact that the
// property is set.
CoreApplication.Properties.Add("connected", null);
}
catch (Exception exception)
{
// If this is an unknown status it means that the error is fatal and retry will likely fail.
if (SocketError.GetStatus(exception.HResult) == SocketErrorStatus.Unknown)
{
throw;
}
rootPage.NotifyUser("Connect failed with error: " + exception.Message, NotifyType.ErrorMessage);
}
}
/// <summary>
/// Invoked once a connection is accepted by StreamSocketListener.
/// </summary>
/// <param name="sender">The listener that accepted the connection.</param>
/// <param name="args">Parameters associated with the accepted connection.</param>
private async void OnConnection(
StreamSocketListener sender,
StreamSocketListenerConnectionReceivedEventArgs args)
{
DataReader reader = new DataReader(args.Socket.InputStream);
try
{
//Windows.Storage.Streams.Buffer Out = new Windows.Storage.Streams.Buffer(100);
//await args.Socket.OutputStream.WriteAsync(Out);
while (true)
{
// Read first 4 bytes (length of the subsequent string).
uint sizeFieldCount = await reader.LoadAsync(sizeof(uint));
if (sizeFieldCount != sizeof(uint))
{
// The underlying socket was closed before we were able to read the whole data.
return;
}
// Read the string.
uint stringLength = reader.ReadUInt32();
uint actualStringLength = await reader.LoadAsync(stringLength);
if (stringLength != actualStringLength)
{
// The underlying socket was closed before we were able to read the whole data.
return;
}
string data = reader.ReadString(actualStringLength);
await NotifyUserFromAsyncThread(
String.Format("Received data: \"{0}\"", data),
NotifyType.StatusMessage);
if (data.Length > 0)
{
char command = data[0];
string param = data.Substring(1);
switch (command)
{
//case 'C':
// await RemoteControl.RemoteActions(Enums.Item.CameraToggle);
// break;
//case 'T':
// await RemoteControl.RemoteActions(Enums.Item.TakePhoto);
// break;
//case 'N':
// await RemoteControl.RemoteActions(Enums.Item.NoFlash);
// break;
//case 'A':
// await RemoteControl.RemoteActions(Enums.Item.AutoFlash);
// break;
//case 'F':
// await RemoteControl.RemoteActions(Enums.Item.Flash);
// break;
//case 'V':
// await RemoteControl.RemoteActions(Enums.Item.Video);
// break;
//case 'a':
// await RemoteControl.RemoteActions(Enums.Item.AutoFocus);
// break;
//case 'm':
// if (param != "")
// await RemoteControl.RemoteActions(Enums.Item.ManualFocus);
// else
// await RemoteControl.RemoteActions(Enums.Item.ManualFocus, param);
// break;
//case 'G':
// await RemoteControl.RemoteActions(Enums.Item.GPS);
// break;
//case 'Z':
// await RemoteControl.RemoteActions(Enums.Item.Zoom, param);
// break;
}
}
//});
// Display the string on the screen. The event is invoked on a non-UI thread, so we need to marshal
// the text back to the UI thread.
}
}
catch (Exception exception)
{
// If this is an unknown status it means that the error is fatal and retry will likely fail.
if (SocketError.GetStatus(exception.HResult) == SocketErrorStatus.Unknown)
{
throw;
}
await NotifyUserFromAsyncThread(
"Read stream failed with error: " + exception.Message,
NotifyType.ErrorMessage);
}
}
private async Task ProcessMessages()
{
using (StreamSocket socket = new StreamSocket())
{
HostName hostname = new HostName(string.Format("({0})", MeterMateId));
//HostName hostname = new HostName("(00:0A:4F:01:21:78)");
socket.Control.NoDelay = false;
string command = string.Empty;
try
{
// Connect to the Bluetooth device
await socket.ConnectAsync(hostname, "{00001101-0000-1000-8000-00805f9b34fb}");
while (true)
{
// Check if we should stop
if (stopProcessing)
{
break;
}
// Get the command name
command = await ReadResponse(socket);
if (!string.IsNullOrWhiteSpace(command))
{
txtOutput.Text = command;
// Parse the JSON
JsonObject json = JsonObject.Parse(command);
string commandType = json.GetNamedString("Command");
if (string.Compare(commandType, "gt", StringComparison.OrdinalIgnoreCase) == 0)
{
await ProcessTemperature(json);
}
else if (string.Compare(commandType, "gs", StringComparison.OrdinalIgnoreCase) == 0)
{
await ProcessStatus(json);
}
}
else
{
Debug.WriteLine("Not connected. Retrying ...");
txtOutput.Text = "OBC Not connected.\r\nConnect & restart app.";
StopProcessing();
}
}
}
catch (Exception ex)
{
string err = ex.Message;
txtOutput.Text = err;
SocketErrorStatus ses = SocketError.GetStatus(ex.HResult);
StopProcessing();
}
finally
{
socket.Dispose();
}
}
}
// message recieved handlers
#if !UNITY_EDITOR
private async void Prim_MessageReceived(DatagramSocket sender, DatagramSocketMessageReceivedEventArgs args)
{
if (jpgReady || decoding)
{
//Debug.Log("Ignoring recieved jpg, already one ready for processing");
return;
}
Debug.Log("Prim_MessageReceived Event: primary socket... updating content.");
// setup read operation
int messageLength = -1; // set to invalid state intitally
DataReader messageReader = args.GetDataReader();
messageReader.ByteOrder = ByteOrder.LittleEndian;
try {
messageLength = messageReader.ReadInt32(); // first 4 bytes of all messages must be int32 indicating length (all inclusive)
// next line (LoadAsync) causes System.Runtime.InteropServices.COMException... alternate solution implemented below
//await messageReader.LoadAsync((uint)messageLength);
// did not fix error.. just not LoadAsync'ing
//IAsyncOperation<uint> loadTask = messageReader.LoadAsync((uint)messageLength);
//loadTask.AsTask().Wait();
} catch (Exception ex) {
Debug.Log(string.Format("Exception setting up message read: {0}", ex.ToString()));
Debug.Log(SocketError.GetStatus(ex.HResult).ToString());
}
// read header (as int32s)
int[] header = new int[0]; // set to invalid state initally
try {
header = new int[HEADER_SIZE_PRIM / 4]; // 4 bytes per int
for (int i = 0; i < HEADER_SIZE_PRIM / 4; i++)
{
header[i] = messageReader.ReadInt32();
}
} catch (Exception ex) {
Debug.Log(string.Format("Exception reading message header: {0}", ex.ToString()));
Debug.Log(SocketError.GetStatus(ex.HResult).ToString());
}
// read body (as bytes)
byte[] body = new byte[0]; // set to invalid state initally
try {
int bodyLength = messageLength - HEADER_SIZE_PRIM - 4;
body = new byte[bodyLength];
messageReader.ReadBytes(body);
} catch (Exception ex) {
Debug.Log(string.Format("Exception reading message body: {0}", ex.ToString()));
Debug.Log(SocketError.GetStatus(ex.HResult).ToString());
}
// debug
Debug.Log(string.Format("PMRE: About to process message body. Body length: {0}", body.Length));
// split handling based on mode
if (Mode == Trans_Mode.fullFile)
{
FullFileMode_PMRE(body);
}
else if (Mode == Trans_Mode.fileName)
{
FileNameMode_PMRE(body);
}
// debug
Debug.Log(string.Format("Prim_MessageReceived Event: Completed PMRE"));
}
/// <summary>
/// This is the click handler for the 'ConnectSocket' button.
/// </summary>
/// <param name="sender">Object for which the event was generated.</param>
/// <param name="e">Event's parameters.</param>
public async Task ConnectSocket()
{
if (Sox.AppMode != AppMode.NewClient)
{
if (Sox.AppMode == AppMode.ClientSocketConnected)
{
Sox.Instance.Log(
"Start client failed with warning: App Client Socket already connected",
NotifyType.WarningMessage);
}
else
{
Sox.Instance.Log(
"Start client failed with error: App not in new Client Mode",
NotifyType.ErrorMessage);
}
}
else
{
HostName hostName = null;
if (CoreApplication.Properties.ContainsKey("clientSocket"))
{
Sox.Instance.Log(
"This step has already been executed.",
NotifyType.ErrorMessage);
//return;
}
else
{
if (string.IsNullOrEmpty(PortOrServicenameForListener)) //(String.IsNullOrEmpty(ServiceNameForConnect))
{
Sox.Instance.Log("Please provide a service name.", NotifyType.ErrorMessage);
//return;
}
else
{
bool returnNow = false;
if (string.IsNullOrEmpty(RemoteSocketListenerSvrName)) //(String.IsNullOrEmpty(ServiceNameForConnect))
{
Sox.Instance.Log("Please provide a server name.", NotifyType.ErrorMessage);
//return;
returnNow = true;
}
// By default 'HostNameForConnect' is disabled and host name validation is not required. When enabling the
// text box validating the host name is required since it was received from an untrusted source
// (user input). The host name is validated by catching ArgumentExceptions thrown by the HostName
// constructor for invalid input.
else
{
try
{
hostName = new HostName(RemoteSocketListenerSvrName);// HostNameForConnect.Text);
}
catch (TaskCanceledException)
{
Sox.Instance.Log("Canceled.", NotifyType.StatusMessage);
}
catch (ArgumentException)
{
Sox.Instance.Log("Error: Invalid host name.", NotifyType.ErrorMessage);
//return;
returnNow = true;
}
}
if (!returnNow)
{
StreamSocket socket = new StreamSocket();
// If necessary, tweak the socket's control options before carrying out the connect operation.
// Refer to the StreamSocketControl class' MSDN documentation for the full list of control options.
socket.Control.KeepAlive = false;
try
{
if (adapter == null)
{
Sox.Instance.Log("Connecting to: " + hostName.DisplayName, NotifyType.StatusMessage);
Sox.Instance.Log("On Port: " + PortOrServicenameForListener, NotifyType.StatusMessage);
Sox.StartToken();
// Connect to the server (by default, the listener we created in the previous step).
await socket.ConnectAsync(hostName, PortOrServicenameForListener).AsTask(Sox.CancelToken);
Sox.Instance.Log("Connected", NotifyType.StatusMessage);
CoreApplication.Properties.Add("clientSocket", socket);
}
else
{
Sox.Instance.Log(
"Connecting to: " + RemoteSocketListenerSvrName +
" using network adapter " + adapter.NetworkAdapterId,
NotifyType.StatusMessage);
// Connect to the server (by default, the listener we created in the previous step)
// limiting traffic to the same adapter that the user specified in the previous step.
// This option will be overridden by interfaces with weak-host or forwarding modes enabled.
Sox.StartToken();
await socket.ConnectAsync(
hostName,
PortOrServicenameForListener,// ServiceNameForConnect.Text,
SocketProtectionLevel.PlainSocket,
adapter).AsTask(Sox.CancelToken);
// Save the socket, so subsequent steps can use it.
Sox.Instance.Log(
"Connected using network adapter " + adapter.NetworkAdapterId,
NotifyType.StatusMessage);
}
// Mark the socket as connected. Set the value to null, as we care only about the fact that the
// property is set.
CoreApplication.Properties.Add("connected", null);
}
catch (TaskCanceledException)
{
if (CoreApplication.Properties.ContainsKey("connected"))
{
CoreApplication.Properties.Remove("connected");
}
Sox.AppMode = AppMode.NewClient;
Sox.Instance.Log("Cancelled.", NotifyType.StatusMessage);
}
catch (Exception exception)
{
if (CoreApplication.Properties.ContainsKey("connected"))
{
CoreApplication.Properties.Remove("connected");
}
Sox.AppMode = AppMode.NewClient;
// If this is an unknown status it means that the error is fatal and retry will likely fail.
if (SocketError.GetStatus(exception.HResult) == SocketErrorStatus.Unknown)
{
throw;
}
Sox.Instance.Log("Connect failed with error: " + exception.Message, NotifyType.ErrorMessage);
}
}
}
}
}
}
private async void OnConnection(
StreamSocketListener sender,
StreamSocketListenerConnectionReceivedEventArgs args)
{
DataReader reader = new DataReader(args.Socket.InputStream);
try
{
while (true)
{
// Read first 4 bytes (length of the subsequent string).
uint sizeFieldCount = await reader.LoadAsync(sizeof(uint));
if (sizeFieldCount != sizeof(uint))
{
// The underlying socket was closed before we were able to read the whole data.
return;
}
uint sizeFieldCount1 = await reader.LoadAsync(sizeof(uint));
if (sizeFieldCount1 != sizeof(uint))
{
// The underlying socket was closed before we were able to read the whole data.
return;
}
// Read the string.
uint stringLength = reader.ReadUInt32();
uint msgtype = reader.ReadUInt32();
uint actualStringLength = await reader.LoadAsync(stringLength);
if (stringLength != actualStringLength)
{
// The underlying socket was closed before we were able to read the whole data.
return;
}
// Display the string on the screen. The event is invoked on a non-UI thread, so we need to marshal
// the text back to the UI thread.
if (msgtype == 1)
{
reader.ReadBytes(readByte);
}
else if (msgtype == 2)
{
stringtemp = reader.ReadString(actualStringLength);
}
else if (msgtype == 3)
{
receiverbuf = reader.ReadBuffer(actualStringLength);
receive_buf_flag = 1;
}
}
}
catch (Exception exception)
{
// If this is an unknown status it means that the error is fatal and retry will likely fail.
if (SocketError.GetStatus(exception.HResult) == SocketErrorStatus.Unknown)
{
throw;
}
stringtemp = "Read stream failed with error: " + exception.Message;
}
}
/// <summary>
/// Invoked once a connection is accepted by Listen() or
/// a connection has been establed by Connect().
/// <param name="sender">The listener that accepted the connection.</param>
/// <param name="args">Parameters associated with the accepted connection.</param>
/// <param name="activeListeningID">The ID associated with the <see cref="activeListenerIDs"/> dict</param>
/// <param name="numAttempts">The number of times listening for messages has already been tried</param>
/// </summary>
private async void ListenForMessages(
StreamSocketListener sender,
StreamSocketListenerConnectionReceivedEventArgs args,
int activeListeningID,
int numAttempts = 0)
{
PrintLine();
// check the number of attempts made
if (numAttempts >= MAX_LISTEN_ATTEMPTS)
{
var e = new TimeoutException("Too many attempts to listen for messages from remote server");
FatalException(this, new FatalEventArgs(
ExceptionType.CONNECTION_NOT_ESTABLISHED, e));
return;
}
// check that the reader exists
if (_dataReader == null)
{
var e = new NullReferenceException("reader doesn't exist for socket");
FatalException(this, new FatalEventArgs(
ExceptionType.RECEIVE_FAILED, e));
return;
}
try
{
// send alignment message
string alignmentMessage =
INIT_MESSAGE + INIT_MESSAGE + INIT_MESSAGE + INIT_MESSAGE_END;
_dataWriter.WriteBytes(Encoding.UTF8.GetBytes(alignmentMessage));
await _dataWriter.StoreAsync();
// makes sure bytes are properly aligned
await AlignIncomingMessages();
// continue listening for incoming messages for forever!
while (true)
{
// Read first 4 bytes (length of the subsequent string).
uint sizeFieldCount = await _dataReader.LoadAsync(sizeof(uint));
//System.Diagnostics.Debug.WriteLine(sizeFieldCount);
if (sizeFieldCount != sizeof(uint))
{
// The underlying socket was closed before we were able to read the whole data.
SocketClosed(this, new SocketClosedEventArgs(this));
return;
}
// Read the string.
byte[] stringLengthBytes = new byte[sizeof(uint)];
_dataReader.ReadBytes(stringLengthBytes);
uint stringLength = BitConverter.ToUInt32(stringLengthBytes, 0);
uint actualStringLength = await _dataReader.LoadAsync(stringLength);
if (stringLength != actualStringLength)
{
// The underlying socket was closed before we were able to read the whole data.
SocketClosed(this, new SocketClosedEventArgs(this));
return;
}
// retrieve and parse the message
int byteCount = Encoding.UTF8.GetBytes(new String((char)1, (int)stringLength)).Length;
byte[] messageBytes = new byte[byteCount];
_dataReader.ReadBytes(messageBytes);
string m = Encoding.UTF8.GetString(messageBytes, 0, byteCount);
// Tell the main program that a message has been received, and what that message is
if (MessageReceived != null)
{
System.Diagnostics.Debug.WriteLine(String.Format("<< {0} [{1}]", m, numAttempts));
MessageReceived(this, new MessageReceivedEventArgs(m));
}
}
}
catch (Exception e)
{
// check if I should stop listening
if (activeListenerIDs[activeListeningID] == false)
{
return;
}
if (e.Message == CONNECTION_CLOSED_REMOTELY ||
e is NullReferenceException)
{
// close the socket
Close();
SocketClosed(this, new SocketClosedEventArgs(this));
NonFatalException(this, new FatalEventArgs(
ExceptionType.RECEIVE_FAILED, e));
return;
}
else if (SocketError.GetStatus(e.HResult) == SocketErrorStatus.Unknown)
{
// If this is an unknown status it means that the error is fatal and retry will likely fail.
FatalException(this, new FatalEventArgs(
ExceptionType.RECEIVE_FAILED, e));
return;
}
else
{
NonFatalException(this, new NonFatalEventArgs(
ExceptionType.RECEIVE_FAILED, e));
// attempt to continue listening
ListenForMessages(sender, args, activeListeningID, numAttempts + 1);
}
}
}