An abstraction over the socket helper classes of .NET and WinRT, providing a PCL-friendly socket library for projects targeting Xamarin iOS/Android/Forms, Xamarin.Mac, Windows Phone 8/8.1, Windows Store, UWP, and Windows Desktop. It allows you to write socket code in your PCL, simplifying cross-platform peer-to-peer communications significantly as well as enabling code sharing for many other use cases.
This library utilises the "Bait and Switch" pattern, so must be installed via NuGet in both the PCL and your native projects.
Get it on NuGet: Install-Package rda.SocketsForPCL
The plugin currently provides the following socket abstractions:
Class | Description | .NET Abstraction | WinRT Abstraction |
---|---|---|---|
TcpSocketListener | Bind to a port and accept TCP socket connections. | TcpListener | StreamSocketListener |
TcpSocketClient | Connect to a TCP endpoint with bi-directional communication. | TcpClient | StreamSocket |
UdpSocketReceiver | Bind to a port and receive UDP messages. | UdpClient | DatagramSocket |
UdpSocketClient | Send messages to arbitrary endpoints over UDP. | UdpClient | DatagramSocket |
UdpSocketMulticastClient | Send and receive UDP messages within a multicast group. | UdpClient | DatagramSocket |
Apart from the decisions made in order to merge the two APIs, the abstraction aims to be relatively unopinionated. This means that there is little to no protection in the library against socket failures, reliablity, retry, and other considerations. sockethelpers-for-pcl is a longer term project with the aim of providing useful functionality around the base sockets-for-pcl classes, including hub-style communications, custom protocol helpers and support for typed messaging, and error handling/life cycle and reliability options.
TcpSocketListener
and TcpSocketClient
each expose ReadStream
and WriteStream
properties of type System.IO.Stream
for receiving and sending data. UdpReceiver
, UdpClient
and UdpMulticastClient
expose a MessageReceived
event and a Send()
method due to the nature of the transport and the underlying implementations.
var listenPort = 11000;
var listener = new TcpSocketListener();
// when we get connections, read byte-by-byte from the socket's read stream
listener.ConnectionReceived += async (sender, args) =>
{
var client = args.SocketClient;
var bytesRead = -1;
var buf = new byte[1];
while (bytesRead != 0)
{
bytesRead = await args.SocketClient.ReadStream.ReadAsync(buf, 0, 1);
if (bytesRead > 0)
Debug.Write(buf[0]);
}
};
// bind to the listen port across all interfaces
await listener.StartListeningAsync(listenPort);
var address = "127.0.0.1";
var port = 11000;
var r = new Random();
var client = new TcpSocketClient();
await client.ConnectAsync(address, port);
// we're connected!
for (int i = 0; i<5; i++)
{
// write to the 'WriteStream' property of the socket client to send data
var nextByte = (byte) r.Next(0,254);
client.WriteStream.WriteByte(nextByte);
await client.WriteStream.FlushAsync();
// wait a little before sending the next bit of data
await Task.Delay(TimeSpan.FromMilliseconds(500));
}
await client.DisconnectAsync();
var listenPort = 11011;
var receiver = new UdpSocketReceiver();
receiver.MessageReceived += (sender, args) =>
{
// get the remote endpoint details and convert the received data into a string
var from = String.Format("{0}:{1}", args.RemoteAddress, args.RemotePort);
var data = Encoding.UTF8.GetString(args.ByteData, 0, args.ByteData.Length);
Debug.WriteLine("{0} - {1}", from, data);
};
// listen for udp traffic on listenPort
await receiver.StartListeningAsync(listenPort);
var port = 11011;
var address = "127.0.0.1";
var client = new UdpSocketClient();
// convert our greeting message into a byte array
var msg = "HELLO WORLD";
var msgBytes = Encoding.UTF8.GetBytes(msg);
// send to address:port,
// no guarantee that anyone is there
// or that the message is delivered.
await client.SendToAsync(msgBytes, address, port);
var port = 11811;
var address = "239.192.0.1"; // must be a valid multicast address
// typical instantiation
var receiver = new UdpSocketMulticastClient();
receiver.TTL = 5;
receiver.MessageReceived += (sender, args) =>
{
var from = String.Format("{0}:{1}", args.RemoteAddress, args.RemotePort);
var data = Encoding.UTF8.GetString(args.ByteData, 0, args.ByteData.Length);
Debug.WriteLine("{0} - {1}", from, data);
};
// join the multicast address:port
await receiver.JoinMulticastGroupAsync(address, port);
var msg = "HELLO MULTIVERSE";
var msgBytes = Encoding.UTF8.GetBytes(msg);
// send a message that will be received by all listening in
// the same multicast group.
await receiver.SendMulticastAsync(msgBytes);
For a majority of mobile use cases, binding to all interfaces is a good approach. However, when working with multicast or on a machine with many interfaces, it may be useful to bind to a specific interface. The TcpSocketListener
, UdpSocketReceiver
and UdpSocketMulitcastClient
classes include an optional CommsInterface
parameter on their listen/join methods, allowing them to be bound to a specific interface only. If this parameter is not specified, all interfaces will be bound. CommsInterface
has a static method GetAllInterfacesAsync
that can be used to enumerate the available interfaces.
// retrieve the list of interfaces from the device
var allInterfaces = await CommsInterface.GetAllInterfacesAsync();
// get the first interface with an ip address
var firstUsable = allInterfaces.FirstOrDefault(ci => ci.IsUsable);
if (firstUsable == null)
return; // no connected interfaces, too bad!
var listener = new TcpSocketListener();
await listener.StartListeningAsync(11000, firstUsable);
Console.WriteLine("Listening on interface with ip: {0}", firstUsable.IpAddress);
TcpSocketClient
supports TLS connections (server certificate only). Pass true
to the optional parameter useTls
on ConnectAsync
to enable secure communication.
- On Windows Phone, you will require appropriate permissions in your app manifest. Depending on whether you are listening or sending, this could include a combination of
privateNetworkClientServer
,internetClient
and/orinternetClientServer
capabilities. - On Windows Phone/Store, there are restrictions regarding passing traffic over loopback between separate apps (i.e. no IPC)
- Binding to specific interfaces is not supported on Windows Phone 8.0 (8.1 is fine). All interfaces will be bound, even if a specific
CommsInterface
is provided.
Additional 'higher level' features will likely end up in the sockethelpers-for-pcl project mentioned earlier.
Many members of the community have contributed to improving sockets-for-pcl:
- @rdavisau
- @jamesmontemagno (project and NuGet templates)
- @galvesribeiro (TLS support)
- @SatoshiARA (Mac support)
- @aghajani (bugfixes)
- @danielcweber (
GetStream()
, PCL-friendlySocketException
) - @xen2 (configurable and consistent buffering between .NET and WinRT)
- @NVentimiglia (bugfixes, design considerations)
- @fubar-coder (auto/ephemeral port selection, support for getting connected interface)
- @mattleibow (Xamarin Component Store submission)
- @Waty (proper events, bugfixes)
- @SparkStream (TcpSocketClient cancellation support, service name support)
- @usasos000 (bugfixes)
- @jasells (udpclient design considerations)
- @vbisbest (prelease testing, bugfixes)
- @1iveowl (udp multicast considerations)
If you have a bugfix or a feature you'd like to add, please open an issue.
All pull requests should be opened against the dev
branch.
Thanks to Xamarin and ReSharper who provide open-source licenses for the project.