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Ultra fast and low latency asynchronous socket server & client C# library with support TCP, SSL, UDP protocols and 10K connections problem solution.
CSharpServer documentation
CSharpServer downloads
pip3 install gil
git clone https://github.com/chronoxor/CSharpServer.git
cd CSharpServer
gil update
Run CMake script to generate C++ projects:
cd modules/CppServer/build/VisualStudio
01-generate.bat
Open and build CSharpServer.sln or run the build script:
cd build
vs.bat
The build script will create "release" directory with zip files:
Here comes the example of Asio timer. It can be used to wait for some action in future with providing absolute time or relative time span. Asio timer can be used in synchronous or asynchronous modes.
using System;
using System.Threading;
using CSharpServer;
namespace AsioTimer
{
class AsioTimer : CSharpServer.Timer
{
public AsioTimer(Service service) : base(service) {}
protected override void OnTimer(bool canceled)
{
Console.WriteLine("Asio timer " + (canceled ? "canceled" : "expired"));
}
protected override void OnError(int error, string category, string message)
{
Console.WriteLine($"Asio timer caught an error with code {error} and category '{category}': {message}");
}
}
class Program
{
static void Main()
{
// Create a new service
var service = new Service();
// Start the service
Console.Write("Service starting...");
service.Start();
Console.WriteLine("Done!");
// Create a new Asio timer
var timer = new AsioTimer(service);
// Setup and synchronously wait for the timer
timer.Setup(DateTime.UtcNow.AddSeconds(1));
timer.WaitSync();
// Setup and asynchronously wait for the timer
timer.Setup(TimeSpan.FromSeconds(1));
timer.WaitAsync();
// Wait for a while...
Thread.Sleep(2000);
// Setup and asynchronously wait for the timer
timer.Setup(TimeSpan.FromSeconds(1));
timer.WaitAsync();
// Wait for a while...
Thread.Sleep(500);
// Cancel the timer
timer.Cancel();
// Wait for a while...
Thread.Sleep(500);
// Stop the service
Console.Write("Service stopping...");
service.Stop();
Console.WriteLine("Done!");
}
}
}
Output of the above example is the following:
Service starting...Done!
Asio timer expired
Asio timer canceled
Service stopping...Done!
Here comes the example of the TCP chat server. It handles multiple TCP client sessions and multicast received message from any session to all ones. Also it is possible to send admin message directly from the server.
using System;
using System.Text;
using CSharpServer;
namespace TcpChatServer
{
class ChatSession : TcpSession
{
public ChatSession(TcpServer server) : base(server) {}
protected override void OnConnected()
{
Console.WriteLine($"Chat TCP session with Id {Id} connected!");
// Send invite message
string message = "Hello from TCP chat! Please send a message or '!' to disconnect the client!";
SendAsync(message);
}
protected override void OnDisconnected()
{
Console.WriteLine($"Chat TCP session with Id {Id} disconnected!");
}
protected override void OnReceived(byte[] buffer, long size)
{
string message = Encoding.UTF8.GetString(buffer, 0, (int)size);
Console.WriteLine("Incoming: " + message);
// Multicast message to all connected sessions
Server.Multicast(message);
// If the buffer starts with '!' the disconnect the current session
if (message == "!")
DisconnectAsync();
}
protected override void OnError(int error, string category, string message)
{
Console.WriteLine($"Chat TCP session caught an error with code {error} and category '{category}': {message}");
}
}
class ChatServer : TcpServer
{
public ChatServer(Service service, int port, InternetProtocol protocol) : base(service, port, protocol) {}
protected override TcpSession CreateSession() { return new ChatSession(this); }
protected override void OnError(int error, string category, string message)
{
Console.WriteLine($"Chat TCP server caught an error with code {error} and category '{category}': {message}");
}
}
class Program
{
static void Main(string[] args)
{
// TCP server port
int port = 1111;
if (args.Length > 0)
port = int.Parse(args[0]);
Console.WriteLine($"TCP server port: {port}");
// Create a new service
var service = new Service();
// Start the service
Console.Write("Service starting...");
service.Start();
Console.WriteLine("Done!");
// Create a new TCP chat server
var server = new ChatServer(service, port, InternetProtocol.IPv4);
// Start the server
Console.Write("Server starting...");
server.Start();
Console.WriteLine("Done!");
Console.WriteLine("Press Enter to stop the server or '!' to restart the server...");
// Perform text input
for (;;)
{
string line = Console.ReadLine();
if (line == string.Empty)
break;
// Restart the server
if (line == "!")
{
Console.Write("Server restarting...");
server.Restart();
Console.WriteLine("Done!");
continue;
}
// Multicast admin message to all sessions
line = "(admin) " + line;
server.Multicast(line);
}
// Stop the server
Console.Write("Server stopping...");
server.Stop();
Console.WriteLine("Done!");
// Stop the service
Console.Write("Service stopping...");
service.Stop();
Console.WriteLine("Done!");
}
}
}
Here comes the example of the TCP chat client. It connects to the TCP chat server and allows to send message to it and receive new messages.
using System;
using System.Text;
using System.Threading;
using CSharpServer;
namespace TcpChatClient
{
class ChatClient : TcpClient
{
public ChatClient(Service service, string address, int port) : base(service, address, port) {}
public void DisconnectAndStop()
{
_stop = true;
DisconnectAsync();
while (IsConnected)
Thread.Yield();
}
protected override void OnConnected()
{
Console.WriteLine($"Chat TCP client connected a new session with Id {Id}");
}
protected override void OnDisconnected()
{
Console.WriteLine($"Chat TCP client disconnected a session with Id {Id}");
// Wait for a while...
Thread.Sleep(1000);
// Try to connect again
if (!_stop)
ConnectAsync();
}
protected override void OnReceived(byte[] buffer, long size)
{
Console.WriteLine(Encoding.UTF8.GetString(buffer, 0, (int)size));
}
protected override void OnError(int error, string category, string message)
{
Console.WriteLine($"Chat TCP client caught an error with code {error} and category '{category}': {message}");
}
private bool _stop;
}
class Program
{
static void Main(string[] args)
{
// TCP server address
string address = "127.0.0.1";
if (args.Length > 0)
address = args[0];
// TCP server port
int port = 1111;
if (args.Length > 1)
port = int.Parse(args[1]);
Console.WriteLine($"TCP server address: {address}");
Console.WriteLine($"TCP server port: {port}");
// Create a new service
var service = new Service();
// Start the service
Console.Write("Service starting...");
service.Start();
Console.WriteLine("Done!");
// Create a new TCP chat client
var client = new ChatClient(service, address, port);
// Connect the client
Console.Write("Client connecting...");
client.ConnectAsync();
Console.WriteLine("Done!");
Console.WriteLine("Press Enter to stop the client or '!' to reconnect the client...");
// Perform text input
for (;;)
{
string line = Console.ReadLine();
if (line == string.Empty)
break;
// Disconnect the client
if (line == "!")
{
Console.Write("Client disconnecting...");
client.DisconnectAsync();
Console.WriteLine("Done!");
continue;
}
// Send the entered text to the chat server
client.SendAsync(line);
}
// Disconnect the client
Console.Write("Client disconnecting...");
client.DisconnectAndStop();
Console.WriteLine("Done!");
// Stop the service
Console.Write("Service stopping...");
service.Stop();
Console.WriteLine("Done!");
}
}
}
Here comes the example of the SSL chat server. It handles multiple SSL client sessions and multicast received message from any session to all ones. Also it is possible to send admin message directly from the server.
This example is very similar to the TCP one except the code that prepares SSL context and handshake handler.
using System;
using System.Text;
using CSharpServer;
namespace SslChatServer
{
class ChatSession : SslSession
{
public ChatSession(SslServer server) : base(server) {}
protected override void OnConnected()
{
Console.WriteLine($"Chat SSL session with Id {Id} connected!");
}
protected override void OnHandshaked()
{
Console.WriteLine($"Chat SSL session with Id {Id} handshaked!");
// Send invite message
string message = "Hello from SSL chat! Please send a message or '!' to disconnect the client!";
SendAsync(message);
}
protected override void OnDisconnected()
{
Console.WriteLine($"Chat SSL session with Id {Id} disconnected!");
}
protected override void OnReceived(byte[] buffer, long size)
{
string message = Encoding.UTF8.GetString(buffer, 0, (int)size);
Console.WriteLine("Incoming: " + message);
// Multicast message to all connected sessions
Server.Multicast(message);
// If the buffer starts with '!' the disconnect the current session
if (message == "!")
DisconnectAsync();
}
protected override void OnError(int error, string category, string message)
{
Console.WriteLine($"Chat SSL session caught an error with code {error} and category '{category}': {message}");
}
}
class ChatServer : SslServer
{
public ChatServer(Service service, SslContext context, int port, InternetProtocol protocol) : base(service, context, port, protocol) {}
protected override SslSession CreateSession() { return new ChatSession(this); }
protected override void OnError(int error, string category, string message)
{
Console.WriteLine($"Chat SSL server caught an error with code {error} and category '{category}': {message}");
}
}
class Program
{
static void Main(string[] args)
{
// SSL server port
int port = 2222;
if (args.Length > 0)
port = int.Parse(args[0]);
Console.WriteLine($"SSL server port: {port}");
// Create a new service
var service = new Service();
// Start the service
Console.Write("Service starting...");
service.Start();
Console.WriteLine("Done!");
// Create and prepare a new SSL server context
var context = new SslContext(SslMethod.TLSV12);
context.SetPassword("qwerty");
context.UseCertificateChainFile("server.pem");
context.UsePrivateKeyFile("server.pem", SslFileFormat.PEM);
context.UseTmpDHFile("dh4096.pem");
// Create a new SSL chat server
var server = new ChatServer(service, context, port, InternetProtocol.IPv4);
// Start the server
Console.Write("Server starting...");
server.Start();
Console.WriteLine("Done!");
Console.WriteLine("Press Enter to stop the server or '!' to restart the server...");
// Perform text input
for (;;)
{
string line = Console.ReadLine();
if (line == string.Empty)
break;
// Restart the server
if (line == "!")
{
Console.Write("Server restarting...");
server.Restart();
Console.WriteLine("Done!");
continue;
}
// Multicast admin message to all sessions
line = "(admin) " + line;
server.Multicast(line);
}
// Stop the server
Console.Write("Server stopping...");
server.Stop();
Console.WriteLine("Done!");
// Stop the service
Console.Write("Service stopping...");
service.Stop();
Console.WriteLine("Done!");
}
}
}
Here comes the example of the SSL chat client. It connects to the SSL chat server and allows to send message to it and receive new messages.
This example is very similar to the TCP one except the code that prepares SSL context and handshake handler.
using System;
using System.Text;
using System.Threading;
using CSharpServer;
namespace SslChatClient
{
class ChatClient : SslClient
{
public ChatClient(Service service, SslContext context, string address, int port) : base(service, context, address, port) {}
public void DisconnectAndStop()
{
_stop = true;
DisconnectAsync();
while (IsConnected)
Thread.Yield();
}
protected override void OnConnected()
{
Console.WriteLine($"Chat SSL client connected a new session with Id {Id}");
}
protected override void OnHandshaked()
{
Console.WriteLine($"Chat SSL client handshaked a new session with Id {Id}");
}
protected override void OnDisconnected()
{
Console.WriteLine($"Chat SSL client disconnected a session with Id {Id}");
// Wait for a while...
Thread.Sleep(1000);
// Try to connect again
if (!_stop)
ConnectAsync();
}
protected override void OnReceived(byte[] buffer, long size)
{
Console.WriteLine(Encoding.UTF8.GetString(buffer, 0, (int)size));
}
protected override void OnError(int error, string category, string message)
{
Console.WriteLine($"Chat SSL client caught an error with code {error} and category '{category}': {message}");
}
private bool _stop;
}
class Program
{
static void Main(string[] args)
{
// SSL server address
string address = "127.0.0.1";
if (args.Length > 0)
address = args[0];
// SSL server port
int port = 2222;
if (args.Length > 1)
port = int.Parse(args[1]);
Console.WriteLine($"SSL server address: {address}");
Console.WriteLine($"SSL server port: {port}");
// Create a new service
var service = new Service();
// Start the service
Console.Write("Service starting...");
service.Start();
Console.WriteLine("Done!");
// Create and prepare a new SSL client context
var context = new SslContext(SslMethod.TLSV12);
context.SetDefaultVerifyPaths();
context.SetRootCerts();
context.SetVerifyMode(SslVerifyMode.VerifyPeer | SslVerifyMode.VerifyFailIfNoPeerCert);
context.LoadVerifyFile("ca.pem");
// Create a new SSL chat client
var client = new ChatClient(service, context, address, port);
// Connect the client
Console.Write("Client connecting...");
client.ConnectAsync();
Console.WriteLine("Done!");
Console.WriteLine("Press Enter to stop the client or '!' to reconnect the client...");
// Perform text input
for (;;)
{
string line = Console.ReadLine();
if (line == string.Empty)
break;
// Disconnect the client
if (line == "!")
{
Console.Write("Client disconnecting...");
client.DisconnectAsync();
Console.WriteLine("Done!");
continue;
}
// Send the entered text to the chat server
client.SendAsync(line);
}
// Disconnect the client
Console.Write("Client disconnecting...");
client.DisconnectAndStop();
Console.WriteLine("Done!");
// Stop the service
Console.Write("Service stopping...");
service.Stop();
Console.WriteLine("Done!");
}
}
}
Here comes the example of the UDP echo server. It receives a datagram mesage from any UDP client and resend it back without any changes.
using System;
using System.Text;
using CSharpServer;
namespace UdpEchoServer
{
class EchoServer : UdpServer
{
public EchoServer(Service service, int port, InternetProtocol protocol) : base(service, port, protocol) {}
protected override void OnStarted()
{
// Start receive datagrams
ReceiveAsync();
}
protected override void OnReceived(UdpEndpoint endpoint, byte[] buffer, long size)
{
Console.WriteLine("Incoming: " + Encoding.UTF8.GetString(buffer, 0, (int)size));
// Echo the message back to the sender
SendAsync(endpoint, buffer, 0, size);
}
protected override void OnSent(UdpEndpoint endpoint, long sent)
{
// Continue receive datagrams
ReceiveAsync();
}
protected override void OnError(int error, string category, string message)
{
Console.WriteLine($"Echo UDP server caught an error with code {error} and category '{category}': {message}");
}
}
class Program
{
static void Main(string[] args)
{
// UDP server port
int port = 3333;
if (args.Length > 0)
port = int.Parse(args[0]);
Console.WriteLine($"UDP server port: {port}");
// Create a new service
var service = new Service();
// Start the service
Console.Write("Service starting...");
service.Start();
Console.WriteLine("Done!");
// Create a new UDP echo server
var server = new EchoServer(service, port, InternetProtocol.IPv4);
// Start the server
Console.Write("Server starting...");
server.Start();
Console.WriteLine("Done!");
Console.WriteLine("Press Enter to stop the server or '!' to restart the server...");
// Perform text input
for (;;)
{
string line = Console.ReadLine();
if (line == string.Empty)
break;
// Restart the server
if (line == "!")
{
Console.Write("Server restarting...");
server.Restart();
Console.WriteLine("Done!");
}
}
// Stop the server
Console.Write("Server stopping...");
server.Stop();
Console.WriteLine("Done!");
// Stop the service
Console.Write("Service stopping...");
service.Stop();
Console.WriteLine("Done!");
}
}
}
Here comes the example of the UDP echo client. It sends user datagram message to UDP server and listen for response.
using System;
using System.Text;
using System.Threading;
using CSharpServer;
namespace UdpEchoClient
{
class EchoClient : UdpClient
{
public EchoClient(Service service, string address, int port) : base(service, address, port) {}
public void DisconnectAndStop()
{
_stop = true;
DisconnectAsync();
while (IsConnected)
Thread.Yield();
}
protected override void OnConnected()
{
Console.WriteLine($"Echo UDP client connected a new session with Id {Id}");
// Start receive datagrams
ReceiveAsync();
}
protected override void OnDisconnected()
{
Console.WriteLine($"Echo UDP client disconnected a session with Id {Id}");
// Wait for a while...
Thread.Sleep(1000);
// Try to connect again
if (!_stop)
ConnectAsync();
}
protected override void OnReceived(UdpEndpoint endpoint, byte[] buffer, long size)
{
Console.WriteLine("Incoming: " + Encoding.UTF8.GetString(buffer, 0, (int)size));
// Continue receive datagrams
ReceiveAsync();
}
protected override void OnError(int error, string category, string message)
{
Console.WriteLine($"Echo UDP client caught an error with code {error} and category '{category}': {message}");
}
private bool _stop;
}
class Program
{
static void Main(string[] args)
{
// UDP server address
string address = "127.0.0.1";
if (args.Length > 0)
address = args[0];
// UDP server port
int port = 3333;
if (args.Length > 1)
port = int.Parse(args[1]);
Console.WriteLine($"UDP server address: {address}");
Console.WriteLine($"UDP server port: {port}");
// Create a new service
var service = new Service();
// Start the service
Console.Write("Service starting...");
service.Start();
Console.WriteLine("Done!");
// Create a new TCP chat client
var client = new EchoClient(service, address, port);
// Connect the client
Console.Write("Client connecting...");
client.ConnectAsync();
Console.WriteLine("Done!");
Console.WriteLine("Press Enter to stop the client or '!' to reconnect the client...");
// Perform text input
for (;;)
{
string line = Console.ReadLine();
if (line == string.Empty)
break;
// Disconnect the client
if (line == "!")
{
Console.Write("Client disconnecting...");
client.DisconnectAsync();
Console.WriteLine("Done!");
continue;
}
// Send the entered text to the chat server
client.SendSync(line);
}
// Disconnect the client
Console.Write("Client disconnecting...");
client.DisconnectAndStop();
Console.WriteLine("Done!");
// Stop the service
Console.Write("Service stopping...");
service.Stop();
Console.WriteLine("Done!");
}
}
}
Here comes the example of the UDP multicast server. It use multicast IP address to multicast datagram messages to all client that joined corresponding UDP multicast group.
using System;
using System.Text;
using CSharpServer;
namespace UdpMulticastServer
{
class MulticastServer : UdpServer
{
public MulticastServer(Service service, int port, InternetProtocol protocol) : base(service, port, protocol) {}
protected override void OnError(int error, string category, string message)
{
Console.WriteLine($"Multicast UDP server caught an error with code {error} and category '{category}': {message}");
}
}
class Program
{
static void Main(string[] args)
{
// UDP multicast address
string multicastAddress = "239.255.0.1";
if (args.Length > 0)
multicastAddress = args[0];
// UDP multicast port
int multicastPort = 3334;
if (args.Length > 1)
multicastPort = int.Parse(args[1]);
Console.WriteLine($"UDP multicast address: {multicastAddress}");
Console.WriteLine($"UDP multicast port: {multicastPort}");
// Create a new service
var service = new Service();
// Start the service
Console.Write("Service starting...");
service.Start();
Console.WriteLine("Done!");
// Create a new UDP multicast server
var server = new MulticastServer(service, 0, InternetProtocol.IPv4);
// Start the multicast server
Console.Write("Server starting...");
server.Start(multicastAddress, multicastPort);
Console.WriteLine("Done!");
Console.WriteLine("Press Enter to stop the server or '!' to restart the server...");
// Perform text input
for (;;)
{
string line = Console.ReadLine();
if (line == string.Empty)
break;
// Restart the server
if (line == "!")
{
Console.Write("Server restarting...");
server.Restart();
Console.WriteLine("Done!");
continue;
}
// Multicast admin message to all sessions
line = "(admin) " + line;
server.MulticastSync(line);
}
// Stop the server
Console.Write("Server stopping...");
server.Stop();
Console.WriteLine("Done!");
// Stop the service
Console.Write("Service stopping...");
service.Stop();
Console.WriteLine("Done!");
}
}
}
Here comes the example of the UDP multicast client. It use multicast IP address and joins UDP multicast group in order to receive multicasted datagram messages from UDP server.
using System;
using System.Text;
using System.Threading;
using CSharpServer;
namespace UdpMulticastClient
{
class MulticastClient : UdpClient
{
public string Multicast;
public MulticastClient(Service service, string address, int port) : base(service, address, port) {}
public void DisconnectAndStop()
{
_stop = true;
DisconnectAsync();
while (IsConnected)
Thread.Yield();
}
protected override void OnConnected()
{
Console.WriteLine($"Multicast UDP client connected a new session with Id {Id}");
// Join UDP multicast group
JoinMulticastGroupAsync(Multicast);
// Start receive datagrams
ReceiveAsync();
}
protected override void OnDisconnected()
{
Console.WriteLine($"Multicast UDP client disconnected a session with Id {Id}");
// Wait for a while...
Thread.Sleep(1000);
// Try to connect again
if (!_stop)
ConnectAsync();
}
protected override void OnReceived(UdpEndpoint endpoint, byte[] buffer, long size)
{
Console.WriteLine("Incoming: " + Encoding.UTF8.GetString(buffer, 0, (int)size));
// Continue receive datagrams
ReceiveAsync();
}
protected override void OnError(int error, string category, string message)
{
Console.WriteLine($"Multicast UDP client caught an error with code {error} and category '{category}': {message}");
}
private bool _stop;
}
class Program
{
static void Main(string[] args)
{
// UDP listen address
string listenAddress = "0.0.0.0";
if (args.Length > 0)
listenAddress = args[0];
// UDP multicast address
string multicastAddress = "239.255.0.1";
if (args.Length > 1)
multicastAddress = args[1];
// UDP multicast port
int multicastPort = 3334;
if (args.Length > 2)
multicastPort = int.Parse(args[2]);
Console.WriteLine($"UDP listen address: {listenAddress}");
Console.WriteLine($"UDP multicast address: {multicastAddress}");
Console.WriteLine($"UDP multicast port: {multicastPort}");
// Create a new service
var service = new Service();
// Start the service
Console.Write("Service starting...");
service.Start();
Console.WriteLine("Done!");
// Create a new TCP chat client
var client = new MulticastClient(service, listenAddress, multicastPort);
client.SetupMulticast(true);
client.Multicast = multicastAddress;
// Connect the client
Console.Write("Client connecting...");
client.ConnectAsync();
Console.WriteLine("Done!");
Console.WriteLine("Press Enter to stop the client or '!' to reconnect the client...");
// Perform text input
for (;;)
{
string line = Console.ReadLine();
if (line == string.Empty)
break;
// Disconnect the client
if (line == "!")
{
Console.Write("Client disconnecting...");
client.DisconnectAsync();
Console.WriteLine("Done!");
continue;
}
}
// Disconnect the client
Console.Write("Client disconnecting...");
client.DisconnectAndStop();
Console.WriteLine("Done!");
// Stop the service
Console.Write("Service stopping...");
service.Stop();
Console.WriteLine("Done!");
}
}
}
Here comes several communication scenarios with timing measurements.
Benchmark environment is the following:
CPU architecutre: Intel(R) Core(TM) i7-4790K CPU @ 4.00GHz
CPU logical cores: 8
CPU physical cores: 4
CPU clock speed: 3.998 GHz
CPU Hyper-Threading: enabled
RAM total: 31.962 GiB
RAM free: 21.623 GiB
OS version: Microsoft Windows 8 Enterprise Edition (build 9200), 64-bit
OS bits: 64-bit
Process bits: 64-bit
Process configuaraion: release
This scenario sends lots of messages from several clients to a server. The server responses to each message and resend the similar response to the client. The benchmark measures total round-trip time to send all messages and receive all responses, messages & data throughput, count of errors.
Server address: 127.0.0.1
Server port: 1111
Working threads: 1
Working clients: 1
Working messages: 1000
Message size: 32
Seconds to benchmarking: 10
Errors: 0
Total time: 10.001 s
Total data: 1.493 GiB
Total messages: 49715465
Data throughput: 151.709 MiB/s
Message latency: 201 ns
Message throughput: 4970671 msg/s
Server address: 127.0.0.1
Server port: 1111
Working threads: 4
Working clients: 100
Working messages: 1000
Message size: 32
Seconds to benchmarking: 10
Errors: 0
Total time: 10.011 s
Total data: 1.055 GiB
Total messages: 35386331
Data throughput: 107.882 MiB/s
Message latency: 282 ns
Message throughput: 3534415 msg/s
Server address: 127.0.0.1
Server port: 2222
Working threads: 1
Working clients: 1
Working messages: 1000
Message size: 32
Seconds to benchmarking: 10
Errors: 0
Total time: 10.013 s
Total data: 151.424 MiB
Total messages: 4961559
Data throughput: 15.124 MiB/s
Message latency: 2.018 mcs
Message throughput: 495500 msg/s
Server address: 127.0.0.1
Server port: 2222
Working threads: 4
Working clients: 100
Working messages: 1000
Message size: 32
Seconds to benchmarking: 10
Errors: 0
Total time: 10.305 s
Total data: 411.159 MiB
Total messages: 13472751
Data throughput: 39.917 MiB/s
Message latency: 764 ns
Message throughput: 1307300 msg/s
Server address: 127.0.0.1
Server port: 3333
Working threads: 1
Working clients: 1
Working messages: 1000
Message size: 32
Seconds to benchmarking: 10
Errors: 0
Total time: 208.608 ms
Total data: 220.736 KiB
Total messages: 7063
Data throughput: 1.034 MiB/s
Message latency: 29.535 mcs
Message throughput: 33857 msg/s
Server address: 127.0.0.1
Server port: 3333
Working threads: 4
Working clients: 100
Working messages: 1000
Message size: 32
Seconds to benchmarking: 10
Errors: 0
Total time: 10.008 s
Total data: 41.094 MiB
Total messages: 1346505
Data throughput: 4.108 MiB/s
Message latency: 7.432 mcs
Message throughput: 134540 msg/s
In this scenario server multicasts messages to all connected clients. The benchmark counts total messages received by all clients for all the working time and measures messages & data throughput, count of errors.
Server address: 127.0.0.1
Server port: 1111
Working threads: 1
Working clients: 1
Message size: 32
Errors: 0
Total time: 10.003 s
Total data: 947.864 MiB
Total messages: 31058956
Data throughput: 94.764 MiB/s
Message latency: 322 ns
Message throughput: 3104662 msg/s
Server address: 127.0.0.1
Server port: 1111
Working threads: 4
Working clients: 100
Message size: 32
Errors: 0
Total time: 10.008 s
Total data: 330.068 MiB
Total messages: 10815633
Data throughput: 32.1001 MiB/s
Message latency: 925 ns
Message throughput: 1080613 msg/s
Server address: 127.0.0.1
Server port: 2222
Working threads: 1
Working clients: 1
Message size: 32
Errors: 0
Total time: 10.012 s
Total data: 974.081 MiB
Total messages: 31918634
Data throughput: 97.291 MiB/s
Message latency: 313 ns
Message throughput: 3187826 msg/s
Server address: 127.0.0.1
Server port: 2222
Working threads: 4
Working clients: 100
Message size: 32
Errors: 0
Total time: 10.401 s
Total data: 1.121 GiB
Total messages: 37543146
Data throughput: 110.149 MiB/s
Message latency: 277 ns
Message throughput: 3609250 msg/s
Server address: 239.255.0.1
Server port: 3333
Working threads: 1
Working clients: 1
Message size: 32
Errors: 0
Total time: 10.002 s
Total data: 15.1000 MiB
Total messages: 523548
Data throughput: 1.611 MiB/s
Message latency: 19.106 mcs
Message throughput: 52339 msg/s
Server address: 239.255.0.1
Server port: 3333
Working threads: 4
Working clients: 100
Message size: 32
Errors: 0
Total time: 10.013 s
Total data: 57.876 MiB
Total messages: 1895816
Data throughput: 5.796 MiB/s
Message latency: 5.281 mcs
Message throughput: 189335 msg/s
In order to create OpenSSL based server and client you should prepare a set of SSL certificates.
Depending on your project, you may need to purchase a traditional SSL certificate signed by a Certificate Authority. If you, for instance, want some else's web browser to talk to your WebSocket project, you'll need a traditional SSL certificate.
The commands below entered in the order they are listed will generate a self-signed certificate for development or testing purposes.
If you want to save some time, download and run Generate-Certs and it will generate the certs for you in less than a minute. Supports Windows + Linux.
If you'd rather enter in the commands to generate the certificates manually, here is the list in order below.
Create CA private key
openssl genrsa -passout pass:qwerty -out ca-secret.key 4096
Remove passphrase
openssl rsa -passin pass:qwerty -in ca-secret.key -out ca.key
Create CA self-signed certificate
openssl req -new -x509 -days 3650 -subj '/C=BY/ST=Belarus/L=Minsk/O=Example root CA/OU=Example CA unit/CN=example.com' -key ca.key -out ca.crt
Convert CA self-signed certificate to PFX
openssl pkcs12 -export -passout pass:qwerty -inkey ca.key -in ca.crt -out ca.pfx
Convert CA self-signed certificate to PEM
openssl pkcs12 -passin pass:qwerty -passout pass:qwerty -in ca.pfx -out ca.pem
Create private key for the server
openssl genrsa -passout pass:qwerty -out server-secret.key 4096
Remove passphrase
openssl rsa -passin pass:qwerty -in server-secret.key -out server.key
Create CSR for the server
openssl req -new -subj '/C=BY/ST=Belarus/L=Minsk/O=Example server/OU=Example server unit/CN=server.example.com' -key server.key -out server.csr
Create certificate for the server
openssl x509 -req -days 3650 -in server.csr -CA ca.crt -CAkey ca.key -set_serial 01 -out server.crt
Convert the server certificate to PFX
openssl pkcs12 -export -passout pass:qwerty -inkey server.key -in server.crt -out server.pfx
Convert the server certificate to PEM
openssl pkcs12 -passin pass:qwerty -passout pass:qwerty -in server.pfx -out server.pem
Create private key for the client
openssl genrsa -passout pass:qwerty -out client-secret.key 4096
Remove passphrase
openssl rsa -passin pass:qwerty -in client-secret.key -out client.key
Create CSR for the client
openssl req -new -subj '/C=BY/ST=Belarus/L=Minsk/O=Example client/OU=Example client unit/CN=client.example.com' -key client.key -out client.csr
Create the client certificate
openssl x509 -req -days 3650 -in client.csr -CA ca.crt -CAkey ca.key -set_serial 01 -out client.crt
Convert the client certificate to PFX
openssl pkcs12 -export -passout pass:qwerty -inkey client.key -in client.crt -out client.pfx
Convert the client certificate to PEM
openssl pkcs12 -passin pass:qwerty -passout pass:qwerty -in client.pfx -out client.pem
openssl dhparam -out dh4096.pem 4096