net-stream

Crates.ionet-stream
lib.rsnet-stream
version0.1.1
sourcesrc
created_at2023-07-29 12:10:36.920693
updated_at2023-07-30 13:04:51.001463
descriptionTyped streams for Rust client/server TCP and UDP networking
homepage
repositoryhttps://github.com/plul/net-stream
max_upload_size
id929228
size1,161,511
Asger Juul Brunshøj (plul)

documentation

README

Logo

NetStream - Typed streams for Rust client/server TCP and UDP networking

NetStream is a Rust library that provides networking abstractions for typed TCP and UDP streams. It simplifies the process of writing server and client implementations that can send and receive data over a network in a type-safe way.

With NetStream, you can define the messages that your server and client will send and receive using Rust structs. The library handles all the low-level networking details, so you can focus on writing high-level, type-safe code that's easy to reason about. Framing and serialization is handled automatically. Currently, messages are serialized with bincode, but this is an implementation detail subject to change.

NetStream can be used to build multiplayer games, distributed systems, or anything in between. This is currently a hobby project and is not recommended for production use. That being said, feedback, contributions, and bug reports from the community are welcome.

Usage

To get started with NetStream, first define your message types by implementing the net_stream::MessageTypes trait for a struct:

#[derive(Debug, Clone)]
struct MessageTypes;

// These types represent the messages sent and received over TCP and UDP, respectively.
impl net_stream::MessageTypes for MessageTypes {
    // Message types for server/client communication over TCP.
    type TcpToServer = TcpToServer;
    type TcpFromServer = TcpFromServer;

    // No UDP messages used in this example.
    type UdpToServer = ();
    type UdpFromServer = ();
}

TcpToServer represents the message type sent from the client (peer) to the server over TCP. In this example, it has a single variant Message(String), which represents a chat message sent by the client.

#[derive(Debug, Serialize, Deserialize, Clone, PartialEq, Eq)]
enum TcpToServer {
    /// Send message to chat room.
    Message(String),
}

TcpFromServer represents the message type sent from the server to the client (peer) over TCP. In this example, it's an enum to represent different events occurring on a chat server, such as a new user connecting or a new message.

#[derive(Debug, Serialize, Deserialize, Clone, PartialEq, Eq)]
enum TcpFromServer {
    /// Welcome message.
    Welcome(WelcomeMessage),

    /// New user connected.
    UserConnect(User),

    /// User disconnected.
    UserDisconnect(User),

    /// New message posted to the chat room.
    NewMessage(String),
}

Create structs for the WelcomeMessage and User types. By defining these message types and implementing the net_stream::MessageTypes trait, you create a typed interface for your server and client implementations. Serialization and framing is handled for you automatically.

Usage: Server

Start server:

let config = net_stream::server::Config::default();
let (server_handle, mut events) = net_stream::server::start::<MessageTypes>(socket_addr, socket_addr, config).await?;

Handle events in a loop:

// Main server loop.
while let Some(ev) = events.next().await {
    // Handle server event
    match ev {
        net_stream::server::event::Event::NewPeer(new_peer) => {
            // New client has connected to the server.
        }
        net_stream::server::event::Event::TcpMessage(tcp_message) => {
            // Message received from one of the connected clients over TCP.
        }
        net_stream::server::event::Event::UdpMessage(udp_message) => {
            // Message received from one of the connected clients over UDP.
        }
        net_stream::server::event::Event::PeerDisconnect(peer_disconnect) => {
            // A client has voluntarily disconnected or has been dropped by the server.
        }
    }
}

Use the server_handle to perform actions, like sending messages to connected clients:

// Send a message to a single connected client on TCP.
server_handle.message_peer_tcp(new_peer.peer_uid, TcpFromServer::Welcome(WelcomeMessage {
    // (...)
}));

Or sending a message to all connected clients:

// Broadcast a message to all connected clients
server_handle.announce_tcp(TcpFromServer::NewMessage(String::from("message")));

Usage: Client

Connect to the server:

let (mut handle, mut events) = net_stream::client::connect::<MessageTypes>("my.server.com").await?;

Handle messages received from the server:

while let Some(ev) = events.next().await {
    match ev {
        net_stream::client::event::Event::TcpMessage(msg) => {
            // Handle message received from server over TCP.
        }
        net_stream::client::event::Event::UdpMessage(msg) => {
            // Handle message received from server over UDP.
        }
        net_stream::client::event::Event::CanSendUdpMessages => {
            // This event simply indicates that a test message sent from client to server over UDP has reached the server.
            // This lets you know that there is no firewall blocking the UDP messages in this direction.
        }
        net_stream::client::event::Event::CanReceiveUdpMessages => {
            // This event simply indicates that a test message sent from server to client over UDP has reached the client.
            // This lets you know that there is no firewall blocking the UDP messages in this direction.
        }
    }
}

Use the handle to send messages to the server:

if let Err(err) = handle.send_message_tcp(TcpToServer::Message(String::from("Hello!"))) {
    log::error!("{:?}", err);
}

See examples for further details.

Commit count: 7

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