extern crate clap; extern crate env_logger; extern crate term; /// Run this cli like this: /// cargo run --example server /// cargo run --example cli -- ws://127.0.0.1:3012 extern crate ws; use std::io; use std::io::prelude::*; use std::sync::mpsc::channel; use std::sync::mpsc::Sender as TSender; use std::thread; use clap::{App, Arg}; use ws::{connect, CloseCode, Error, ErrorKind, Handler, Handshake, Message, Result, Sender}; fn main() { // Setup logging env_logger::init().unwrap(); // setup command line arguments let matches = App::new("WS Command Line Client") .version("1.1") .author("Jason Housley ") .about("Connect to a WebSocket and send messages from the command line.") .arg( Arg::with_name("URL") .help("The URL of the WebSocket server.") .required(true) .index(1), ) .get_matches(); let url = matches.value_of("URL").unwrap().to_string(); let (tx, rx) = channel(); // Run client thread with channel to give it's WebSocket message sender back to us let client = thread::spawn(move || { println!("Connecting to {}", url); connect(url, |sender| Client { ws_out: sender, thread_out: tx.clone(), }) .unwrap(); }); if let Ok(Event::Connect(sender)) = rx.recv() { // If we were able to connect, print the instructions instructions(); // Main loop loop { // Get user input let mut input = String::new(); io::stdin().read_line(&mut input).unwrap(); if let Ok(Event::Disconnect) = rx.try_recv() { break; } if input.starts_with("/h") { // Show help instructions() } else if input.starts_with("/c") { // If the close arguments are good, close the connection let args: Vec<&str> = input.split(' ').collect(); if args.len() == 1 { // Simple close println!("Closing normally, please wait..."); sender.close(CloseCode::Normal).unwrap(); } else if args.len() == 2 { // Close with a specific code if let Ok(code) = args[1].trim().parse::() { let code = CloseCode::from(code); println!("Closing with code: {:?}, please wait...", code); sender.close(code).unwrap(); } else { display(format!("Unable to parse {} as close code.", args[1])); // Keep accepting input if the close arguments are invalid continue; } } else { // Close with a code and a reason if let Ok(code) = args[1].trim().parse::() { let code = CloseCode::from(code); let reason = args[2..].join(" "); println!( "Closing with code: {:?} and reason: {}, please wait...", code, reason.trim() ); sender .close_with_reason(code, reason.trim().to_string()) .unwrap(); } else { display(format!("Unable to parse {} as close code.", args[1])); // Keep accepting input if the close arguments are invalid continue; } } break; } else { // Send the message display(format!(">>> {}", input.trim())); sender.send(input.trim()).unwrap(); } } } // Ensure the client has a chance to finish up client.join().unwrap(); } fn display(string: String) { let mut view = term::stdout().unwrap(); view.carriage_return().unwrap(); view.delete_line().unwrap(); println!("{}", string); print!("?> "); io::stdout().flush().unwrap(); } fn instructions() { println!("Type /close [code] [reason] to close the connection."); println!("Type /help to show these instructions."); println!("Other input will be sent as messages.\n"); print!("?> "); io::stdout().flush().unwrap(); } struct Client { ws_out: Sender, thread_out: TSender, } impl Handler for Client { fn on_open(&mut self, _: Handshake) -> Result<()> { self.thread_out .send(Event::Connect(self.ws_out.clone())) .map_err(|err| { Error::new( ErrorKind::Internal, format!("Unable to communicate between threads: {:?}.", err), ) }) } fn on_message(&mut self, msg: Message) -> Result<()> { Ok(display(format!("<<< {}", msg))) } fn on_close(&mut self, code: CloseCode, reason: &str) { if reason.is_empty() { display(format!( "<<< Closing<({:?})>\nHit any key to end session.", code )); } else { display(format!( "<<< Closing<({:?}) {}>\nHit any key to end session.", code, reason )); } if let Err(err) = self.thread_out.send(Event::Disconnect) { display(format!("{:?}", err)) } } fn on_error(&mut self, err: Error) { display(format!("<<< Error<{:?}>", err)) } } enum Event { Connect(Sender), Disconnect, }