morethantext/src/session.rs

use crate::queue::{Message, MsgType, Queue};
use std::{
    sync::mpsc::{channel, Receiver},
    thread::spawn,
};
use uuid::Uuid;

const RESPONDS_TO: [MsgType; 1] = [MsgType::SessionValidate];

pub struct Session {
    queue: Queue,
    rx: Receiver<Message>,
}

impl Session {
    fn new(queue: Queue, rx: Receiver<Message>) -> Self {
        Self {
            queue: queue,
            rx: rx,
        }
    }

    pub fn start(queue: Queue) {
        let (tx, rx) = channel();
        let session = Session::new(queue, rx);
        session.queue.add(tx, RESPONDS_TO.to_vec());
        spawn(move || {
            session.listen();
        });
    }

    fn listen(&self) {
        loop {
            let msg = self.rx.recv().unwrap();
            self.validate(msg);
        }
    }

    fn validate(&self, msg: Message) {
        let mut reply = msg.reply(MsgType::Session);
        match msg.get_data("sess_id") {
            Some(id) => reply.add_data("sess_id", id.clone()),
            None => reply.add_data("sess_id", Uuid::new_v4()),
        }
        self.queue.send(reply);
    }
}

#[cfg(test)]
mod sessions {
    use super::*;
    use crate::queue::{Message, MsgType};
    use std::{sync::mpsc::channel, time::Duration};

    static TIMEOUT: Duration = Duration::from_millis(500);

    fn setup_session(listen_for: Vec<MsgType>) -> (Queue, Receiver<Message>) {
        let queue = Queue::new();
        let (tx, rx) = channel();
        queue.add(tx, listen_for);
        Session::start(queue.clone());
        (queue, rx)
    }

    #[test]
    fn get_new_session() {
        let listen_for = [MsgType::Session];
        let (queue, rx) = setup_session(listen_for.to_vec());
        let msg = Message::new(MsgType::SessionValidate);
        queue.send(msg.clone());
        let result = rx.recv_timeout(TIMEOUT).unwrap();
        match result.get_class() {
            MsgType::Session => {}
            _ => unreachable!(
                "received {:?}, should have been a session",
                result.get_class()
            ),
        }
        assert_eq!(result.get_id(), msg.get_id());
    }

    #[test]
    fn session_id_is_unique() {
        let listen_for = [MsgType::Session];
        let (queue, rx) = setup_session(listen_for.to_vec());
        let msg = Message::new(MsgType::SessionValidate);
        let mut ids: Vec<Uuid> = Vec::new();
        for _ in 0..10 {
            queue.send(msg.clone());
            let result = rx.recv().unwrap();
            let id = result.get_data("sess_id").unwrap().to_uuid().unwrap();
            assert!(!ids.contains(&id), "{} is a duplicate id", id);
            ids.push(id);
        }
    }

    #[test]
    fn existing_id_are_returned() {
        let listen_for = [MsgType::Session];
        let (queue, rx) = setup_session(listen_for.to_vec());
        let mut msg = Message::new(MsgType::SessionValidate);
        queue.send(msg.clone());
        let holder = rx.recv().unwrap();
        let id = holder.get_data("sess_id").unwrap().to_uuid().unwrap();
        msg.add_data("sess_id", id.clone());
        queue.send(msg);
        let result = rx.recv().unwrap();
        let output = result.get_data("sess_id").unwrap().to_uuid().unwrap();
        assert_eq!(output, id);
    }
}
Added the initial session service. 2025-04-05 09:50:54 -04:00			`use crate::queue::{Message, MsgType, Queue};`
			`use std::{`
			`sync::mpsc::{channel, Receiver},`
			`thread::spawn,`
			`};`
			`use uuid::Uuid;`

linked client to session. 2025-04-07 00:41:28 -04:00			`const RESPONDS_TO: [MsgType; 1] = [MsgType::SessionValidate];`
Added the initial session service. 2025-04-05 09:50:54 -04:00
linked client to session. 2025-04-07 00:41:28 -04:00			`pub struct Session {`
Added the initial session service. 2025-04-05 09:50:54 -04:00			`queue: Queue,`
			`rx: Receiver<Message>,`
			`}`

			`impl Session {`
			`fn new(queue: Queue, rx: Receiver<Message>) -> Self {`
			`Self {`
			`queue: queue,`
			`rx: rx,`
			`}`
			`}`

linked client to session. 2025-04-07 00:41:28 -04:00			`pub fn start(queue: Queue) {`
Added the initial session service. 2025-04-05 09:50:54 -04:00			`let (tx, rx) = channel();`
			`let session = Session::new(queue, rx);`
linked client to session. 2025-04-07 00:41:28 -04:00			`session.queue.add(tx, RESPONDS_TO.to_vec());`
Added the initial session service. 2025-04-05 09:50:54 -04:00			`spawn(move \|\| {`
			`session.listen();`
			`});`
			`}`

			`fn listen(&self) {`
			`loop {`
			`let msg = self.rx.recv().unwrap();`
			`self.validate(msg);`
			`}`
			`}`

			`fn validate(&self, msg: Message) {`
			`let mut reply = msg.reply(MsgType::Session);`
Removed send once session test. 2025-04-08 13:13:06 -04:00			`match msg.get_data("sess_id") {`
			`Some(id) => reply.add_data("sess_id", id.clone()),`
			`None => reply.add_data("sess_id", Uuid::new_v4()),`
			`}`
Added the initial session service. 2025-04-05 09:50:54 -04:00			`self.queue.send(reply);`
			`}`
			`}`

			`#[cfg(test)]`
			`mod sessions {`
			`use super::*;`
			`use crate::queue::{Message, MsgType};`
			`use std::{sync::mpsc::channel, time::Duration};`

			`static TIMEOUT: Duration = Duration::from_millis(500);`

Removed send once session test. 2025-04-08 13:13:06 -04:00			`fn setup_session(listen_for: Vec<MsgType>) -> (Queue, Receiver<Message>) {`
Added the initial session service. 2025-04-05 09:50:54 -04:00			`let queue = Queue::new();`
			`let (tx, rx) = channel();`
Removed send once session test. 2025-04-08 13:13:06 -04:00			`queue.add(tx, listen_for);`
Added the initial session service. 2025-04-05 09:50:54 -04:00			`Session::start(queue.clone());`
Removed send once session test. 2025-04-08 13:13:06 -04:00			`(queue, rx)`
			`}`

			`#[test]`
			`fn get_new_session() {`
			`let listen_for = [MsgType::Session];`
			`let (queue, rx) = setup_session(listen_for.to_vec());`
Added the initial session service. 2025-04-05 09:50:54 -04:00			`let msg = Message::new(MsgType::SessionValidate);`
			`queue.send(msg.clone());`
			`let result = rx.recv_timeout(TIMEOUT).unwrap();`
			`match result.get_class() {`
			`MsgType::Session => {}`
			`_ => unreachable!(`
			`"received {:?}, should have been a session",`
			`result.get_class()`
			`),`
			`}`
			`assert_eq!(result.get_id(), msg.get_id());`
			`}`

			`#[test]`
			`fn session_id_is_unique() {`
Removed send once session test. 2025-04-08 13:13:06 -04:00			`let listen_for = [MsgType::Session];`
			`let (queue, rx) = setup_session(listen_for.to_vec());`
Added the initial session service. 2025-04-05 09:50:54 -04:00			`let msg = Message::new(MsgType::SessionValidate);`
			`let mut ids: Vec<Uuid> = Vec::new();`
			`for _ in 0..10 {`
			`queue.send(msg.clone());`
			`let result = rx.recv().unwrap();`
linked client to session. 2025-04-07 00:41:28 -04:00			`let id = result.get_data("sess_id").unwrap().to_uuid().unwrap();`
Added the initial session service. 2025-04-05 09:50:54 -04:00			`assert!(!ids.contains(&id), "{} is a duplicate id", id);`
			`ids.push(id);`
			`}`
			`}`
Removed send once session test. 2025-04-08 13:13:06 -04:00
			`#[test]`
			`fn existing_id_are_returned() {`
			`let listen_for = [MsgType::Session];`
			`let (queue, rx) = setup_session(listen_for.to_vec());`
			`let mut msg = Message::new(MsgType::SessionValidate);`
			`queue.send(msg.clone());`
			`let holder = rx.recv().unwrap();`
			`let id = holder.get_data("sess_id").unwrap().to_uuid().unwrap();`
			`msg.add_data("sess_id", id.clone());`
			`queue.send(msg);`
			`let result = rx.recv().unwrap();`
			`let output = result.get_data("sess_id").unwrap().to_uuid().unwrap();`
			`assert_eq!(output, id);`
			`}`
Added the initial session service. 2025-04-05 09:50:54 -04:00			`}`