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path: root/broadcast/src/handler.rs
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use smol::{
    future,
    lock::{Mutex, RwLock},
    prelude::*,
    Task, Timer,
};
use std::{
    collections::{HashMap, HashSet},
    sync::Arc,
    time::Duration,
};

use crate::{batch::MessageBatch, msg::*, topology::Topology};

use common::{
    msg::{MessageHeader, Output},
    msg_id::{gen_msg_id, MessageID},
    Handler,
};
const MAX_STABLE_DELAY_MS: Duration = Duration::from_millis(700);

pub struct BroadcastHandler {
    node_id: String,
    seen: RwLock<HashSet<BroadcastTarget>>,
    topology: Topology,
    batch: Mutex<MessageBatch>,
    pub(crate) output: Output<BroadcastBody>,
    attempted_broadcasts: Mutex<HashMap<MessageID, Task<()>>>,
}

impl Handler for BroadcastHandler {
    type Body = BroadcastBody;

    fn init(node_id: String, node_ids: Vec<String>, output: Output<Self::Body>) -> Arc<Self> {
        let max_message_delay = MAX_STABLE_DELAY_MS / (node_ids.len() / node_ids.len()) as u32;

        let this = Arc::new(Self {
            node_id,
            topology: Topology::dense(node_ids.clone()),
            seen: RwLock::new(HashSet::new()),
            output,
            attempted_broadcasts: Mutex::default(),
            batch: Mutex::new(MessageBatch::new(max_message_delay, 1000)),
        });

        smol::spawn(this.clone().poll_batch()).detach();

        this
    }

    fn handle<'a>(
        self: &'a Arc<Self>,
        header: MessageHeader,
        body: BroadcastBody,
    ) -> impl Future<Output = ()> + Send + 'a {
        async move {
            match body {
                BroadcastBody::Broadcast {
                    msg_id: Some(msg_id),
                    message,
                } => {
                    future::zip(
                        self.receive_broadcast(message),
                        self.send_broadcast_ok(&header.src, msg_id),
                    )
                    .await;
                }

                BroadcastBody::BroadcastBatch {
                    msg_id: Some(msg_id),
                    messages,
                } => {
                    future::zip(
                        self.receive_broadcast_batch(messages),
                        self.send_broadcast_ok(&header.src, msg_id),
                    )
                    .await;
                }

                BroadcastBody::Broadcast {
                    msg_id: None,
                    message,
                } => {
                    self.receive_broadcast(message).await;
                }

                BroadcastBody::BroadcastBatch {
                    msg_id: None,
                    messages,
                } => {
                    self.receive_broadcast_batch(messages).await;
                }

                BroadcastBody::Topology { msg_id, topology } => {
                    // Start using the new topology
                    self.topology.replace(topology).await;

                    // Send reply if needed
                    if let Some(msg_id) = msg_id {
                        self.output
                            .send(
                                &header.src,
                                &BroadcastBody::TopologyOk {
                                    in_reply_to: msg_id,
                                },
                            )
                            .await;
                    }
                }

                BroadcastBody::Read { msg_id } => {
                    // Send all received messages back
                    self.output
                        .send(
                            &header.src,
                            &BroadcastBody::ReadOk {
                                in_reply_to: msg_id,
                                messages: self.seen.read().await.clone(),
                            },
                        )
                        .await
                }

                BroadcastBody::BroadcastOk { in_reply_to } => {
                    // Stop retrying, if we still are
                    if let Some(task) = self.attempted_broadcasts.lock().await.remove(&in_reply_to)
                    {
                        task.cancel().await;
                    }
                }

                // Ignore other OK messages - we never actually request them
                BroadcastBody::TopologyOk { .. } => {}
                BroadcastBody::ReadOk { .. } => {}
            }
        }
    }
}

impl BroadcastHandler {
    /// Reply with a broadcast OK message
    async fn send_broadcast_ok(&self, src: &str, msg_id: MessageID) {
        self.output
            .send(
                &src,
                &BroadcastBody::BroadcastOk {
                    in_reply_to: msg_id,
                },
            )
            .await;
    }

    /// Receive a given message, and broadcast it onwards if it is new
    async fn receive_broadcast(self: &Arc<Self>, message: BroadcastTarget) {
        let new = self.seen.write().await.insert(message);
        if !new {
            return;
        }

        let mut batch = self.batch.lock().await;
        batch.add(message);
    }

    async fn receive_broadcast_batch(self: &Arc<Self>, message: Vec<BroadcastTarget>) {
        let mut batch = self.batch.lock().await;
        let mut seen = self.seen.write().await;
        let mut new = false;

        for message in message.into_iter() {
            new |= seen.insert(message);
            batch.add(message);
        }

        if !new {
            return;
        }
    }

    async fn poll_batch(self: Arc<Self>) {
        loop {
            let mut batch = self.batch.lock().await;
            if batch.should_broadcast() {
                let mut tasks = self.attempted_broadcasts.lock().await;
                for target in self.topology.all_targets(&self.node_id).await {
                    let msg_id = gen_msg_id();
                    let this = self.clone();
                    tasks.insert(msg_id, smol::spawn(batch.broadcast(this, target, msg_id)));
                }

                batch.clear();
            }

            let time = batch.sleep_time();
            drop(batch);

            Timer::after(time).await;
        }
    }
}